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https://www.wikidoc.org/index.php?title=Dilated_cardiomyopathy&diff=561536
Dilated cardiomyopathy
2009-11-04T14:19:06Z
<p>Sachin Shah: </p>
<hr />
<div>{{Infobox_Disease |<br />
Name = {{PAGENAME}} |<br />
Image = 1151.jpg| <br />
Caption = Dilated Cardiomyopathy: Gross dilated left ventricle with marked endocardial sclerosis <br> <small> [http://www.peir.net Image courtesy of Professor Peter Anderson DVM PhD and published with permission © PEIR, University of Alabama at Birmingham, Department of Pathology] </small>|<br />
DiseasesDB = 3066 |<br />
ICD10 = {{ICD10|I|42|0|i|30}} |<br />
ICD9 = {{ICD9|425.4}} |<br />
ICDO = |<br />
OMIM = 212110 |<br />
MedlinePlus = 000168 |<br />
eMedicineSubj = med |<br />
eMedicineTopic = 289 |<br />
eMedicine_mult = {{eMedicine2|emerg|80}} {{eMedicine2|ped|2502}} | <br />
MeshID = D002311 |<br />
}}<br />
{{SI}}<br />
{{WikiDoc Cardiology Network Infobox}}<br />
'''Editor-in-Chief:''' Sachin Shah, M.D. <br />
<br />
{{Editor Help}}<br />
<br />
==Overview==<br />
'''Dilated cardiomyopathy''' or '''DCM''' is a condition of the heart that causes dilation and impaired contraction of the left ventricle (or both ventricles). Impaired contraction is defined as a low ejection fraction (< 40%). In the following text the clinical presentation, diagnosis, and treatment will be reviewed. <br />
<br />
[[Cardimyopathy]] as a general topic also includes topics such as [[restrictive cardiomyopathy]] and [[hypertrophic cardiomyopathy]]. This section will focus on dilated cardiomyopathy. There is sometimes confusion regarding nomenclature, some of this confusion is based on different classifications set forth by the WHO (World Health Organization) and the AHA (American Heart Association). The WHO classifies cardiomyopathy as either Dilated (DCM), Restrictive (RCM), or Hypertrophic (HCM). The American Heart Association classifies cardiomyopathies as either "primary" or "secondary."<br />
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Dilated cardiomyopathy can occur at any age (although it is more likely between the ages of 20-60)<ref>Dec GW, Fuster V. Idiopathic Dilated Cardiomyopathy. N Engl J Med 1994 Dec 8;331(23):1564-75. PMID 7969328</ref> there is a male predominance (3:1 male:female),<ref>Robbins Basic Pathology, 7th edition. Kumar, Cotran, Robbins. ISBN 0-7216-9274-5</ref>, and is 2.5 times more likely in African Americans.<ref>Coughlin SS, Labenberg JR, Tefft MC. Black-white differences in idiopathic dilated cardiomyopathy: the Washington DC Dilated Cardiomyopathy Study. Epidemiology. 1993;4:165-72. PMID 8452906</ref>. There are many causes and there are varying degrees of severityof the disease . Some forms are reversible and some are irreversible; some patients may be completely asymptoamtic and some may require cardiac transplantation. <br />
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<br />
==Causes==<br />
There are many causes of dilated cardiomyopathy. The most common cause is "idiopathic" which accounts for roughly 50% of cases.<ref> Felker GM, Thompson RE, et al. Underlying causes and long-term survival in patients with initially unexplained cardiomyopathy. N Engl J Med 2000 Apr 13;342(14):1077-84.</ref> The next most common is Myocarditis which accounts for roughly 10%. Ischemic "cardiomyopathy," infiltrative disease, hypertensive heart disease, substance abuse (i.e. alcohol abuse or cocaine abuse), connective tissue disease, peripartum cardiomyopathy, drugs (such as the chemotherapeutic agent doxarubacin), HIV infection or antiretroviral drugs, toxins (such as cobalt, lead or beryllium), and nutritional deficiencies (such as thiamine or selenium) are among other causes of dilated cardiomyopathy. <br />
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The high percentage of idiopathic dilated cardiomyopathy may be related to the difficulty in diagnosing viral myocarditis. There are not definitive diagnostic criteria for myocarditis based on echocardiography, the clinical presentation is commonly similar to dilated cardiomyopathy from other causes, and the sensitivity of endomycardial biopsy is relatively low and approaches near 50% even with immunostaining (CD3 for T lymphocytes and CD68 for macrophages).<ref>Herskowitz A, Ahmed-Ansari A, Neumann DA et al. Induction of major histocompatibility complex antigens within the myocardium of patients with active myocarditis: a nonhistologic marker of myocarditis. J Am Coll Cardiol. 1990;15(3):624-632.</ref>. Cardiac MRI (Magnetic Resonance Imaging) appears to be not only helpful in the localization of inflammation and targeting of endomyocardial biopsy but also seems to be helpful in the diagnosis of myocarditis.<ref>Freidrich MG, Strohm O, et al. Contrast media-enhanced mangetic resonance imaging visualizes myocardial changes in the course of viral myocarditis. Circulation. 1998;97(18):1802-1809.</ref> This new technology may be helpful in reducing the percentage of idiopathic dilated cardiomyopathy and discovering an etiology to the dilated cardiomyopathy in some of these patients.<br />
<br />
==Clinical Presentation==<br />
The clinical presentation of dilated cardiomyopathy is similar to that heart failure from any cause. Dyspnea on exertion, orthopnea, paroxysmal nocturnal dyspnea, lower extremity edema and orthostasis / syncope are all common findings in dilated cardiomyopathy. In addition, dilated cardiomyopathy may present as palpitations as a result of arrhythmia (ventricular or atrial) with the most common arrhythmia being atrial fibrillation. Dilated cardiomyopathy may also present as sudden cardiac death or as CVA (cerebrovascular accident) or other embolic phenomenon (either from associated atrial fibrillation or from ventricular thrombi as a result of dilated ventricular cavities). <br />
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Angina is not a common feature of dilated cardiomyopathy unless the cause is related to coronary artery disease. If angina is present a work up for cardiac ischemia should be undertaken.<ref> Mayo Clinic Cardiology. Concise Textbook. Murphy, Joseph G; Lloyd, Margaret A. Mayo Clinic Scientific Press. 2007.</ref><br />
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==Diagnosis==<br />
The diagnosis of dilated cardiomyopathy is based on clinical presentation and imaging findings. The most common imaging modality used to diagnose dilated cardiomyopathy is 2D-echocardiography. Echocardiographic findings of dilated cardiomyopathy include dilation of the left ventricle; however, may include dilation of all 4 cardiac chambers, LV (left ventricular) wall thickness usually is normal but given the dilation the LV mass is increased. In addition there is a global reduciton in systolic function. Occasionally there may also be focal wall motion abnormalities even in patients ''without'' flow limiting coronary artery disease.<ref> Mayo Clinic Cardiology. Concise Textbook. Murphy, Joseph G; Lloyd, Margaret A. Mayo Clinic Scientific Press. 2007.</ref> <br />
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The diagnosis requires a dilated left ventricle and low ejection fraction.<br />
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In terms of determining the etiology a careful history is most instrumental. If the patient has CAD (coronary artery disease) risk factors, known CAD, or angina then a workup for CAD should be undertaken with coronary angiography. A viral prodrome such as viral URI or viral gastroenteritis may make viral myocarditis as a more likely cause. If the patient was exposed to chemotherapy such as anthracyclines then this would be the likely cause. Patients at risk for HIV should undergo testing as HIV can cause a dilated cardiomyopathy. Peripartum cardiomyopathy most often occurs 1 month prior to expected delivery or 5 months after delivery, so recent childbirth is important information. Often by 8 months gestational age pregnancy is physically apparent but it is important to rule out pregnancy in women of childbearing age with dilated cardiomyopathy. Screening questions regarding cocaine or alcohol abuse or other toxin exposure (such as cobalt) should be addressed. <br />
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A review of systems is also helpful in regards to connective tissue disease associated dilated cardiomyopathy (which can be related to SLE (systemic lupus erythematosis), rheumatoid arthritis, sarcoidosis, scleroderma, as well as other connective tissue diseases). <br />
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A family history also has a great importance in the diagnosis of dilated cardiomyopathy. It has been suggested that a portion of those patients labeled as "idiopathic" may have a familial form of the disease. The prevalence of this in the population of patients with dilated cardiomyopathy has been estimated as high as 25%.<ref>Ross J Jr. Dilated cardiomyopathy: concepts derived from gene deficient and transgenic animal models. Circ J. 2002;66:219-24. PMID 11922267</ref> The majority of these are thought to be related to autosomal dominant transmission, the remaining are thought to be transimtted in an autosomal recessive and X-linked fashion.<ref>Mestroni L; Rocco C; et al. Familial dilated cardiomyopathy: evidence for genetic and phenotypic heterogeneity. Heart Muscle Disease Study Group. J Am Coll Cardiol 1999 Jul;34(1):181-90.</ref> Mitochondrial inheritance of the disease has also been identified.<ref>Schonberger J, Seidman CE. Many roads lead to a broken heart: the genetics of dilated cardiomyopathy. Am J Hum Genet. 2001;69:249-60. Epub 2001 Jul 6. PMID 11443548</ref><br />
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Pericardial effusion may accompany myocarditis but this finding is not specific. Cardiac MRI as discussed above may be helpful in diagnosing myocarditis. Endomyocardial biopsy as discussed above has low sensitivy and the findings are also notoriously non-specific. The findings on biopsy usually involve findings of inflammation and specific pathogens are unlikely to be identified. There may be an increased yield to using MRI to target endomyocardial biopsy as described above. Viral titiers (serologies) are often unhelpful and not routinely ordered in clinical practice. <br />
<br />
==Prognosis==<br />
There are many prognostic factors which can be evaluated in a patient with dilated cardiomyopathy.<ref> Mayo Clinic Cardiology. Concise Textbook. Murphy, Joseph G; Lloyd, Margaret A. Mayo Clinic Scientific Press. 2007.</ref> The most important prognostic indicator is a decreased ejection fraction, in addition increased left ventricular size and right ventricular dilation are independent indicators of a poor prognosis. <br />
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As is in most types of heart failure a poor NYHA functional class and increased PASP (>35mmHg) are also poor prognostic indicators. <br />
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Other findings that infer a poor prognosis are as follows: Maximal O2 uptake of < 12mL/kg / minute on exercise testing, LBBB (left bundle branch block), non sustained ventricular tachycardia, syncope, hyponatremia with a serum sodium less than 135, elevated norepinephrine, ANP (atrial natriuretic peptide) and renin levels (not routinely measured in clinical practice), elevated PCWP (pulmonary capillary wedge pressure) > 18mmHg, low cardiac index < 2.5L/min/m^2. <br />
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==Treatment==<br />
Death from dilated cardiomyopathy is usually the result of progressive heart failure or arrhythmia. Treatments for dilated cardiomyopathy are targeted towards preventing death and treating symptoms of heart failure. Some medications (such as ACE inhibitors) may help acheive both goals. Initial treatment should focus on the underlying cause of dilated cardiomyopathy if reversible. If for example a patient has dilated cardiomyopathy and three vessel coronary artery disease then revascularization should be an initial step in treatment. <br />
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Medications which have a proven survival benefit in systolic heart failure are ACE (angiotensin converting enzyme) inhibitors, ARBs (angiotensin II receptor blockers), beta blockers (carvedilol, bisoprolol and metoprolol succinate are the most well studied), aldosterone antagonists (in severe heart failure) and combination of long acting nitrates and hydralazine. Medications targeted towards symptom relief in systolic heart failure are diuretics and digoxin. Warfarin is also a medication used in systolic heart failure; the benefit of this medication is controversial.<br />
<br />
===ACE inhibitors in dilated cardiomoypathy===<br />
ACE inhibitors are thought to be useful in dilated cardiomyopathy by not only causing arterial vasodilation and reduction of afterload but also by reduction in levels of angiotensin II, aldosterone, and ADH which may have deleterious remodeling effects on the heart as well as vasoconstriction. ACE inhibitors have been extensively studied in systolic heart failure and have been shown to reduce symptoms, slow the progression of heart failure and reduce mortality in all classes of heart failure. The most profound impact is seen in patients who are most symptomatic as well as those patients who have recently suffered a myocardial infarction. In addition ACE inhibitors have been shown to slow the progression of LV (left ventricular) dilation in systolic heart failure. <br />
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The SOLVD-Prevention trial and SAVE trial both are large randomized controlled trials which evaluated patients with asymptomatic systolic heart failure. SOLVD-Prevention examined 4000 patients with an EF < 35% who were asymptomatic and randomized them to enalapril (dose 2.5-20mg daily) or placebo. After an average 3 years follow up there was a significant reduction in heart failure hospitalizations but no difference in mortality. The SAVE (Survival and Ventricular Enlargement) trial studied 2200 patients with an EF < or = to 40% within 3-14 days following an acute myocardial infarction. These patients were given either captopril or placebo and followed for an average of 3.5 years. There was a significant 25% reduciton in myocardial infarction and a significant reduction in death from recurrent MI by 32% in the captopril group.<ref>Circulation, Oct 1994;90:1731-1738.</ref><br />
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The CONSENSUS, SOLVD-Treatment and V-HeFT II trials all examined ACE inhibitors in symptomatic patients with systolic heart failure. The CONSENSUS trial was published in 1987 and studied 250 patients with NYHA class IV heart failure. These patients were randomized to enalapril (dose 2.5mg - 40mg daily) or placebo. After an average follow up of 6 months there was a 40% reduction in mortality in the enalapril group (this persisted to 1 year, at 1 year there was a 31% reduction in mortality in the enalapril group). The reduction in mortality was attributed to a reduction in the death from progressive heart failure, not from a reduction in sudden cardiac death. SOLVD-Treatement and V-HeFT II also showed a reduction in mortality with ACE inhibitors, both of these studies evalauted mainly patients with NYHA class II or III heart failure.<ref>N Engl J Med. 1991 Aug 1;325(5):303-10</ref><ref>N Engl J Med. 1991 Aug 1;325(5):293-302.</ref><br />
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The AIRE and TRACE trials were placebo controlled randomized controlled trials which both evaluated ACE inhibitors (ramipril and trandolapril respectively) in heart failure following a myocardial infarction. Both of these studies also showed a reduction in mortality in the ACE inhibitor arm when compared to placebo. These studies evaluated patients at a minimum of 2 (AIRE) or 3 (TRACE) days following an acute MI. <br />
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The CONSENSUS II, ISIS-4, GISSI-3 and SMILE studies all evaluated patients early (within 24 hours) following an acute myocardial infarction. All but the CONSENSUS II study showed a mortality benefit (both short and long term) in the ACE inhibitor arm when compared to placebo.<ref>Lancet. 1995 Mar 18;345(8951):669-85</ref><ref>Lancet. 1994 May 7;343(8906):1115-22</ref><ref>N Engl J Med. 1995 Jan 12;332(2):80-5.</ref> <br />
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===ARBs in dilated cardiomyopathy===<br />
ARBs have also been extensively studied. There are at least four large trials which support the use of ARBs in systolic heart failure. These include the ELITE, ELITE II, Val-HeFT, and CHARM trials. The ELITE trial randomized 722 patients over the age of 65 with an EF < 40% and NYHA class II-IV heart failure to either an ACEi (captopril) or an ARB (losartan). After a follow up of 48 weeks there was no difference in the primary endpoint (persistent elevations in serum creatinine) however a secondary endpoint of mortality showed a risk reduction of 46% in teh losartan group.<ref>Lancet 1997;349:747-52</ref> This was further evaluated in the ELITE II trial which randomized 3150 patients similar to those in the ELITE trial and again compared captopril and losartan. After a mean follow up of 555 days there was no difference in mortalitity or resuscitated arrest, but losartan was "better tolerated" than captopril (captopril was most often discontinued due to ACEi related cough).<ref>Lancet. 2000;355:1582-1587.</ref> The Val-HeFT trial was a placebo controlled RCT that evaluated studied valsartan use in 5000 patients with heart failure. There was a reduction in the combined endpoint of mortality and morbidity after a mean follow up of 23 months.<ref>N Engl J Med. 2001 Dec 6;345(23):1667-75</ref> <br />
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CHARM randomized 7,600 patients to candesartan or placebo. There were 3 subgroups analyzed in this study. CHARM Added showed that there was a reduction in cardiovascular mortality or CHF hospitlization in patients with systolic heart failure (EF < 40%) who were taking candesartan as well as an ACEi when compared to an ACEi alone. The CHARM Alternative subgroup showed that in ACEi intolerant patients with systolic heart failure (EF < 40%) there was a reduction in mortality or CHF hospitalization in patients taking an ARB (candesartan) when compared to placebo. The CHARM Preserved group evaluated patients with heart failure and a preserved ejection fraction and found no difference between candesartan and placebo.<ref>Circulation 2004; 110:2180</ref><br />
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The data is very strongly in favor of using ACEi as first line medications for systolic heart failure, and the addition of ARBs may be helpful. In addition, if patients are intolerant of ACEi there are clear benefits to using ARBs. <br />
<br />
===Beta Blockers in dilated cardiomyopathy===<br />
Beta blockers have been extensively studied in systolic heart failure. Bisoprolol, metoprolol succinate and carvedilol are the most supported by data. The U.S. Carvedilol study randomized roughly 1000 patients with an EF < 35% to either carvedilol or placebo. The study was stopped early as there was a 65% risk reduction in mortality in the carvedilol group and there was also a reduction in hospitalizations from a cardiac cause.<ref>N Enlg J Med. 1996 May 23;334(21):1349-55.</ref> The MERIT HF trial randomized 4000 patients NYHA II-IV with an EF < 40% to receive either metoprolol succinate ("Toprol XL") at doses 12.5mg daily uptitrated to 200mg daily or placebo. After a mean of 1 year follow up the study was also stopped early as there was a 34% risk reduction in mortality in the metoprolol succinate group. This reduction in mortality was attributed both to a reduction in sudden cardiac death as well as death from heart failure.<ref>Lancet 1999 Jun 12;353(9169):2001-7.</ref> Other large trials of beta blockers in systolic heart failure include CIBIS-II, COPERNICUS, and COMET.<br />
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===Aldosterone antagonists in dilated cardiomyopathy===<br />
Aldosterone antagonists have been used in systolic heart failure and have been shown to have a mortality benefit. Based on results of the RALES trial aldosterone antagonists are used in patients with systolic dysfunction and NYHA class III or IV heart failure. Hyperkalemia is an important side effect in heart failure patients especially who may have concominant renal disease or may be on an ACE inhibitor and / or an ARB. Spironolactone and epleronone are commonly used aldosterone antagonists. Epleronone is more specific to the mineralocorticoid receptors and spironolactone binds relatively more androgen and progesterone receptos; therefore, spironolactone is more likely to cause endocrine side effects such as gynecomastia in men. The RALES trial randomized 1663 patients with an EF < 35% and severe heart failure to spironolactone (25mg daily) or placebo. The patients were also taking ACEi, loop diuretics and most were taking digoxin. The study was stopped early after a mean of 24 months follow up as there was a 30% risk reduction in mortality noted in the spironolactone group. This reduction in mortality was attributed both to a reduction of progresive heart failure deaths and a reduction in sudden cardiac death.<ref>N Engl J Med. 1999 Sep 2;341(10):709-17.</ref><br />
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===Long acting nitrate and hydralazine combinations in dilated cardiomyopathy===<br />
VHeFT-I and VHeFT-II have shown that there is a benefit in morbidity and mortality to long acting nitrates combined with hydralazine in patients with systolic heart failure. This effect is thought to be less robust than ACEi (VHeFT-I compared this combination to an ACEi enalapril and showed a reduction in mortality in the ACEi group). Common practice is to use this combination in patients who are unable to tolerate an ACEi or ARB; such as patients with advanced renal disease.<br />
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===Warfarin in dilated cardiomyopathy===<br />
As stated above warfarin is a medication that is occasionally used in systolic heart failure and the benefits are controversial. In systolic heart failure and atrial fibrillation there is a more clear benefit in terms of stroke prevention; however, in isolated systolic heart failure the reduction in embolic risk has not been fully elucidated. <br />
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===Diuretics in dilated cardiomyopathy===<br />
Loop diuretic medications are commonly used for patients with symptoms of heart failure. There has been no clear survival benefit associated with loop diuretics; however, the use of diuretics and a sodium restricted diet are the mainstays of treatment for congestive symptoms.<br />
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===Digoxin in dilated cardiomyopathy===<br />
Digoxin is sometimes used in systolic heart failure for symptom relief. A survival benefit has not been shown with digoxin use; however, it is useful for symptomatic treatment. There may be more of a role for digoxin in systolic heart failure and atrial fibrillation as digoxin may serve a dual purpose of heart failure symptom relief related to increased ionotropy as well as ventricular rate control related to AV nodal blockade. The RADIANCE trial and The Digoxin Study evaluated digoxin in heart failure patients.<br />
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===N-3 polyunsaturated fatty acids===<br />
N-3 polyunsaturated fatty acids have also been evaluated by the GISSI-HF group and showed a slight reduction in mortality (from 29% to 27%) at roughly 3 years of follow up.<ref>Tavazzi L; Maggioni AP, et al. Effect of n-3 polyunsaturated fatty acids in patients with chronic heart failure (the GISSI-HF trial): a randomised, double-blind, placebo-controlled trial. Lancet. 2008 Oct 4;372(9645):1223-30. Epub 2008 Aug 29.</ref><br />
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==Advanced Therapies==<br />
In patients with end stage heart failure or hemodynamic compromise vasopressor agents may be helpful. In patients with hemodynamic compromise medications such as dobutamine or dopamine may provide blood pressure support necessary. In addition parental agents such as milrinone (a phosphodiesterase inhibitor- somewhat specific for cardiac and vascular tissue) may be helpful in the short term or for end stage patients. There is no clear survival benefit and most trials with IV phosphodiesterase inhibitors are small trials of end stage heart failure patients. Oral milrinone has been studied and has been shown to increase mortality (as seen in the PROMISE trial). <br />
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In patients who have severe heart failure and are refractory to medical therapy cardiac transplantation may be an option (based upon patient characteristics such as age and comorbidities as well as disease characterisitics such as the etiology of dilated cardiomyopathy). As a bridge to cardiac transplantation multiple mechanical devices have been used. The most durable device is the LVAD (left ventricular assist device), certain patient populations not suitable for cardiac transplantation may also undergo LVAD placement by a cardiac surgeon as a "destination LVAD." This may be considered a palliative measure for end-stage heart failure patients. Other devices which may be more limited in the duration of use include the aortic balloon pump, Impella, and the PVAD (peripheral ventricular assist device) one of which is the Tandem Heart.<br />
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===Implantable cardiac defibrillators in dilated cardiomyopathy===<br />
Implantable cardiac defibrillators (ICDs) have also been extensively studied in systolic heart failure. A survival benefit has also been shown in select patient populations. ICDs are implanted in patients with systolic heart failure for primary prevention of sudden cardiac death. The AHA/ACC (American Heart Association/American College of Cardiology) class I indications for ICDs for primary prevention are: 1. EF < 35% due to prior MI, 40 days post MI, NYHA class II or III. 2. EF < 35% NYHA class II or III non ischemic dilated cardiomyopathy. 3. EF < 30%, prior MI, 40 days post MI, NYHA I. 4. EF < 40%, prior MI, NSVT and inducible VT/VF at EP study. <br />
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There are four major studies that have helped shape these indication for an ICD. The MADIT I evaluated NYHA class I to III heart failure patients with an EF < or = to 35%, with NSVT and inducible VT or VF on EP study and randomized 196 patients to ICD versus conventional medical therapy. The patients who received ICDs had improved survival at 5 years. 60% of patients received shocks by 2 years.<ref>N Engl J Med. 1996. Dec 355(26)</ref> The findings from this study are encompassed in the remaining three studies. <br />
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Madit II randomized 1232 patients who had a prior MI > 1 month prior to enrollment, an EF < or = to 30% to ICD or medical therapy and after a follow up of an average of 20 months there was a survival advantage in the ICD group. The number needed to treat was 18 patients. <ref>N Engl J Med. 2002. Mar 346(12)</ref><br />
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MUSTT randomized 704 patients with an EF < or = to 40%, NSVT and inducible VT/VF at EP study to arrhythmia therapy (medications and ICDs) or no antiarrhythmia. At 5 years there was a 27 risk reduction in mortality in the antiarrhythmia group. The relative risk of mortality when comparing ICD vs. no ICD was 0.24. There was no difference in mortality in the antiarrhythmic medication vs. no antiarrthymic medication subgroups.<ref>N Engl J Med. 1999 Dec 341:1882-1890.</ref><br />
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SCD-HeFT randomized 2521 patients with class II or III CHF and EF < or = to 35% (ischemic or non ischemic) to three arms: 1. conventional therapy, 2. conventional therapy plus amiodarone, and 3. conventional therapy plus an ICD. After a median follow up of 46 months there was a relative risk of death of 0.77 in the ICD arm. Findings were similar in the ischemic and non-ischemic subgroups.<ref>N Engl J Med. 2005. Jan 352(3).</ref> <br />
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NYHA class IV heart failure is a contraindication to ICD placement.<br />
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==Gross Pathological Findings==<br />
Images shown below are Courtesy of Professor Peter Anderson DVM PhD and published with permission. [http://www.peir.net © PEIR, University of Alabama at Birmingham, Department of Pathology]<br />
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<div align="left"><br />
<gallery heights="175" widths="175"><br />
Image:414.jpg|Cardiomyopathy: Gross excellent view of mitral valve from left atrium anterior leaflet appears to balloon a bit into the atrium<br />
Image:415.jpg|Cardiomyopathy: Gross excellent view of mitral and tricuspid valves from atria, appear normal anatomy.<br />
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<gallery heights="175" widths="175"><br />
Image:6621.jpg|Dilated Cardiomyopathy: Gross natural color close-up view of heart surgically removed for a transplantation shows aortic valve and anterior leaflet of mitral valve with cholesterol deposits endocardium of left ventricle is diffusely thickened<br />
Image:434.jpg|Cardiomyopathy: Gross external view of globular heart with patchy fibrosis seen through epicardium<br />
</gallery><br />
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<div align="left"><br />
<gallery heights="175" widths="175"><br />
Image:874.jpg|Cardiomyopathy: Gross dilated left ventricle with marked endocardial thickening this is what has been called adult fibroelastosis<br />
Image:1134.jpg|Dilated Cardiomyopathy: Gross good example huge dilated left ventricle<br />
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<div align="left"><br />
<gallery heights="175" widths="175"><br />
Image:1151.jpg|Dilated Cardiomyopathy: Gross dilated left ventricle with marked endocardial sclerosis (an excellent example)<br />
Image:1457.jpg|Cardiomyopathy: Gross intact globular shaped heart<br />
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<div align="left"><br />
<gallery heights="175" widths="175"><br />
Image:1489.jpg|Dilated Cardiomyopathy: Gross opened left ventricle dilated with endocardial thickening good example<br />
Image:1509.jpg|Cardiomyopathy: Gross globular heart external view 10 year old girl with sickle cell anemia<br />
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<gallery heights="175" widths="175"><br />
Image:1510.jpg|Cardiomyopathy: Gross horizontal sections of ventricles dilation type 10 year old girl with sickle cell anemia<br />
Image:2367.jpg|Cardiomyopathy: Intermediate between hypertrophic and dilated<br />
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<div align="left"><br />
<gallery heights="175" widths="175"><br />
Image:2665.jpg|Dilated Cardiomyopathy: Gross opened globular left ventricle natural color (very good example)<br />
Image:2221.jpg|Brain: Infarct: Healing large MCA and PICA probably embolic 64 year old female chronic obstructive pulmonary disease and cardiomyopathy with atrial fibrillation<br />
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<gallery heights="175" widths="175"><br />
Image:8777.jpg|Kidney: Infarct Remote: Gross external view with capsule removed two old and very typical infarct scars 27yobf with dilated cardiomyopathy<br />
Image:6224.jpg|Dilated Cardiomyopathy: Gross natural color external view globular heart 500 gm 24yo female seven pregnancies<br />
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==References==<br />
{{Reflist|2}}<br />
<br />
==See Also==<br />
<br />
* [[Cardiomyopathy]]<br />
* [[Hypertrophic cardiomyopathy]]<br />
<br />
==External links==<br />
* [http://www.cardiomyopathy.org/html/which_card_dcm.htm Cardiomyopathy Association: Dilated cardiomyopathy]<br />
* [http://www.childrenscardiomyopathy.org Children's Cardiomyopathy Foundation]<br />
<br />
==Additional Reading==<br />
<br />
* Moss and Adams' Heart Disease in Infants, Children, and Adolescents Hugh D. Allen, Arthur J. Moss, David J. Driscoll, Forrest H. Adams, Timothy F. Feltes, Robert E. Shaddy, 2007 ISBN 0781786843<br />
* Braunwald's Heart Disease, Libby P, 8th ed., 2007, ISBN 978-1-41-604105-4<br />
* Hurst's the Heart, Fuster V, 12th ed. 2008, ISBN 978-0-07-149928-6<br />
* Willerson JT, Cardiovascular Medicine, 3rd ed., 2007, ISBN 978-1-84628-188-4<br />
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Sachin Shah
https://www.wikidoc.org/index.php?title=Dilated_cardiomyopathy&diff=561534
Dilated cardiomyopathy
2009-11-04T11:41:07Z
<p>Sachin Shah: </p>
<hr />
<div>{{Infobox_Disease |<br />
Name = {{PAGENAME}} |<br />
Image = 1151.jpg| <br />
Caption = Dilated Cardiomyopathy: Gross dilated left ventricle with marked endocardial sclerosis <br> <small> [http://www.peir.net Image courtesy of Professor Peter Anderson DVM PhD and published with permission © PEIR, University of Alabama at Birmingham, Department of Pathology] </small>|<br />
DiseasesDB = 3066 |<br />
ICD10 = {{ICD10|I|42|0|i|30}} |<br />
ICD9 = {{ICD9|425.4}} |<br />
ICDO = |<br />
OMIM = 212110 |<br />
MedlinePlus = 000168 |<br />
eMedicineSubj = med |<br />
eMedicineTopic = 289 |<br />
eMedicine_mult = {{eMedicine2|emerg|80}} {{eMedicine2|ped|2502}} | <br />
MeshID = D002311 |<br />
}}<br />
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{{WikiDoc Cardiology Network Infobox}}<br />
'''Editor-in-Chief:''' Sachin Shah, M.D. <br />
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<br />
==Overview==<br />
'''Dilated cardiomyopathy''' or '''DCM''' is a condition of the heart that causes dilation and impaired contraction of the left ventricle (or both ventricles). Impaired contraction is defined as a low ejection fraction (< 40%). In the following text the clinical presentation, diagnosis, and treatment will be reviewed. <br />
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[[Cardimyopathy]] as a general topic also includes topics such as [[restrictive cardiomyopathy]] and [[hypertrophic cardiomyopathy]]. This section will focus on dilated cardiomyopathy. There is sometimes confusion regarding nomenclature, some of this confusion is based on different classifications set forth by the WHO (World Health Organization) and the AHA (American Heart Association). The WHO classifies cardiomyopathy as either Dilated (DCM), Restrictive (RCM), or Hypertrophic (HCM). The American Heart Association classifies cardiomyopathies as either "primary" or "secondary."<br />
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Dilated cardiomyopathy can occur at any age (although it is more likely between the ages of 20-60)<ref>Dec GW, Fuster V. Idiopathic Dilated Cardiomyopathy. N Engl J Med 1994 Dec 8;331(23):1564-75. PMID 7969328</ref> there is a male predominance (3:1 male:female),<ref>Robbins Basic Pathology, 7th edition. Kumar, Cotran, Robbins. ISBN 0-7216-9274-5</ref>, and is 2.5 times more likely in African Americans.<ref>Coughlin SS, Labenberg JR, Tefft MC. Black-white differences in idiopathic dilated cardiomyopathy: the Washington DC Dilated Cardiomyopathy Study. Epidemiology. 1993;4:165-72. PMID 8452906</ref>. There are many causes and there are varying degrees of severityof the disease . Some forms are reversible and some are irreversible; some patients may be completely asymptoamtic and some may require cardiac transplantation. <br />
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<br />
==Causes==<br />
There are many causes of dilated cardiomyopathy. The most common cause is "idiopathic" which accounts for roughly 50% of cases.<ref> Felker GM, Thompson RE, et al. Underlying causes and long-term survival in patients with initially unexplained cardiomyopathy. N Engl J Med 2000 Apr 13;342(14):1077-84.</ref> The next most common is Myocarditis which accounts for roughly 10%. Ischemic "cardiomyopathy," infiltrative disease, hypertensive heart disease, substance abuse (i.e. alcohol abuse or cocaine abuse), connective tissue disease, peripartum cardiomyopathy, drugs (such as the chemotherapeutic agent doxarubacin), HIV infection or antiretroviral drugs, toxins (such as cobalt, lead or beryllium), and nutritional deficiencies (such as thiamine or selenium) are among other causes of dilated cardiomyopathy. <br />
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The high percentage of idiopathic dilated cardiomyopathy may be related to the difficulty in diagnosing viral myocarditis. There are not definitive diagnostic criteria for myocarditis based on echocardiography, the clinical presentation is commonly similar to dilated cardiomyopathy from other causes, and the sensitivity of endomycardial biopsy is relatively low and approaches near 50% even with immunostaining (CD3 for T lymphocytes and CD68 for macrophages).<ref>Herskowitz A, Ahmed-Ansari A, Neumann DA et al. Induction of major histocompatibility complex antigens within the myocardium of patients with active myocarditis: a nonhistologic marker of myocarditis. J Am Coll Cardiol. 1990;15(3):624-632.</ref>. Cardiac MRI (Magnetic Resonance Imaging) appears to be not only helpful in the localization of inflammation and targeting of endomyocardial biopsy but also seems to be helpful in the diagnosis of myocarditis.<ref>Freidrich MG, Strohm O, et al. Contrast media-enhanced mangetic resonance imaging visualizes myocardial changes in the course of viral myocarditis. Circulation. 1998;97(18):1802-1809.</ref> This new technology may be helpful in reducing the percentage of idiopathic dilated cardiomyopathy and discovering an etiology to the dilated cardiomyopathy in some of these patients.<br />
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==Clinical Presentation==<br />
The clinical presentation of dilated cardiomyopathy is similar to that heart failure from any cause. Dyspnea on exertion, orthopnea, paroxysmal nocturnal dyspnea, lower extremity edema and orthostasis / syncope are all common findings in dilated cardiomyopathy. In addition, dilated cardiomyopathy may present as palpitations as a result of arrhythmia (ventricular or atrial) with the most common arrhythmia being atrial fibrillation. Dilated cardiomyopathy may also present as sudden cardiac death or as CVA (cerebrovascular accident) or other embolic phenomenon (either from associated atrial fibrillation or from ventricular thrombi as a result of dilated ventricular cavities). <br />
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Angina is not a common feature of dilated cardiomyopathy unless the cause is related to coronary artery disease. If angina is present a work up for cardiac ischemia should be undertaken.<ref> Mayo Clinic Cardiology. Concise Textbook. Murphy, Joseph G; Lloyd, Margaret A. Mayo Clinic Scientific Press. 2007.</ref><br />
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==Diagnosis==<br />
The diagnosis of dilated cardiomyopathy is based on clinical presentation and imaging findings. The most common imaging modality used to diagnose dilated cardiomyopathy is 2D-echocardiography. Echocardiographic findings of dilated cardiomyopathy include dilation of the left ventricle; however, may include dilation of all 4 cardiac chambers, LV (left ventricular) wall thickness usually is normal but given the dilation the LV mass is increased. In addition there is a global reduciton in systolic function. Occasionally there may also be focal wall motion abnormalities even in patients ''without'' flow limiting coronary artery disease.<ref> Mayo Clinic Cardiology. Concise Textbook. Murphy, Joseph G; Lloyd, Margaret A. Mayo Clinic Scientific Press. 2007.</ref> <br />
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The diagnosis requires a dilated left ventricle and low ejection fraction.<br />
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In terms of determining the etiology a careful history is most instrumental. If the patient has CAD (coronary artery disease) risk factors, known CAD, or angina then a workup for CAD should be undertaken with coronary angiography. A viral prodrome such as viral URI or viral gastroenteritis may make viral myocarditis as a more likely cause. If the patient was exposed to chemotherapy such as anthracyclines then this would be the likely cause. Patients at risk for HIV should undergo testing as HIV can cause a dilated cardiomyopathy. Peripartum cardiomyopathy most often occurs 1 month prior to expected delivery or 5 months after delivery, so recent childbirth is important information. Often by 8 months gestational age pregnancy is physically apparent but it is important to rule out pregnancy in women of childbearing age with dilated cardiomyopathy. Screening questions regarding cocaine or alcohol abuse or other toxin exposure (such as cobalt) should be addressed. <br />
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A review of systems is also helpful in regards to connective tissue disease associated dilated cardiomyopathy (which can be related to SLE (systemic lupus erythematosis), rheumatoid arthritis, sarcoidosis, scleroderma, as well as other connective tissue diseases). <br />
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A family history also has a great importance in the diagnosis of dilated cardiomyopathy. It has been suggested that a portion of those patients labeled as "idiopathic" may have a familial form of the disease. The prevalence of this in the population of patients with dilated cardiomyopathy has been estimated as high as 25%.<ref>Ross J Jr. Dilated cardiomyopathy: concepts derived from gene deficient and transgenic animal models. Circ J. 2002;66:219-24. PMID 11922267</ref> The majority of these are thought to be related to autosomal dominant transmission, the remaining are thought to be transimtted in an autosomal recessive and X-linked fashion.<ref>Mestroni L; Rocco C; et al. Familial dilated cardiomyopathy: evidence for genetic and phenotypic heterogeneity. Heart Muscle Disease Study Group. J Am Coll Cardiol 1999 Jul;34(1):181-90.</ref> Mitochondrial inheritance of the disease has also been identified.<ref>Schonberger J, Seidman CE. Many roads lead to a broken heart: the genetics of dilated cardiomyopathy. Am J Hum Genet. 2001;69:249-60. Epub 2001 Jul 6. PMID 11443548</ref><br />
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Pericardial effusion may accompany myocarditis but this finding is not specific. Cardiac MRI as discussed above may be helpful in diagnosing myocarditis. Endomyocardial biopsy as discussed above has low sensitivy and the findings are also notoriously non-specific. The findings on biopsy usually involve findings of inflammation and specific pathogens are unlikely to be identified. There may be an increased yield to using MRI to target endomyocardial biopsy as described above. Viral titiers (serologies) are often unhelpful and not routinely ordered in clinical practice. <br />
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==Prognosis==<br />
There are many prognostic factors which can be evaluated in a patient with dilated cardiomyopathy.<ref> Mayo Clinic Cardiology. Concise Textbook. Murphy, Joseph G; Lloyd, Margaret A. Mayo Clinic Scientific Press. 2007.</ref> The most important prognostic indicator is a decreased ejection fraction, in addition increased left ventricular size and right ventricular dilation are independent indicators of a poor prognosis. <br />
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As is in most types of heart failure a poor NYHA functional class and increased PASP (>35mmHg) are also poor prognostic indicators. <br />
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Other findings that infer a poor prognosis are as follows: Maximal O2 uptake of < 12mL/kg / minute on exercise testing, LBBB (left bundle branch block), non sustained ventricular tachycardia, syncope, hyponatremia with a serum sodium less than 135, elevated norepinephrine, ANP (atrial natriuretic peptide) and renin levels (not routinely measured in clinical practice), elevated PCWP (pulmonary capillary wedge pressure) > 18mmHg, low cardiac index < 2.5L/min/m^2. <br />
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==Treatment==<br />
Death from dilated cardiomyopathy is usually the result of progressive heart failure or arrhythmia. Treatments for dilated cardiomyopathy are targeted towards preventing death and treating symptoms of heart failure. Some medications (such as ACE inhibitors) may help acheive both goals. Initial treatment should focus on the underlying cause of dilated cardiomyopathy if reversible. If for example a patient has dilated cardiomyopathy and three vessel coronary artery disease then revascularization should be an initial step in treatment. <br />
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Medications which have a proven survival benefit in systolic heart failure are ACE (angiotensin converting enzyme) inhibitors, ARBs (angiotensin II receptor blockers), beta blockers (carvedilol, bisoprolol and metoprolol succinate are the most well studied), aldosterone antagonists (in severe heart failure) and combination of long acting nitrates and hydralazine. Medications targeted towards symptom relief in systolic heart failure are diuretics and digoxin. Warfarin is also a medication used in systolic heart failure; the benefit of this medication is controversial.<br />
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===ACE inhibitors in dilated cardiomoypathy===<br />
ACE inhibitors are thought to be useful in dilated cardiomyopathy by not only causing arterial vasodilation and reduction of afterload but also by reduction in levels of angiotensin II, aldosterone, and ADH which may have deleterious remodeling effects on the heart as well as vasoconstriction. ACE inhibitors have been extensively studied in systolic heart failure and have been shown to reduce symptoms, slow the progression of heart failure and reduce mortality in all classes of heart failure. The most profound impact is seen in patients who are most symptomatic as well as those patients who have recently suffered a myocardial infarction. In addition ACE inhibitors have been shown to slow the progression of LV (left ventricular) dilation in systolic heart failure. <br />
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The SOLVD-Prevention trial and SAVE trial both are large randomized controlled trials which evaluated patients with asymptomatic systolic heart failure. SOLVD-Prevention examined 4000 patients with an EF < 35% who were asymptomatic and randomized them to enalapril (dose 2.5-20mg daily) or placebo. After an average 3 years follow up there was a significant reduction in heart failure hospitalizations but no difference in mortality. The SAVE (Survival and Ventricular Enlargement) trial studied 2200 patients with an EF < or = to 40% within 3-14 days following an acute myocardial infarction. These patients were given either captopril or placebo and followed for an average of 3.5 years. There was a significant 25% reduciton in myocardial infarction and a significant reduction in death from recurrent MI by 32% in the captopril group.<ref>Circulation, Oct 1994;90:1731-1738.</ref><br />
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The CONSENSUS, SOLVD-Treatment and V-HeFT II trials all examined ACE inhibitors in symptomatic patients with systolic heart failure. The CONSENSUS trial was published in 1987 and studied 250 patients with NYHA class IV heart failure. These patients were randomized to enalapril (dose 2.5mg - 40mg daily) or placebo. After an average follow up of 6 months there was a 40% reduction in mortality in the enalapril group (this persisted to 1 year, at 1 year there was a 31% reduction in mortality in the enalapril group). The reduction in mortality was attributed to a reduction in the death from progressive heart failure, not from a reduction in sudden cardiac death. SOLVD-Treatement and V-HeFT II also showed a reduction in mortality with ACE inhibitors, both of these studies evalauted mainly patients with NYHA class II or III heart failure.<ref>N Engl J Med. 1991 Aug 1;325(5):303-10</ref><ref>N Engl J Med. 1991 Aug 1;325(5):293-302.</ref><br />
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The AIRE and TRACE trials were placebo controlled randomized controlled trials which both evaluated ACE inhibitors (ramipril and trandolapril respectively) in heart failure following a myocardial infarction. Both of these studies also showed a reduction in mortality in the ACE inhibitor arm when compared to placebo. These studies evaluated patients at a minimum of 2 (AIRE) or 3 (TRACE) days following an acute MI. <br />
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The CONSENSUS II, ISIS-4, GISSI-3 and SMILE studies all evaluated patients early (within 24 hours) following an acute myocardial infarction. All but the CONSENSUS II study showed a mortality benefit (both short and long term) in the ACE inhibitor arm when compared to placebo.<ref>Lancet. 1995 Mar 18;345(8951):669-85</ref><ref>Lancet. 1994 May 7;343(8906):1115-22</ref><ref>N Engl J Med. 1995 Jan 12;332(2):80-5.</ref> <br />
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===ARBs in dilated cardiomyopathy===<br />
ARBs have also been extensively studied. There are at least four large trials which support the use of ARBs in systolic heart failure. These include the ELITE, ELITE II, Val-HeFT, and CHARM trials. The ELITE trial randomized 722 patients over the age of 65 with an EF < 40% and NYHA class II-IV heart failure to either an ACEi (captopril) or an ARB (losartan). After a follow up of 48 weeks there was no difference in the primary endpoint (persistent elevations in serum creatinine) however a secondary endpoint of mortality showed a risk reduction of 46% in teh losartan group.<ref>Lancet 1997;349:747-52</ref> This was further evaluated in the ELITE II trial which randomized 3150 patients similar to those in the ELITE trial and again compared captopril and losartan. After a mean follow up of 555 days there was no difference in mortalitity or resuscitated arrest, but losartan was "better tolerated" than captopril (captopril was most often discontinued due to ACEi related cough).<ref>Lancet. 2000;355:1582-1587.</ref> The Val-HeFT trial was a placebo controlled RCT that evaluated studied valsartan use in 5000 patients with heart failure. There was a reduction in the combined endpoint of mortality and morbidity after a mean follow up of 23 months.<ref>N Engl J Med. 2001 Dec 6;345(23):1667-75</ref> <br />
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CHARM randomized 7,600 patients to candesartan or placebo. There were 3 subgroups analyzed in this study. CHARM Added showed that there was a reduction in cardiovascular mortality or CHF hospitlization in patients with systolic heart failure (EF < 40%) who were taking candesartan as well as an ACEi when compared to an ACEi alone. The CHARM Alternative subgroup showed that in ACEi intolerant patients with systolic heart failure (EF < 40%) there was a reduction in mortality or CHF hospitalization in patients taking an ARB (candesartan) when compared to placebo. The CHARM Preserved group evaluated patients with heart failure and a preserved ejection fraction and found no difference between candesartan and placebo.<ref>Circulation 2004; 110:2180</ref><br />
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The data is very strongly in favor of using ACEi as first line medications for systolic heart failure, and the addition of ARBs may be helpful. In addition, if patients are intolerant of ACEi there are clear benefits to using ARBs. <br />
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===Beta Blockers in dilated cardiomyopathy===<br />
Beta blockers have been extensively studied in systolic heart failure. Bisoprolol, metoprolol succinate and carvedilol are the most supported by data. The U.S. Carvedilol study randomized roughly 1000 patients with an EF < 35% to either carvedilol or placebo. The study was stopped early as there was a 65% risk reduction in mortality in the carvedilol group and there was also a reduction in hospitalizations from a cardiac cause.<ref>N Enlg J Med. 1996 May 23;334(21):1349-55.</ref> The MERIT HF trial randomized 4000 patients NYHA II-IV with an EF < 40% to receive either metoprolol succinate ("Toprol XL") at doses 12.5mg daily uptitrated to 200mg daily or placebo. After a mean of 1 year follow up the study was also stopped early as there was a 34% risk reduction in mortality in the metoprolol succinate group. This reduction in mortality was attributed both to a reduction in sudden cardiac death as well as death from heart failure.<ref>Lancet 1999 Jun 12;353(9169):2001-7.</ref> Other large trials of beta blockers in systolic heart failure include CIBIS-II, COPERNICUS, and COMET.<br />
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===Aldosterone antagonists in dilated cardiomyopathy===<br />
Aldosterone antagonists have been used in systolic heart failure and have been shown to have a mortality benefit. Based on results of the RALES trial aldosterone antagonists are used in patients with systolic dysfunction and NYHA class III or IV heart failure. Hyperkalemia is an important side effect in heart failure patients especially who may have concominant renal disease or may be on an ACE inhibitor and / or an ARB. Spironolactone and epleronone are commonly used aldosterone antagonists. Epleronone is more specific to the mineralocorticoid receptors and spironolactone binds relatively more androgen and progesterone receptos; therefore, spironolactone is more likely to cause endocrine side effects such as gynecomastia in men. The RALES trial randomized 1663 patients with an EF < 35% and severe heart failure to spironolactone (25mg daily) or placebo. The patients were also taking ACEi, loop diuretics and most were taking digoxin. The study was stopped early after a mean of 24 months follow up as there was a 30% risk reduction in mortality noted in the spironolactone group. This reduction in mortality was attributed both to a reduction of progresive heart failure deaths and a reduction in sudden cardiac death.<ref>N Engl J Med. 1999 Sep 2;341(10):709-17.</ref><br />
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===Long acting nitrate and hydralazine combinations in dilated cardiomyopathy===<br />
VHeFT-I and VHeFT-II have shown that there is a benefit in morbidity and mortality to long acting nitrates combined with hydralazine in patients with systolic heart failure. This effect is thought to be less robust than ACEi (VHeFT-I compared this combination to an ACEi enalapril and showed a reduction in mortality in the ACEi group). Common practice is to use this combination in patients who are unable to tolerate an ACEi or ARB; such as patients with advanced renal disease.<br />
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===Warfarin in dilated cardiomyopathy===<br />
As stated above warfarin is a medication that is occasionally used in systolic heart failure and the benefits are controversial. In systolic heart failure and atrial fibrillation there is a more clear benefit in terms of stroke prevention; however, in isolated systolic heart failure the reduction in embolic risk has not been fully elucidated. <br />
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===Diuretics in dilated cardiomyopathy===<br />
Loop diuretic medications are commonly used for patients with symptoms of heart failure. There has been no clear survival benefit associated with loop diuretics; however, the use of diuretics and a sodium restricted diet are the mainstays of treatment for congestive symptoms.<br />
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===Digoxin in dilated cardiomyopathy===<br />
Digoxin is sometimes used in systolic heart failure for symptom relief. A survival benefit has not been shown with digoxin use; however, it is useful for symptomatic treatment. There may be more of a role for digoxin in systolic heart failure and atrial fibrillation as digoxin may serve a dual purpose of heart failure symptom relief related to increased ionotropy as well as ventricular rate control related to AV nodal blockade. The RADIANCE trial and The Digoxin Study evaluated digoxin in heart failure patients.<br />
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===N-3 polyunsaturated fatty acids===<br />
N-3 polyunsaturated fatty acids have also been evaluated by the GISSI-HF group and showed a slight reduction in mortality (from 29% to 27%) at roughly 3 years of follow up.<ref>Tavazzi L; Maggioni AP, et al. Effect of n-3 polyunsaturated fatty acids in patients with chronic heart failure (the GISSI-HF trial): a randomised, double-blind, placebo-controlled trial. Lancet. 2008 Oct 4;372(9645):1223-30. Epub 2008 Aug 29.</ref><br />
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==Advanced Therapies==<br />
In patients with end stage heart failure or hemodynamic compromise vasopressor agents may be helpful. In patients with hemodynamic compromise medications such as dobutamine or dopamine may provide blood pressure support necessary. In addition parental agents such as milrinone (a phosphodiesterase inhibitor- somewhat specific for cardiac and vascular tissue) may be helpful in the short term or for end stage patients. There is no clear survival benefit and most trials with IV phosphodiesterase inhibitors are small trials of end stage heart failure patients. Oral milrinone has been studied and has been shown to increase mortality (as seen in the PROMISE trial). <br />
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In patients who have severe heart failure and are refractory to medical therapy cardiac transplantation may be an option (based upon patient characteristics such as age and comorbidities as well as disease characterisitics such as the etiology of dilated cardiomyopathy). As a bridge to cardiac transplantation multiple mechanical devices have been used. The most durable device is the LVAD (left ventricular assist device), certain patient populations not suitable for cardiac transplantation may also undergo LVAD placement by a cardiac surgeon as a "destination LVAD." This may be considered a palliative measure for end-stage heart failure patients. Other devices which may be more limited in the duration of use include the aortic balloon pump, Impella, and the PVAD (peripheral ventricular assist device) one of which is the Tandem Heart.<br />
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Implantable cardiac defibrillators have also been extensively studied in systolic heart failure. A survival benefit has also been shown in select patient populations. <br />
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==Gross Pathological Findings==<br />
Images shown below are Courtesy of Professor Peter Anderson DVM PhD and published with permission. [http://www.peir.net © PEIR, University of Alabama at Birmingham, Department of Pathology]<br />
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Image:414.jpg|Cardiomyopathy: Gross excellent view of mitral valve from left atrium anterior leaflet appears to balloon a bit into the atrium<br />
Image:415.jpg|Cardiomyopathy: Gross excellent view of mitral and tricuspid valves from atria, appear normal anatomy.<br />
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Image:6621.jpg|Dilated Cardiomyopathy: Gross natural color close-up view of heart surgically removed for a transplantation shows aortic valve and anterior leaflet of mitral valve with cholesterol deposits endocardium of left ventricle is diffusely thickened<br />
Image:434.jpg|Cardiomyopathy: Gross external view of globular heart with patchy fibrosis seen through epicardium<br />
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<gallery heights="175" widths="175"><br />
Image:874.jpg|Cardiomyopathy: Gross dilated left ventricle with marked endocardial thickening this is what has been called adult fibroelastosis<br />
Image:1134.jpg|Dilated Cardiomyopathy: Gross good example huge dilated left ventricle<br />
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<gallery heights="175" widths="175"><br />
Image:1151.jpg|Dilated Cardiomyopathy: Gross dilated left ventricle with marked endocardial sclerosis (an excellent example)<br />
Image:1457.jpg|Cardiomyopathy: Gross intact globular shaped heart<br />
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<gallery heights="175" widths="175"><br />
Image:1489.jpg|Dilated Cardiomyopathy: Gross opened left ventricle dilated with endocardial thickening good example<br />
Image:1509.jpg|Cardiomyopathy: Gross globular heart external view 10 year old girl with sickle cell anemia<br />
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Image:1510.jpg|Cardiomyopathy: Gross horizontal sections of ventricles dilation type 10 year old girl with sickle cell anemia<br />
Image:2367.jpg|Cardiomyopathy: Intermediate between hypertrophic and dilated<br />
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Image:2665.jpg|Dilated Cardiomyopathy: Gross opened globular left ventricle natural color (very good example)<br />
Image:2221.jpg|Brain: Infarct: Healing large MCA and PICA probably embolic 64 year old female chronic obstructive pulmonary disease and cardiomyopathy with atrial fibrillation<br />
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Image:8777.jpg|Kidney: Infarct Remote: Gross external view with capsule removed two old and very typical infarct scars 27yobf with dilated cardiomyopathy<br />
Image:6224.jpg|Dilated Cardiomyopathy: Gross natural color external view globular heart 500 gm 24yo female seven pregnancies<br />
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==References==<br />
{{Reflist|2}}<br />
<br />
==See Also==<br />
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* [[Cardiomyopathy]]<br />
* [[Hypertrophic cardiomyopathy]]<br />
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==External links==<br />
* [http://www.cardiomyopathy.org/html/which_card_dcm.htm Cardiomyopathy Association: Dilated cardiomyopathy]<br />
* [http://www.childrenscardiomyopathy.org Children's Cardiomyopathy Foundation]<br />
<br />
==Additional Reading==<br />
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* Moss and Adams' Heart Disease in Infants, Children, and Adolescents Hugh D. Allen, Arthur J. Moss, David J. Driscoll, Forrest H. Adams, Timothy F. Feltes, Robert E. Shaddy, 2007 ISBN 0781786843<br />
* Braunwald's Heart Disease, Libby P, 8th ed., 2007, ISBN 978-1-41-604105-4<br />
* Hurst's the Heart, Fuster V, 12th ed. 2008, ISBN 978-0-07-149928-6<br />
* Willerson JT, Cardiovascular Medicine, 3rd ed., 2007, ISBN 978-1-84628-188-4<br />
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Sachin Shah
https://www.wikidoc.org/index.php?title=Dilated_cardiomyopathy&diff=561533
Dilated cardiomyopathy
2009-11-04T11:32:05Z
<p>Sachin Shah: </p>
<hr />
<div>{{Infobox_Disease |<br />
Name = {{PAGENAME}} |<br />
Image = 1151.jpg| <br />
Caption = Dilated Cardiomyopathy: Gross dilated left ventricle with marked endocardial sclerosis <br> <small> [http://www.peir.net Image courtesy of Professor Peter Anderson DVM PhD and published with permission © PEIR, University of Alabama at Birmingham, Department of Pathology] </small>|<br />
DiseasesDB = 3066 |<br />
ICD10 = {{ICD10|I|42|0|i|30}} |<br />
ICD9 = {{ICD9|425.4}} |<br />
ICDO = |<br />
OMIM = 212110 |<br />
MedlinePlus = 000168 |<br />
eMedicineSubj = med |<br />
eMedicineTopic = 289 |<br />
eMedicine_mult = {{eMedicine2|emerg|80}} {{eMedicine2|ped|2502}} | <br />
MeshID = D002311 |<br />
}}<br />
{{SI}}<br />
{{WikiDoc Cardiology Network Infobox}}<br />
'''Editor-in-Chief:''' Sachin Shah, M.D. <br />
<br />
{{Editor Help}}<br />
<br />
==Overview==<br />
'''Dilated cardiomyopathy''' or '''DCM''' is a condition of the heart that causes dilation and impaired contraction of the left ventricle (or both ventricles). Impaired contraction is defined as a low ejection fraction (< 40%). In the following text the clinical presentation, diagnosis, and treatment will be reviewed. <br />
<br />
[[Cardimyopathy]] as a general topic also includes topics such as [[restrictive cardiomyopathy]] and [[hypertrophic cardiomyopathy]]. This section will focus on dilated cardiomyopathy. There is sometimes confusion regarding nomenclature, some of this confusion is based on different classifications set forth by the WHO (World Health Organization) and the AHA (American Heart Association). The WHO classifies cardiomyopathy as either Dilated (DCM), Restrictive (RCM), or Hypertrophic (HCM). The American Heart Association classifies cardiomyopathies as either "primary" or "secondary."<br />
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Dilated cardiomyopathy can occur at any age (although it is more likely between the ages of 20-60)<ref>Dec GW, Fuster V. Idiopathic Dilated Cardiomyopathy. N Engl J Med 1994 Dec 8;331(23):1564-75. PMID 7969328</ref> there is a male predominance (3:1 male:female),<ref>Robbins Basic Pathology, 7th edition. Kumar, Cotran, Robbins. ISBN 0-7216-9274-5</ref>, and is 2.5 times more likely in African Americans.<ref>Coughlin SS, Labenberg JR, Tefft MC. Black-white differences in idiopathic dilated cardiomyopathy: the Washington DC Dilated Cardiomyopathy Study. Epidemiology. 1993;4:165-72. PMID 8452906</ref>. There are many causes and there are varying degrees of severityof the disease . Some forms are reversible and some are irreversible; some patients may be completely asymptoamtic and some may require cardiac transplantation. <br />
<br />
<br />
==Causes==<br />
There are many causes of dilated cardiomyopathy. The most common cause is "idiopathic" which accounts for roughly 50% of cases.<ref> Felker GM, Thompson RE, et al. Underlying causes and long-term survival in patients with initially unexplained cardiomyopathy. N Engl J Med 2000 Apr 13;342(14):1077-84.</ref> The next most common is Myocarditis which accounts for roughly 10%. Ischemic "cardiomyopathy," infiltrative disease, hypertensive heart disease, substance abuse (i.e. alcohol abuse or cocaine abuse), connective tissue disease, peripartum cardiomyopathy, drugs (such as the chemotherapeutic agent doxarubacin), HIV infection or antiretroviral drugs, toxins (such as cobalt, lead or beryllium), and nutritional deficiencies (such as thiamine or selenium) are among other causes of dilated cardiomyopathy. <br />
<br />
The high percentage of idiopathic dilated cardiomyopathy may be related to the difficulty in diagnosing viral myocarditis. There are not definitive diagnostic criteria for myocarditis based on echocardiography, the clinical presentation is commonly similar to dilated cardiomyopathy from other causes, and the sensitivity of endomycardial biopsy is relatively low and approaches near 50% even with immunostaining (CD3 for T lymphocytes and CD68 for macrophages).<ref>Herskowitz A, Ahmed-Ansari A, Neumann DA et al. Induction of major histocompatibility complex antigens within the myocardium of patients with active myocarditis: a nonhistologic marker of myocarditis. J Am Coll Cardiol. 1990;15(3):624-632.</ref>. Cardiac MRI (Magnetic Resonance Imaging) appears to be not only helpful in the localization of inflammation and targeting of endomyocardial biopsy but also seems to be helpful in the diagnosis of myocarditis.<ref>Freidrich MG, Strohm O, et al. Contrast media-enhanced mangetic resonance imaging visualizes myocardial changes in the course of viral myocarditis. Circulation. 1998;97(18):1802-1809.</ref> This new technology may be helpful in reducing the percentage of idiopathic dilated cardiomyopathy and discovering an etiology to the dilated cardiomyopathy in some of these patients.<br />
<br />
==Clinical Presentation==<br />
The clinical presentation of dilated cardiomyopathy is similar to that heart failure from any cause. Dyspnea on exertion, orthopnea, paroxysmal nocturnal dyspnea, lower extremity edema and orthostasis / syncope are all common findings in dilated cardiomyopathy. In addition dilated cardiomyopathy may present as palpitations as a result of arrhythmia (ventricular or atrial) with the most common arrhythmia being atrial fibrillation. Dilated cardiomyopathy may also present as sudden cardiac death or as CVA (cerebrovascular accident) or other embolic phenomenon (either from associated atrial fibrillation or from ventricular thrombi as a result of dilated ventricular cavities). <br />
<br />
Angina is not a common feature of dilated cardiomyopathy unless the cause is related to coronary artery disease. If angina is present a work up for cardiac ischemia should be undertaken.<ref> Mayo Clinic Cardiology. Concise Textbook. Murphy, Joseph G; Lloyd, Margaret A. Mayo Clinic Scientific Press. 2007.</ref><br />
<br />
==Diagnosis==<br />
The diagnosis of dilated cardiomyopathy is based on clinical presentation and imaging findings. The most common imaging modality used to diagnose dilated cardiomyopathy is 2D-echocardiography. Echocardiographic findings of dilated cardiomyopathy include dilation of the left ventricle; however, may include dilation of all 4 cardiac chambers, LV (left ventricular) wall thickness usually is normal but given the dilation the LV mass is increased. In addition there is a global reduciton in systolic function. Occasionally there may also be wall motion abnormalities even in patients without flow limiting coronary artery disease.<ref> Mayo Clinic Cardiology. Concise Textbook. Murphy, Joseph G; Lloyd, Margaret A. Mayo Clinic Scientific Press. 2007.</ref> <br />
<br />
The diagnosis requires a dilated left ventricle and low ejection fraction.<br />
<br />
In terms of determining the etiology a careful history is most instrumental. If the patient has CAD (coronary artery disease) risk factors, known CAD, or angina then a workup for CAD should be undertaken with coronary angiography. A viral prodrome such as viral URI or viral gastroenteritis may make viral myocarditis as a more likely cause. If the patient was exposed to chemotherapy such as anthracyclines then this would be the likely cause. Patients at risk for HIV should undergo testing as HIV can cause a dilated cardiomyopathy. Peripartum cardiomyopathy most often occurs within 1 month of delivery or 5 months after delivery, so recent childbirth is important information. Often by 8 months gestational age pregnancy is physically apparent but it is important to rule out pregnancy in women of childbearing age with dilated cardiomyopathy. Screening questions regarding cocaine or alcohol abuse or other toxin exposure (such as cobalt) should be addressed. <br />
<br />
A review of systems is also helpful in regards to connective tissue disease associated dilated cardiomyopathy (which can be related to SLE (systemic lupus erythematosis), rheumatoid arthritis, sarcoidosis, scleroderma, as well as other connective tissue diseases). <br />
<br />
A family history also has a great importance in the diagnosis of dilated cardiomyopathy. It has been suggested that a portion of those patients labeled as "idiopathic" may have a familial form of the disease. The prevalence of this in the population of patients with dilated cardiomyopathy has been estimated as high as 25%.<ref>Ross J Jr. Dilated cardiomyopathy: concepts derived from gene deficient and transgenic animal models. Circ J. 2002;66:219-24. PMID 11922267</ref> The majority of these are thought to be related to autosomal dominant transmission, the remaining are thought to be transimtted in an autosomal recessive and X-linked fashion.<ref>Mestroni L; Rocco C; et al. Familial dilated cardiomyopathy: evidence for genetic and phenotypic heterogeneity. Heart Muscle Disease Study Group. J Am Coll Cardiol 1999 Jul;34(1):181-90.</ref> Mitochondrial inheritance of the disease has also been identified.<ref>Schonberger J, Seidman CE. Many roads lead to a broken heart: the genetics of dilated cardiomyopathy. Am J Hum Genet. 2001;69:249-60. Epub 2001 Jul 6. PMID 11443548</ref><br />
<br />
Pericardial effusion may accompany myocarditis but this finding is not specific. Cardiac MRI as discussed above may be helpful in diagnosing myocarditis. Endomyocardial biopsy as discussed above has low sensitivy and the findings are also notoriously non-specific. The findings on biopsy usually involve findings of inflammation and specific pathogens are unlikely to be identified. There may be an increased yield to using MRI to target endomyocardial biopsy as described above. Viral titiers (serologies) are often unhelpful and not routinely ordered in clinical practice. <br />
<br />
==Prognosis==<br />
There are many prognostic factors which can be evaluated in a patient with dilated cardiomyopathy.<ref> Mayo Clinic Cardiology. Concise Textbook. Murphy, Joseph G; Lloyd, Margaret A. Mayo Clinic Scientific Press. 2007.</ref> The most important prognostic indicator is a decreased ejection fraction, in addition increased ventricular size and right ventricular dilation are independent indicators of a poor prognosis. <br />
<br />
As is in most cases of heart failure a poor NYHA functional class and increased PASP (>35mmHg) are also poor prognostic indicators. <br />
<br />
Other findings that infer a poor prognosis are as follows: Maximal O2 uptake of < 12mL/kg / minute on exercise testing, LBBB (left bundle branch block), non sustained ventricular tachycardia, syncope, hyponatremia with a serum sodium less than 135, elevated norepinephrine, ANP (atrial natriuretic peptide) and renin levels (not routinely measured in clinical practice), elevated PCWP (pulmonary capillary wedge pressure) > 18mmHg, low cardiac index < 2.5L/min/m^2. <br />
<br />
==Treatment==<br />
Death from dilated cardiomyopathy is usually the result of progressive heart failure or arrhythmia. Treatments for dilated cardiomyopathy are targeted towards preventing death and treating symptoms of heart failure. Some medications (such as ACE inhibitors) may help acheive both goals. Initial treatment should focus on the underlying cause of dilated cardiomyopathy if reversible. If for example a patient has dilated cardiomyopathy and three vessel coronary artery disease then revascularization should be an initial step in treatment. <br />
<br />
Medications which have a proven survival benefit in systolic heart failure are ACE (angiotensin converting enzyme) inhibitors, ARBs (angiotensin II receptor blockers), beta blockers (carvedilol and metoprolol succinate are the most well studied), aldosterone antagonists (in severe heart failure) and combination of long acting nitrates and hydralazine. Medications targeted towards symptom relief in systolic heart failure are diuretics and digoxin. Warfarin is also a medication used in systolic heart failure; the benefit of this medication is controversial.<br />
<br />
===ACE inhibitors in dilated cardiomoypathy===<br />
ACE inhibitors are thought to be useful in dilated cardiomyopathy by not only causing arterial vasodilation and reduction of afterload but also by reduction in levels of angiotensin II, aldosterone, and ADH which may have deleterious remodeling effects on the heart as well as vasoconstriction. ACE inhibitors have been extensively studied in systolic heart failure and have been shown to reduce symptoms, slow the progression of heart failure and reduce mortality in all classes of heart failure. The most profound impact is seen in patients who are most symptomatic as well as those patients who have recently suffered a myocardial infarction. In addition ACE inhibitors have been shown to slow the progression of LV (left ventricular) dilation in systolic heart failure. <br />
<br />
The SOLVD-Prevention trial and SAVE trial both are large randomized controlled trials which evaluated patients with asymptomatic systolic heart failure. SOLVD-Prevention examined 4000 patients with an EF < 35% who were asymptomatic and randomized them to enalapril (dose 2.5-20mg daily) or placebo. After an average 3 years follow up there was a significant reduction in heart failure hospitalizations but no difference in mortality. The SAVE (Survival and Ventricular Enlargement) trial studied 2200 patients with an EF < or = to 40% within 3-14 days following an acute myocardial infarction. These patients were given either captopril or placebo and followed for an average of 3.5 years. There was a significant 25% reduciton in myocardial infarction and a significant reduction in death from recurrent MI by 32% in the captopril group.<ref>Circulation, Oct 1994;90:1731-1738.</ref><br />
<br />
The CONSENSUS, SOLVD-Treatment and V-HeFT II trials all examined ACE inhibitors in symptomatic patients with systolic heart failure. The CONSENSUS trial was published in 1987 and studied 250 patients with NYHA class IV heart failure. These patients were randomized to enalapril (dose 2.5mg - 40mg daily) or placebo. After an average follow up of 6 months there was a 40% reduction in mortality in the enalapril group (this persisted to 1 year, at 1 year there was a 31% reduction in mortality in the enalapril group). The reduction in mortality was attributed to a reduction in the death from progressive heart failure, not from a reduction in sudden cardiac death. SOLVD-Treatement and V-HeFT II also showed a reduction in mortality with ACE inhibitors, both of these studies evalauted mainly patients with NYHA class II or III heart failure.<ref>N Engl J Med. 1991 Aug 1;325(5):303-10</ref><ref>N Engl J Med. 1991 Aug 1;325(5):293-302.</ref><br />
<br />
The AIRE and TRACE trials were placebo controlled randomized controlled trials which both evaluated ACE inhibitors (ramipril and trandolapril respectively) in heart failure following a myocardial infarction. Both of these studies also showed a reduction in mortality in the ACE inhibitor arm when compared to placebo. These studies evaluated patients at a minimum of 2 (AIRE) or 3 (TRACE) days following an acute MI. <br />
<br />
The CONSENSUS II, ISIS-4, GISSI-3 and SMILE studies all evaluated patients early (within 24 hours) following an acute myocardial infarction. All but the CONSENSUS II study showed a mortality benefit (both short and long term) in the ACE inhibitor arm when compared to placebo.<ref>Lancet. 1995 Mar 18;345(8951):669-85</ref><ref>Lancet. 1994 May 7;343(8906):1115-22</ref><ref>N Engl J Med. 1995 Jan 12;332(2):80-5.</ref> <br />
<br />
===ARBs in dilated cardiomyopathy===<br />
ARBs have also been extensively studied. There are at least four large trials which support the use of ARBs in systolic heart failure. These include the ELITE, ELITE II, Val-HeFT, and CHARM trials. The ELITE trial randomized 722 patients over the age of 65 with an EF < 40% and NYHA class II-IV heart failure to either an ACEi (captopril) or an ARB (losartan). After a follow up of 48 weeks there was no difference in the primary endpoint (persistent elevations in serum creatinine) however a secondary endpoint of mortality showed a risk reduction of 46% in teh losartan group.<ref>Lancet 1997;349:747-52</ref> This was further evaluated in the ELITE II trial which randomized 3150 patients similar to those in the ELITE trial and again compared captopril and losartan. After a mean follow up of 555 days there was no difference in mortalitity or resuscitated arrest, but losartan was "better tolerated" than captopril (captopril was most often discontinued due to ACEi related cough).<ref>Lancet. 2000;355:1582-1587.</ref> The Val-HeFT trial was a placebo controlled RCT that evaluated studied valsartan use in 5000 patients with heart failure. There was a reduction in the combined endpoint of mortality and morbidity after a mean follow up of 23 months.<ref>N Engl J Med. 2001 Dec 6;345(23):1667-75</ref> <br />
<br />
CHARM randomized 76000 patients to candesartan or placebo. There were 3 subgroups analyzed in this study. CHARM Added showed that there was a reduction in cardiovascular mortality or CHF hospitlization in patients with systolic heart failure (EF < 40%) who were taking candesartan as well as an ACEi when compared to an ACEi alone. The CHARM Alternative subgroup showed that in ACEi intolerant patients with systolic heart failure (EF < 40%) there was a reduction in mortality or CHF hospitalization in patients taking an ARB (candesartan) when compared to placebo. The CHARM Preserved group evaluated patients with heart failure and a preserved ejection fraction and found no difference between candesartan and placebo.<ref>Circulation 2004; 110:2180</ref><br />
<br />
The data is very strongly in favor of using ACEi as first line medications for systolic heart failure, and the addition of ARBs may be helpful. In addition, if patients are intolerant of ACEi there are clear benefits to using ARBs. <br />
<br />
===Beta Blockers in dilated cardiomyopathy===<br />
Beta blockers have been extensively studied in systolic heart failure. Bisoprolol, metoprolol succinate and carvedilol are the most supported by data. The U.S. Carvedilol study randomized roughly 1000 patients with an EF < 35% to either carvedilol or placebo. The study was stopped early as there was a 65% risk reduction in mortality in the carvedilol group and there was also a reduction in hospitalizations from a cardiac cause.<ref>N Enlg J Med. 1996 May 23;334(21):1349-55.</ref> The MERIT HF trial randomized 4000 patients NYHA II-IV with an EF < 40% to receive either metoprolol succinate ("Toprol XL") at doses 12.5mg daily uptitrated to 200mg daily or placebo. After a mean of 1 year follow up the study was also stopped early as there was a 34% risk reduction in mortality in the metoprolol succinate group. This reduction in mortality was attributed both to a reduction in sudden cardiac death as well as death from heart failure.<ref>Lancet 1999 Jun 12;353(9169):2001-7.</ref> Other large trials of beta blockers in systolic heart failure include CIBIS-II, COPERNICUS, and COMET.<br />
<br />
===Aldosterone antagonists in dilated cardiomyopathy===<br />
Aldosterone antagonists have been used in systolic heart failure and have been shown to have a mortality benefit. Based on results of the RALES trial aldosterone antagonists are used in patients with systolic dysfunction and NYHA class III or IV heart failure. Hyperkalemia is an important side effect in heart failure patients especially who may have concominant renal disease or may be on an ACE inhibitor and / or an ARB. Spironolactone and epleronone are commonly used aldosterone antagonists. Epleronone is more specific to the mineralocorticoid receptors and spironolactone binds relatively more androgen and progesterone receptos; therefore, spironolactone is more likely to cause endocrine side effects such as gynecomastia in men. The RALES trial randomized 1663 patients with an EF < 35% and severe heart failure to spironolactone (25mg daily) or placebo. The patients were also taking ACEi, loop diuretics and most were taking digoxin. The study was stopped early after a mean of 24 months follow up as there was a 30% risk reduction in mortality noted in the spironolactone group. This reduction in mortality was attributed both to a reduction of progresive heart failure deaths and a reduction in sudden cardiac death.<ref>N Engl J Med. 1999 Sep 2;341(10):709-17.</ref><br />
<br />
===Long acting nitrate and hydralazine combinations in dilated cardiomyopathy===<br />
VHeFT-I and VHeFT-II have shown that there is a benefit in morbidity and mortality to long acting nitrates combined with hydralazine in patients with systolic heart failure. This effect is thought to be less robust than ACEi (VHeFT-I compared this combination to an ACEi enalapril and showed a reduction in mortality in the ACEi group). Common practice is to use this combination in patients who are unable to tolerate an ACEi or ARB; such as patients with advanced renal disease.<br />
<br />
===Warfarin in dilated cardiomyopathy===<br />
As stated above warfarin is a medication that is occasionally used in systolic heart failure and the benefits are controversial. In systolic heart failure and atrial fibrillation there is a more clear benefit in terms of stroke prevention; however, in isolated systolic heart failure the reduction in embolic risk has not been fully elucidated. <br />
<br />
===Diuretics in dilated cardiomyopathy===<br />
Loop diuretic medications are commonly used for patients with symptoms of heart failure. There has been no clear survival benefit associated with loop diuretics; however, the use of diuretics and a sodium restricted diet are the mainstays of treatment for congestive symptoms.<br />
<br />
===Digoxin in dilated cardiomyopathy===<br />
Digoxin is sometimes used in systolic heart failure for symptom relief. A survival benefit has not been shown with digoxin use; however, it is useful for symptomatic treatment. There may be more of a role for digoxin in systolic heart failure and atrial fibrillation as digoxin may serve a dual purpose of heart failure symptom relief related to increased ionotropy as well as ventricular rate control related to AV nodal blockade. The RADIANCE trial and The Digoxin Study evaluated digoxin in heart failure patients.<br />
<br />
===N-3 polyunsaturated fatty acids===<br />
N-3 polyunsaturated fatty acids have also been evaluated by the GISSI-HF group and showed a slight reduction in mortality (from 29% to 27%) at roughly 3 years of follow up.<ref>Tavazzi L; Maggioni AP, et al. Effect of n-3 polyunsaturated fatty acids in patients with chronic heart failure (the GISSI-HF trial): a randomised, double-blind, placebo-controlled trial. Lancet. 2008 Oct 4;372(9645):1223-30. Epub 2008 Aug 29.</ref><br />
<br />
==Advanced Therapies==<br />
In patients with end stage heart failure or hemodynamic compromise vasopressor agents may be helpful. In patients with hemodynamic compromise medications such as dobutamine or dopamine may provide blood pressure support necessary. In addition parental agents such as milrinone (a phosphodiesterase inhibitor- somewhat specific for cardiac and vascular tissue) may be helpful in the short term or for end stage patients. There is no clear survival benefit and most trials with IV phosphodiesterase inhibitors are small trials of end stage heart failure patients. Oral milrinone has been studied and has been shown to increase mortality (as seen in the PROMISE trial). <br />
<br />
In patients who have severe heart failure and are refractory to medical therapy cardiac transplantation may be an option (based upon patient characteristics such as age and comorbidities as well as disease characterisitics such as the etiology of dilated cardiomyopathy). As a bridge to cardiac transplantation multiple mechanical devices have been used. The most durable device is the LVAD (left ventricular assist device), certain patient populations not suitable for cardiac transplantation may also undergo LVAD placement by a cardiac surgeon as a "destination LVAD." This may be considered a palliative measure for end-stage heart failure patients. Other devices which may be more limited in the duration of use include the aortic balloon pump, Impella, and the PVAD (peripheral ventricular assist device) one of which is the Tandem Heart.<br />
<br />
Implantable cardiac defibrillators have also been extensively studied in systolic heart failure. A survival benefit has also been shown in select patient populations. <br />
<br />
==Gross Pathological Findings==<br />
Images shown below are Courtesy of Professor Peter Anderson DVM PhD and published with permission. [http://www.peir.net © PEIR, University of Alabama at Birmingham, Department of Pathology]<br />
<br />
<div align="left"><br />
<gallery heights="175" widths="175"><br />
Image:414.jpg|Cardiomyopathy: Gross excellent view of mitral valve from left atrium anterior leaflet appears to balloon a bit into the atrium<br />
Image:415.jpg|Cardiomyopathy: Gross excellent view of mitral and tricuspid valves from atria, appear normal anatomy.<br />
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<gallery heights="175" widths="175"><br />
Image:6621.jpg|Dilated Cardiomyopathy: Gross natural color close-up view of heart surgically removed for a transplantation shows aortic valve and anterior leaflet of mitral valve with cholesterol deposits endocardium of left ventricle is diffusely thickened<br />
Image:434.jpg|Cardiomyopathy: Gross external view of globular heart with patchy fibrosis seen through epicardium<br />
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<div align="left"><br />
<gallery heights="175" widths="175"><br />
Image:874.jpg|Cardiomyopathy: Gross dilated left ventricle with marked endocardial thickening this is what has been called adult fibroelastosis<br />
Image:1134.jpg|Dilated Cardiomyopathy: Gross good example huge dilated left ventricle<br />
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<div align="left"><br />
<gallery heights="175" widths="175"><br />
Image:1151.jpg|Dilated Cardiomyopathy: Gross dilated left ventricle with marked endocardial sclerosis (an excellent example)<br />
Image:1457.jpg|Cardiomyopathy: Gross intact globular shaped heart<br />
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<div align="left"><br />
<gallery heights="175" widths="175"><br />
Image:1489.jpg|Dilated Cardiomyopathy: Gross opened left ventricle dilated with endocardial thickening good example<br />
Image:1509.jpg|Cardiomyopathy: Gross globular heart external view 10 year old girl with sickle cell anemia<br />
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<div align="left"><br />
<gallery heights="175" widths="175"><br />
Image:1510.jpg|Cardiomyopathy: Gross horizontal sections of ventricles dilation type 10 year old girl with sickle cell anemia<br />
Image:2367.jpg|Cardiomyopathy: Intermediate between hypertrophic and dilated<br />
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<div align="left"><br />
<gallery heights="175" widths="175"><br />
Image:2665.jpg|Dilated Cardiomyopathy: Gross opened globular left ventricle natural color (very good example)<br />
Image:2221.jpg|Brain: Infarct: Healing large MCA and PICA probably embolic 64 year old female chronic obstructive pulmonary disease and cardiomyopathy with atrial fibrillation<br />
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<gallery heights="175" widths="175"><br />
Image:8777.jpg|Kidney: Infarct Remote: Gross external view with capsule removed two old and very typical infarct scars 27yobf with dilated cardiomyopathy<br />
Image:6224.jpg|Dilated Cardiomyopathy: Gross natural color external view globular heart 500 gm 24yo female seven pregnancies<br />
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<br />
==References==<br />
{{Reflist|2}}<br />
<br />
==See Also==<br />
<br />
* [[Cardiomyopathy]]<br />
* [[Hypertrophic cardiomyopathy]]<br />
<br />
==External links==<br />
* [http://www.cardiomyopathy.org/html/which_card_dcm.htm Cardiomyopathy Association: Dilated cardiomyopathy]<br />
* [http://www.childrenscardiomyopathy.org Children's Cardiomyopathy Foundation]<br />
<br />
==Additional Reading==<br />
<br />
* Moss and Adams' Heart Disease in Infants, Children, and Adolescents Hugh D. Allen, Arthur J. Moss, David J. Driscoll, Forrest H. Adams, Timothy F. Feltes, Robert E. Shaddy, 2007 ISBN 0781786843<br />
* Braunwald's Heart Disease, Libby P, 8th ed., 2007, ISBN 978-1-41-604105-4<br />
* Hurst's the Heart, Fuster V, 12th ed. 2008, ISBN 978-0-07-149928-6<br />
* Willerson JT, Cardiovascular Medicine, 3rd ed., 2007, ISBN 978-1-84628-188-4<br />
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{{Circulatory system pathology}}<br />
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[[ru:Дилатационная кардиомиопатия]]<br />
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[[Category:Cardiomyopathy]]<br />
[[Category:Cardiology]]<br />
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{{WikiDoc Sources}}</div>
Sachin Shah
https://www.wikidoc.org/index.php?title=Dilated_cardiomyopathy&diff=561532
Dilated cardiomyopathy
2009-11-04T11:19:03Z
<p>Sachin Shah: </p>
<hr />
<div>{{Infobox_Disease |<br />
Name = {{PAGENAME}} |<br />
Image = 1151.jpg| <br />
Caption = Dilated Cardiomyopathy: Gross dilated left ventricle with marked endocardial sclerosis <br> <small> [http://www.peir.net Image courtesy of Professor Peter Anderson DVM PhD and published with permission © PEIR, University of Alabama at Birmingham, Department of Pathology] </small>|<br />
DiseasesDB = 3066 |<br />
ICD10 = {{ICD10|I|42|0|i|30}} |<br />
ICD9 = {{ICD9|425.4}} |<br />
ICDO = |<br />
OMIM = 212110 |<br />
MedlinePlus = 000168 |<br />
eMedicineSubj = med |<br />
eMedicineTopic = 289 |<br />
eMedicine_mult = {{eMedicine2|emerg|80}} {{eMedicine2|ped|2502}} | <br />
MeshID = D002311 |<br />
}}<br />
{{SI}}<br />
{{WikiDoc Cardiology Network Infobox}}<br />
'''Editor-in-Chief:''' Sachin Shah, M.D. <br />
<br />
{{Editor Help}}<br />
<br />
==Overview==<br />
'''Dilated cardiomyopathy''' or '''DCM''' is a condition of the heart that causes dilation and impaired contraction of the left ventricle (or both ventricles). Impaired contraction is defined as a low ejection fraction (< 40%). In the following text the clinical presentation, diagnosis, and treatment will be reviewed. <br />
<br />
[[Cardimyopathy]] as a general topic also includes topics such as [[restrictive cardiomyopathy]] and [[hypertrophic cardiomyopathy]]. This section will focus on dilated cardiomyopathy. There is sometimes confusion regarding nomenclature, some of this confusion is based on different classifications set forth by the WHO (World Health Organization) and the AHA (American Heart Association). The WHO classifies cardiomyopathy as either Dilated (DCM), Restrictive (RCM), or Hypertrophic (HCM). The American Heart Association classifies cardiomyopathies as either "primary" or "secondary."<br />
<br />
Dilated cardiomyopathy can occur at any age (although it is more likely between the ages of 20-60)<ref>Dec GW, Fuster V. Idiopathic Dilated Cardiomyopathy. N Engl J Med 1994 Dec 8;331(23):1564-75. PMID 7969328</ref> there is a male predominance (3:1 male:female),<ref>Robbins Basic Pathology, 7th edition. Kumar, Cotran, Robbins. ISBN 0-7216-9274-5</ref>, and is 2.5 times more likely in African Americans.<ref>Coughlin SS, Labenberg JR, Tefft MC. Black-white differences in idiopathic dilated cardiomyopathy: the Washington DC Dilated Cardiomyopathy Study. Epidemiology. 1993;4:165-72. PMID 8452906</ref>. There are many causes and there are varying degrees of severityof the disease . Some forms are reversible and some are irreversible; some patients may be completely asymptoamtic and some may require cardiac transplantation. <br />
<br />
<br />
==Causes==<br />
There are many causes of dilated cardiomyopathy. The most common cause is "idiopathic" which accounts for roughly 50% of cases.<ref> Felker GM, Thompson RE, et al. Underlying causes and long-term survival in patients with initially unexplained cardiomyopathy. N Engl J Med 2000 Apr 13;342(14):1077-84.</ref> The next most common is Myocarditis which accounts for roughly 10%. Ischemic "cardiomyopathy," infiltrative disease, hypertensive heart disease, substance abuse (i.e. alcohol abuse or cocaine abuse), connective tissue disease, peripartum cardiomyopathy, drugs (such as the chemotherapeutic agent doxarubacin), HIV infection or antiretroviral drugs, toxins (such as cobalt, lead or beryllium), and nutritional deficiencies (such as thiamine or selenium) are among other causes of dilated cardiomyopathy. <br />
<br />
The high percentage of idiopathic dilated cardiomyopathy may be related to the difficulty in diagnosing viral myocarditis. There are not definitive diagnostic criteria for myocarditis based on echocardiography, the clinical presentation is commonly similar to dilated cardiomyopathy from other causes, and the sensitivity of endomycardial biopsy is relatively low and approaches near 50% even with immunostaining (CD3 for T lymphocytes and CD68 for macrophages).<ref>Herskowitz A, Ahmed-Ansari A, Neumann DA et al. Induction of major histocompatibility complex antigens within the myocardium of patients with active myocarditis: a nonhistologic marker of myocarditis. J Am Coll Cardiol. 1990;15(3):624-632.</ref>. Cardiac MRI (Magnetic Resonance Imaging) appears to be not only helpful in the localization of inflammation and targeting of endomyocardial biopsy but also seems to be helpful in the diagnosis of myocarditis.<ref>Freidrich MG, Strohm O, et al. Contrast media-enhanced mangetic resonance imaging visualizes myocardial changes in the course of viral myocarditis. Circulation. 1998;97(18):1802-1809.</ref> This new technology may be helpful in reducing the percentage of idiopathic dilated cardiomyopathy and discovering an etiology to the dilated cardiomyopathy in some of these patients.<br />
<br />
==Clinical Presentation==<br />
The clinical presentation of dilated cardiomyopathy is similar to that heart failure from any cause. Dyspnea on exertion, orthopnea, paroxysmal nocturnal dyspnea, lower extremity edema and orthostasis / syncope are all common findings in dilated cardiomyopathy. In addition dilated cardiomyopathy may present as palpitations as a result of arrhythmia (ventricular or atrial) with the most common arrhythmia being atrial fibrillation. Dilated cardiomyopathy may also present as sudden cardiac death or as CVA (cerebrovascular accident) or other embolic phenomenon (either from associated atrial fibrillation or from ventricular thrombi as a result of dilated ventricular cavities). <br />
<br />
Angina is not a common feature of dilated cardiomyopathy unless the cause is related to coronary artery disease. If angina is present a work up for cardiac ischemia should be undertaken.<ref> Mayo Clinic Cardiology. Concise Textbook. Murphy, Joseph G; Lloyd, Margaret A. Mayo Clinic Scientific Press. 2007.</ref><br />
<br />
==Diagnosis==<br />
The diagnosis of dilated cardiomyopathy is based on clinical presentation and imaging findings. The most common imaging modality used to diagnose dilated cardiomyopathy is 2D-echocardiography. Echocardiographic findings of dilated cardiomyopathy include dilation of the left ventricle; however, may include dilation of all 4 cardiac chambers, LV (left ventricular) wall thickness usually is normal but given the dilation the LV mass is increased. In addition there is a global reduciton in systolic function. Occasionally there may also be wall motion abnormalities even in patients without flow limiting coronary artery disease.<ref> Mayo Clinic Cardiology. Concise Textbook. Murphy, Joseph G; Lloyd, Margaret A. Mayo Clinic Scientific Press. 2007.</ref> <br />
<br />
The diagnosis requires a dilated left ventricle and low ejection fraction.<br />
<br />
In terms of determining the etiology a careful history is most instrumental. If the patient has CAD (coronary artery disease) risk factors, known CAD, or angina then a workup for CAD should be undertaken with coronary angiography. A viral prodrome such as viral URI or viral gastroenteritis may make viral myocarditis as a more likely cause. If the patient was exposed to chemotherapy such as anthracyclines then this would be the likely cause. Patients at risk for HIV should undergo testing as HIV can cause a dilated cardiomyopathy. Peripartum cardiomyopathy most often occurs within 1 month of delivery or 5 months after delivery, so recent childbirth is important information. Often by 8 months gestational age pregnancy is physically apparent but it is important to rule out pregnancy in women of childbearing age with dilated cardiomyopathy. Screening questions regarding cocaine or alcohol abuse or other toxin exposure (such as cobalt) should be addressed. <br />
<br />
A review of systems is also helpful in regards to connective tissue disease associated dilated cardiomyopathy (which can be related to SLE (systemic lupus erythematosis), rheumatoid arthritis, sarcoidosis, scleroderma, as well as other connective tissue diseases). <br />
<br />
A family history also has a great importance in the diagnosis of dilated cardiomyopathy. It has been suggested that a portion of those patients labeled as "idiopathic" may have a familial form of the disease. The prevalence of this in the population of patients with dilated cardiomyopathy has been estimated as high as 25%.<ref>Ross J Jr. Dilated cardiomyopathy: concepts derived from gene deficient and transgenic animal models. Circ J. 2002;66:219-24. PMID 11922267</ref> The majority of these are thought to be related to autosomal dominant transmission, the remaining are thought to be transimtted in an autosomal recessive and X-linked fashion.<ref>Mestroni L; Rocco C; et al. Familial dilated cardiomyopathy: evidence for genetic and phenotypic heterogeneity. Heart Muscle Disease Study Group. J Am Coll Cardiol 1999 Jul;34(1):181-90.</ref> Mitochondrial inheritance of the disease has also been identified.<ref>Schonberger J, Seidman CE. Many roads lead to a broken heart: the genetics of dilated cardiomyopathy. Am J Hum Genet. 2001;69:249-60. Epub 2001 Jul 6. PMID 11443548</ref><br />
<br />
Pericardial effusion may accompany myocarditis but this finding is not specific. Cardiac MRI as discussed above may be helpful in diagnosing myocarditis. Endomyocardial biopsy as discussed above has low sensitivy and the findings are also notoriously non-specific. The findings on biopsy usually involve findings of inflammation and specific pathogens are unlikely to be identified. There may be an increased yield to using MRI to target endomyocardial biopsy as described above. Viral titiers (serologies) are often unhelpful and not routinely ordered in clinical practice. <br />
<br />
==Prognosis==<br />
There are many prognostic factors which can be evaluated in a patient with dilated cardiomyopathy.<ref> Mayo Clinic Cardiology. Concise Textbook. Murphy, Joseph G; Lloyd, Margaret A. Mayo Clinic Scientific Press. 2007.</ref> The most important prognostic indicator is a decreased ejection fraction, in addition increased ventricular size and right ventricular dilation are independent indicators of a poor prognosis. <br />
<br />
As is in most cases of heart failure a poor NYHA functional class and increased PASP (>35mmHg) are also poor prognostic indicators. <br />
<br />
Other findings that infer a poor prognosis are as follows: Maximal O2 uptake of < 12mL/kg / minute on exercise testing, LBBB (left bundle branch block), non sustained ventricular tachycardia, syncope, hyponatremia with a serum sodium less than 135, elevated norepinephrine, ANP (atrial natriuretic peptide) and renin levels (not routinely measured in clinical practice), elevated PCWP (pulmonary capillary wedge pressure) > 18mmHg, low cardiac index < 2.5L/min/m^2. <br />
<br />
==Treatment==<br />
Death from dilated cardiomyopathy is usually the result of progressive heart failure or arrhythmia. Treatments for dilated cardiomyopathy are targeted towards preventing death and treating symptoms of heart failure. Some medications (such as ACE inhibitors) may help acheive both goals. Initial treatment should focus on the underlying cause of dilated cardiomyopathy if reversible. If for example a patient has dilated cardiomyopathy and three vessel coronary artery disease then revascularization should be an initial step in treatment. <br />
<br />
Medications which have a proven survival benefit in systolic heart failure are ACE (angiotensin converting enzyme) inhibitors, ARBs (angiotensin II receptor blockers), beta blockers (carvedilol and metoprolol succinate are the most well studied), aldosterone antagonists (in severe heart failure) and combination of long acting nitrates and hydralazine. Medications targeted towards symptom relief in systolic heart failure are diuretics and digoxin. Warfarin is also a medication used in systolic heart failure; the benefit of this medication is controversial.<br />
<br />
===ACE inhibitors in dilated cardiomoypathy===<br />
ACE inhibitors are thought to be useful in dilated cardiomyopathy by not only causing arterial vasodilation and reduction of afterload but also by reduction in levels of angiotensin II, aldosterone, and ADH which may have deleterious remodeling effects on the heart as well as vasoconstriction. ACE inhibitors have been extensively studied in systolic heart failure and have been shown to reduce symptoms, slow the progression of heart failure and reduce mortality in all classes of heart failure. The most profound impact is seen in patients who are most symptomatic as well as those patients who have recently suffered a myocardial infarction. In addition ACE inhibitors have been shown to slow the progression of LV (left ventricular) dilation in systolic heart failure. <br />
<br />
The SOLVD-Prevention trial and SAVE trial both are large randomized controlled trials which evaluated patients with asymptomatic systolic heart failure. SOLVD-Prevention examined 4000 patients with an EF < 35% who were asymptomatic and randomized them to enalapril (dose 2.5-20mg daily) or placebo. After an average 3 years follow up there was a significant reduction in heart failure hospitalizations but no difference in mortality. The SAVE (Survival and Ventricular Enlargement) trial studied 2200 patients with an EF < or = to 40% within 3-14 days following an acute myocardial infarction. These patients were given either captopril or placebo and followed for an average of 3.5 years. There was a significant 25% reduciton in myocardial infarction and a significant reduction in death from recurrent MI by 32% in the captopril group.<ref>Circulation, Oct 1994;90:1731-1738.</ref><br />
<br />
The CONSENSUS, SOLVD-Treatment and V-HeFT II trials all examined ACE inhibitors in symptomatic patients with systolic heart failure. The CONSENSUS trial was published in 1987 and studied 250 patients with NYHA class IV heart failure. These patients were randomized to enalapril (dose 2.5mg - 40mg daily) or placebo. After an average follow up of 6 months there was a 40% reduction in mortality in the enalapril group (this persisted to 1 year, at 1 year there was a 31% reduction in mortality in the enalapril group). The reduction in mortality was attributed to a reduction in the death from progressive heart failure, not from a reduction in sudden cardiac death. SOLVD-Treatement and V-HeFT II also showed a reduction in mortality with ACE inhibitors, both of these studies evalauted mainly patients with NYHA class II or III heart failure.<ref>N Engl J Med. 1991 Aug 1;325(5):303-10</ref><ref>N Engl J Med. 1991 Aug 1;325(5):293-302.</ref><br />
<br />
The AIRE and TRACE trials were placebo controlled randomized controlled trials which both evaluated ACE inhibitors (ramipril and trandolapril respectively) in heart failure following a myocardial infarction. Both of these studies also showed a reduction in mortality in the ACE inhibitor arm when compared to placebo. These studies evaluated patients at a minimum of 2 (AIRE) or 3 (TRACE) days following an acute MI. <br />
<br />
The CONSENSUS II, ISIS-4, GISSI-3 and SMILE studies all evaluated patients early (within 24 hours) following an acute myocardial infarction. All but the CONSENSUS II study showed a mortality benefit (both short and long term) in the ACE inhibitor arm when compared to placebo.<ref>Lancet. 1995 Mar 18;345(8951):669-85</ref><ref>Lancet. 1994 May 7;343(8906):1115-22</ref><ref>N Engl J Med. 1995 Jan 12;332(2):80-5.</ref> <br />
<br />
===ARBs in dilated cardiomyopathy===<br />
ARBs have also been extensively studied. There are at least four large trials which support the use of ARBs in systolic heart failure. These include the ELITE, ELITE II, Val-HeFT, and CHARM trials. The ELITE trial randomized 722 patients over the age of 65 with an EF < 40% and NYHA class II-IV heart failure to either an ACEi (captopril) or an ARB (losartan). After a follow up of 48 weeks there was no difference in the primary endpoint (persistent elevations in serum creatinine) however a secondary endpoint of mortality showed a risk reduction of 46% in teh losartan group.<ref>Lancet 1997;349:747-52</ref> This was further evaluated in the ELITE II trial which randomized 3150 patients similar to those in the ELITE trial and again compared captopril and losartan. After a mean follow up of 555 days there was no difference in mortalitity or resuscitated arrest, but losartan was "better tolerated" than captopril (captopril was most often discontinued due to ACEi related cough).<ref>Lancet. 2000;355:1582-1587.</ref> The Val-HeFT trial was a placebo controlled RCT that evaluated studied valsartan use in 5000 patients with heart failure. There was a reduction in the combined endpoint of mortality and morbidity after a mean follow up of 23 months.<ref>N Engl J Med. 2001 Dec 6;345(23):1667-75</ref> <br />
<br />
CHARM randomized 76000 patients to candesartan or placebo. There were 3 subgroups analyzed in this study. CHARM Added showed that there was a reduction in cardiovascular mortality or CHF hospitlization in patients with systolic heart failure (EF < 40%) who were taking candesartan as well as an ACEi when compared to an ACEi alone. The CHARM Alternative subgroup showed that in ACEi intolerant patients with systolic heart failure (EF < 40%) there was a reduction in mortality or CHF hospitalization in patients taking an ARB (candesartan) when compared to placebo. The CHARM Preserved group evaluated patients with heart failure and a preserved ejection fraction and found no difference between candesartan and placebo.<ref>Circulation 2004; 110:2180</ref><br />
<br />
The data is very strongly in favor of using ACEi as first line medications for systolic heart failure, and the addition of ARBs may be helpful. In addition, if patients are intolerant of ACEi there are clear benefits to using ARBs. <br />
<br />
===Beta Blockers in dilated cardiomyopathy===<br />
Beta blockers have been extensively studied in systolic heart failure. Bisoprolol, metoprolol succinate and carvedilol are the most supported by data. The U.S. Carvedilol study randomized roughly 1000 patients with an EF < 35% to either carvedilol or placebo. The study was stopped early as there was a 65% risk reduction in mortality in the carvedilol group and there was also a reduction in hospitalizations from a cardiac cause.<ref>N Enlg J Med. 1996 May 23;334(21):1349-55.</ref> The MERIT HF trial randomized 4000 patients NYHA II-IV with an EF < 40% to receive either metoprolol succinate ("Toprol XL") at doses 12.5mg daily uptitrated to 200mg daily or placebo. After a mean of 1 year follow up the study was also stopped early as there was a 34% risk reduction in mortality in the metoprolol succinate group. This reduction in mortality was attributed both to a reduction in sudden cardiac death as well as death from heart failure.<ref>Lancet 1999 Jun 12;353(9169):2001-7.</ref> Other large trials of beta blockers in systolic heart failure include CIBIS-II, COPERNICUS, and COMET.<br />
<br />
===Aldosterone antagonists in dilated cardiomyopathy===<br />
<br />
===Long acting nitrate and hydralazine combinations in dilated cardiomyopathy===<br />
VHeFT-I and VHeFT-II have shown that there is a benefit in morbidity and mortality to long acting nitrates combined with hydralazine in patients with systolic heart failure. This effect is thought to be less robust than ACEi (VHeFT-I compared this combination to an ACEi enalapril and showed a reduction in mortality in the ACEi group). Common practice is to use this combination in patients who are unable to tolerate an ACEi or ARB; such as patients with advanced renal disease.<br />
<br />
===Warfarin in dilated cardiomyopathy===<br />
As stated above warfarin is a medication that is occasionally used in systolic heart failure and the benefits are controversial. In systolic heart failure and atrial fibrillation there is a more clear benefit in terms of stroke prevention; however, in isolated systolic heart failure the reduction in embolic risk has not been fully elucidated. <br />
<br />
===Diuretics in dilated cardiomyopathy===<br />
Loop diuretic medications are commonly used for patients with symptoms of heart failure. There has been no clear survival benefit associated with loop diuretics; however, the use of diuretics and a sodium restricted diet are the mainstays of treatment for congestive symptoms.<br />
<br />
===Digoxin in dilated cardiomyopathy===<br />
Digoxin is sometimes used in systolic heart failure for symptom relief. A survival benefit has not been shown with digoxin use; however, it is useful for symptomatic treatment. There may be more of a role for digoxin in systolic heart failure and atrial fibrillation as digoxin may serve a dual purpose of heart failure symptom relief related to increased ionotropy as well as ventricular rate control related to AV nodal blockade. The RADIANCE trial and The Digoxin Study evaluated digoxin in heart failure patients.<br />
<br />
===N-3 polyunsaturated fatty acids===<br />
N-3 polyunsaturated fatty acids have also been evaluated by the GISSI-HF group and showed a slight reduction in mortality (from 29% to 27%) at roughly 3 years of follow up.<ref>Tavazzi L; Maggioni AP, et al. Effect of n-3 polyunsaturated fatty acids in patients with chronic heart failure (the GISSI-HF trial): a randomised, double-blind, placebo-controlled trial. Lancet. 2008 Oct 4;372(9645):1223-30. Epub 2008 Aug 29.</ref><br />
<br />
==Advanced Therapies==<br />
In patients with end stage heart failure or hemodynamic compromise vasopressor agents may be helpful. In patients with hemodynamic compromise medications such as dobutamine or dopamine may provide blood pressure support necessary. In addition parental agents such as milrinone (a phosphodiesterase inhibitor- somewhat specific for cardiac and vascular tissue) may be helpful in the short term or for end stage patients. There is no clear survival benefit and most trials with IV phosphodiesterase inhibitors are small trials of end stage heart failure patients. Oral milrinone has been studied and has been shown to increase mortality (as seen in the PROMISE trial). <br />
<br />
In patients who have severe heart failure and are refractory to medical therapy cardiac transplantation may be an option (based upon patient characteristics such as age and comorbidities as well as disease characterisitics such as the etiology of dilated cardiomyopathy). As a bridge to cardiac transplantation multiple mechanical devices have been used. The most durable device is the LVAD (left ventricular assist device), certain patient populations not suitable for cardiac transplantation may also undergo LVAD placement by a cardiac surgeon as a "destination LVAD." This may be considered a palliative measure for end-stage heart failure patients. Other devices which may be more limited in the duration of use include the aortic balloon pump, Impella, and the PVAD (peripheral ventricular assist device) one of which is the Tandem Heart.<br />
<br />
Implantable cardiac defibrillators have also been extensively studied in systolic heart failure. A survival benefit has also been shown in select patient populations.<br />
<br />
==Gross Pathological Findings==<br />
Images shown below are Courtesy of Professor Peter Anderson DVM PhD and published with permission. [http://www.peir.net © PEIR, University of Alabama at Birmingham, Department of Pathology]<br />
<br />
<div align="left"><br />
<gallery heights="175" widths="175"><br />
Image:414.jpg|Cardiomyopathy: Gross excellent view of mitral valve from left atrium anterior leaflet appears to balloon a bit into the atrium<br />
Image:415.jpg|Cardiomyopathy: Gross excellent view of mitral and tricuspid valves from atria, appear normal anatomy.<br />
</gallery><br />
</div><br />
<br />
<br />
<div align="left"><br />
<gallery heights="175" widths="175"><br />
Image:6621.jpg|Dilated Cardiomyopathy: Gross natural color close-up view of heart surgically removed for a transplantation shows aortic valve and anterior leaflet of mitral valve with cholesterol deposits endocardium of left ventricle is diffusely thickened<br />
Image:434.jpg|Cardiomyopathy: Gross external view of globular heart with patchy fibrosis seen through epicardium<br />
</gallery><br />
</div><br />
<br />
<br />
<div align="left"><br />
<gallery heights="175" widths="175"><br />
Image:874.jpg|Cardiomyopathy: Gross dilated left ventricle with marked endocardial thickening this is what has been called adult fibroelastosis<br />
Image:1134.jpg|Dilated Cardiomyopathy: Gross good example huge dilated left ventricle<br />
</gallery><br />
</div><br />
<br />
<br />
<div align="left"><br />
<gallery heights="175" widths="175"><br />
Image:1151.jpg|Dilated Cardiomyopathy: Gross dilated left ventricle with marked endocardial sclerosis (an excellent example)<br />
Image:1457.jpg|Cardiomyopathy: Gross intact globular shaped heart<br />
</gallery><br />
</div><br />
<br />
<br />
<div align="left"><br />
<gallery heights="175" widths="175"><br />
Image:1489.jpg|Dilated Cardiomyopathy: Gross opened left ventricle dilated with endocardial thickening good example<br />
Image:1509.jpg|Cardiomyopathy: Gross globular heart external view 10 year old girl with sickle cell anemia<br />
</gallery><br />
</div><br />
<br />
<br />
<div align="left"><br />
<gallery heights="175" widths="175"><br />
Image:1510.jpg|Cardiomyopathy: Gross horizontal sections of ventricles dilation type 10 year old girl with sickle cell anemia<br />
Image:2367.jpg|Cardiomyopathy: Intermediate between hypertrophic and dilated<br />
</gallery><br />
</div><br />
<br />
<br />
<div align="left"><br />
<gallery heights="175" widths="175"><br />
Image:2665.jpg|Dilated Cardiomyopathy: Gross opened globular left ventricle natural color (very good example)<br />
Image:2221.jpg|Brain: Infarct: Healing large MCA and PICA probably embolic 64 year old female chronic obstructive pulmonary disease and cardiomyopathy with atrial fibrillation<br />
</gallery><br />
</div><br />
<br />
<br />
<div align="left"><br />
<gallery heights="175" widths="175"><br />
Image:8777.jpg|Kidney: Infarct Remote: Gross external view with capsule removed two old and very typical infarct scars 27yobf with dilated cardiomyopathy<br />
Image:6224.jpg|Dilated Cardiomyopathy: Gross natural color external view globular heart 500 gm 24yo female seven pregnancies<br />
</gallery><br />
</div><br />
<br />
==References==<br />
{{Reflist|2}}<br />
<br />
==See Also==<br />
<br />
* [[Cardiomyopathy]]<br />
* [[Hypertrophic cardiomyopathy]]<br />
<br />
==External links==<br />
* [http://www.cardiomyopathy.org/html/which_card_dcm.htm Cardiomyopathy Association: Dilated cardiomyopathy]<br />
* [http://www.childrenscardiomyopathy.org Children's Cardiomyopathy Foundation]<br />
<br />
==Additional Reading==<br />
<br />
* Moss and Adams' Heart Disease in Infants, Children, and Adolescents Hugh D. Allen, Arthur J. Moss, David J. Driscoll, Forrest H. Adams, Timothy F. Feltes, Robert E. Shaddy, 2007 ISBN 0781786843<br />
* Braunwald's Heart Disease, Libby P, 8th ed., 2007, ISBN 978-1-41-604105-4<br />
* Hurst's the Heart, Fuster V, 12th ed. 2008, ISBN 978-0-07-149928-6<br />
* Willerson JT, Cardiovascular Medicine, 3rd ed., 2007, ISBN 978-1-84628-188-4<br />
{{clr}}<br />
{{Circulatory system pathology}}<br />
{{SIB}}<br />
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[[ru:Дилатационная кардиомиопатия]]<br />
<br />
[[Category:Cardiomyopathy]]<br />
[[Category:Cardiology]]<br />
<br />
{{WikiDoc Help Menu}}<br />
{{WikiDoc Sources}}</div>
Sachin Shah
https://www.wikidoc.org/index.php?title=Dilated_cardiomyopathy&diff=561531
Dilated cardiomyopathy
2009-11-04T11:12:38Z
<p>Sachin Shah: </p>
<hr />
<div>{{Infobox_Disease |<br />
Name = {{PAGENAME}} |<br />
Image = 1151.jpg| <br />
Caption = Dilated Cardiomyopathy: Gross dilated left ventricle with marked endocardial sclerosis <br> <small> [http://www.peir.net Image courtesy of Professor Peter Anderson DVM PhD and published with permission © PEIR, University of Alabama at Birmingham, Department of Pathology] </small>|<br />
DiseasesDB = 3066 |<br />
ICD10 = {{ICD10|I|42|0|i|30}} |<br />
ICD9 = {{ICD9|425.4}} |<br />
ICDO = |<br />
OMIM = 212110 |<br />
MedlinePlus = 000168 |<br />
eMedicineSubj = med |<br />
eMedicineTopic = 289 |<br />
eMedicine_mult = {{eMedicine2|emerg|80}} {{eMedicine2|ped|2502}} | <br />
MeshID = D002311 |<br />
}}<br />
{{SI}}<br />
{{WikiDoc Cardiology Network Infobox}}<br />
'''Editor-in-Chief:''' Sachin Shah, M.D. <br />
<br />
{{Editor Help}}<br />
<br />
==Overview==<br />
'''Dilated cardiomyopathy''' or '''DCM''' is a condition of the heart that causes dilation and impaired contraction of the left ventricle (or both ventricles). Impaired contraction is defined as a low ejection fraction (< 40%). In the following text the clinical presentation, diagnosis, and treatment will be reviewed. <br />
<br />
[[Cardimyopathy]] as a general topic also includes topics such as [[restrictive cardiomyopathy]] and [[hypertrophic cardiomyopathy]]. This section will focus on dilated cardiomyopathy. There is sometimes confusion regarding nomenclature, some of this confusion is based on different classifications set forth by the WHO (World Health Organization) and the AHA (American Heart Association). The WHO classifies cardiomyopathy as either Dilated (DCM), Restrictive (RCM), or Hypertrophic (HCM). The American Heart Association classifies cardiomyopathies as either "primary" or "secondary."<br />
<br />
Dilated cardiomyopathy can occur at any age (although it is more likely between the ages of 20-60)<ref>Dec GW, Fuster V. Idiopathic Dilated Cardiomyopathy. N Engl J Med 1994 Dec 8;331(23):1564-75. PMID 7969328</ref> there is a male predominance (3:1 male:female),<ref>Robbins Basic Pathology, 7th edition. Kumar, Cotran, Robbins. ISBN 0-7216-9274-5</ref>, and is 2.5 times more likely in African Americans.<ref>Coughlin SS, Labenberg JR, Tefft MC. Black-white differences in idiopathic dilated cardiomyopathy: the Washington DC Dilated Cardiomyopathy Study. Epidemiology. 1993;4:165-72. PMID 8452906</ref>. There are many causes and there are varying degrees of severityof the disease . Some forms are reversible and some are irreversible; some patients may be completely asymptoamtic and some may require cardiac transplantation. <br />
<br />
<br />
==Causes==<br />
There are many causes of dilated cardiomyopathy. The most common cause is "idiopathic" which accounts for roughly 50% of cases.<ref> Felker GM, Thompson RE, et al. Underlying causes and long-term survival in patients with initially unexplained cardiomyopathy. N Engl J Med 2000 Apr 13;342(14):1077-84.</ref> The next most common is Myocarditis which accounts for roughly 10%. Ischemic "cardiomyopathy," infiltrative disease, hypertensive heart disease, substance abuse (i.e. alcohol abuse or cocaine abuse), connective tissue disease, peripartum cardiomyopathy, drugs (such as the chemotherapeutic agent doxarubacin), HIV infection or antiretroviral drugs, toxins (such as cobalt, lead or beryllium), and nutritional deficiencies (such as thiamine or selenium) are among other causes of dilated cardiomyopathy. <br />
<br />
The high percentage of idiopathic dilated cardiomyopathy may be related to the difficulty in diagnosing viral myocarditis. There are not definitive diagnostic criteria for myocarditis based on echocardiography, the clinical presentation is commonly similar to dilated cardiomyopathy from other causes, and the sensitivity of endomycardial biopsy is relatively low and approaches near 50% even with immunostaining (CD3 for T lymphocytes and CD68 for macrophages).<ref>Herskowitz A, Ahmed-Ansari A, Neumann DA et al. Induction of major histocompatibility complex antigens within the myocardium of patients with active myocarditis: a nonhistologic marker of myocarditis. J Am Coll Cardiol. 1990;15(3):624-632.</ref>. Cardiac MRI (Magnetic Resonance Imaging) appears to be not only helpful in the localization of inflammation and targeting of endomyocardial biopsy but also seems to be helpful in the diagnosis of myocarditis.<ref>Freidrich MG, Strohm O, et al. Contrast media-enhanced mangetic resonance imaging visualizes myocardial changes in the course of viral myocarditis. Circulation. 1998;97(18):1802-1809.</ref> This new technology may be helpful in reducing the percentage of idiopathic dilated cardiomyopathy and discovering an etiology to the dilated cardiomyopathy in some of these patients.<br />
<br />
==Clinical Presentation==<br />
The clinical presentation of dilated cardiomyopathy is similar to that heart failure from any cause. Dyspnea on exertion, orthopnea, paroxysmal nocturnal dyspnea, lower extremity edema and orthostasis / syncope are all common findings in dilated cardiomyopathy. In addition dilated cardiomyopathy may present as palpitations as a result of arrhythmia (ventricular or atrial) with the most common arrhythmia being atrial fibrillation. Dilated cardiomyopathy may also present as sudden cardiac death or as CVA (cerebrovascular accident) or other embolic phenomenon (either from associated atrial fibrillation or from ventricular thrombi as a result of dilated ventricular cavities). <br />
<br />
Angina is not a common feature of dilated cardiomyopathy unless the cause is related to coronary artery disease. If angina is present a work up for cardiac ischemia should be undertaken.<ref> Mayo Clinic Cardiology. Concise Textbook. Murphy, Joseph G; Lloyd, Margaret A. Mayo Clinic Scientific Press. 2007.</ref><br />
<br />
==Diagnosis==<br />
The diagnosis of dilated cardiomyopathy is based on clinical presentation and imaging findings. The most common imaging modality used to diagnose dilated cardiomyopathy is 2D-echocardiography. Echocardiographic findings of dilated cardiomyopathy include dilation of the left ventricle; however, may include dilation of all 4 cardiac chambers, LV (left ventricular) wall thickness usually is normal but given the dilation the LV mass is increased. In addition there is a global reduciton in systolic function. Occasionally there may also be wall motion abnormalities even in patients without flow limiting coronary artery disease.<ref> Mayo Clinic Cardiology. Concise Textbook. Murphy, Joseph G; Lloyd, Margaret A. Mayo Clinic Scientific Press. 2007.</ref> <br />
<br />
The diagnosis requires a dilated left ventricle and low ejection fraction.<br />
<br />
In terms of determining the etiology a careful history is most instrumental. If the patient has CAD (coronary artery disease) risk factors, known CAD, or angina then a workup for CAD should be undertaken with coronary angiography. A viral prodrome such as viral URI or viral gastroenteritis may make viral myocarditis as a more likely cause. If the patient was exposed to chemotherapy such as anthracyclines then this would be the likely cause. Patients at risk for HIV should undergo testing as HIV can cause a dilated cardiomyopathy. Peripartum cardiomyopathy most often occurs within 1 month of delivery or 5 months after delivery, so recent childbirth is important information. Often by 8 months gestational age pregnancy is physically apparent but it is important to rule out pregnancy in women of childbearing age with dilated cardiomyopathy. Screening questions regarding cocaine or alcohol abuse or other toxin exposure (such as cobalt) should be addressed. <br />
<br />
A review of systems is also helpful in regards to connective tissue disease associated dilated cardiomyopathy (which can be related to SLE (systemic lupus erythematosis), rheumatoid arthritis, sarcoidosis, scleroderma, as well as other connective tissue diseases). <br />
<br />
A family history also has a great importance in the diagnosis of dilated cardiomyopathy. It has been suggested that a portion of those patients labeled as "idiopathic" may have a familial form of the disease. The prevalence of this in the population of patients with dilated cardiomyopathy has been estimated as high as 25%.<ref>Ross J Jr. Dilated cardiomyopathy: concepts derived from gene deficient and transgenic animal models. Circ J. 2002;66:219-24. PMID 11922267</ref> The majority of these are thought to be related to autosomal dominant transmission, the remaining are thought to be transimtted in an autosomal recessive and X-linked fashion.<ref>Mestroni L; Rocco C; et al. Familial dilated cardiomyopathy: evidence for genetic and phenotypic heterogeneity. Heart Muscle Disease Study Group. J Am Coll Cardiol 1999 Jul;34(1):181-90.</ref> Mitochondrial inheritance of the disease has also been identified.<ref>Schonberger J, Seidman CE. Many roads lead to a broken heart: the genetics of dilated cardiomyopathy. Am J Hum Genet. 2001;69:249-60. Epub 2001 Jul 6. PMID 11443548</ref><br />
<br />
Pericardial effusion may accompany myocarditis but this finding is not specific. Cardiac MRI as discussed above may be helpful in diagnosing myocarditis. Endomyocardial biopsy as discussed above has low sensitivy and the findings are also notoriously non-specific. The findings on biopsy usually involve findings of inflammation and specific pathogens are unlikely to be identified. There may be an increased yield to using MRI to target endomyocardial biopsy as described above. Viral titiers (serologies) are often unhelpful and not routinely ordered in clinical practice. <br />
<br />
==Prognosis==<br />
There are many prognostic factors which can be evaluated in a patient with dilated cardiomyopathy.<ref> Mayo Clinic Cardiology. Concise Textbook. Murphy, Joseph G; Lloyd, Margaret A. Mayo Clinic Scientific Press. 2007.</ref> The most important prognostic indicator is a decreased ejection fraction, in addition increased ventricular size and right ventricular dilation are independent indicators of a poor prognosis. <br />
<br />
As is in most cases of heart failure a poor NYHA functional class and increased PASP (>35mmHg) are also poor prognostic indicators. <br />
<br />
Other findings that infer a poor prognosis are as follows: Maximal O2 uptake of < 12mL/kg / minute on exercise testing, LBBB (left bundle branch block), non sustained ventricular tachycardia, syncope, hyponatremia with a serum sodium less than 135, elevated norepinephrine, ANP (atrial natriuretic peptide) and renin levels (not routinely measured in clinical practice), elevated PCWP (pulmonary capillary wedge pressure) > 18mmHg, low cardiac index < 2.5L/min/m^2. <br />
<br />
==Treatment==<br />
Death from dilated cardiomyopathy is usually the result of progressive heart failure or arrhythmia. Treatments for dilated cardiomyopathy are targeted towards preventing death and treating symptoms of heart failure. Some medications (such as ACE inhibitors) may help acheive both goals. Initial treatment should focus on the underlying cause of dilated cardiomyopathy if reversible. If for example a patient has dilated cardiomyopathy and three vessel coronary artery disease then revascularization should be an initial step in treatment. <br />
<br />
Medications which have a proven survival benefit in systolic heart failure are ACE (angiotensin converting enzyme) inhibitors, ARBs (angiotensin II receptor blockers), beta blockers (carvedilol and metoprolol succinate are the most well studied), aldosterone antagonists (in severe heart failure) and combination of long acting nitrates and hydralazine. Medications targeted towards symptom relief in systolic heart failure are diuretics and digoxin. Warfarin is also a medication used in systolic heart failure; the benefit of this medication is controversial.<br />
<br />
===ACE inhibitors in dilated cardiomoypathy===<br />
ACE inhibitors are thought to be useful in dilated cardiomyopathy by not only causing arterial vasodilation and reduction of afterload but also by reduction in levels of angiotensin II, aldosterone, and ADH which may have deleterious remodeling effects on the heart as well as vasoconstriction. ACE inhibitors have been extensively studied in systolic heart failure and have been shown to reduce symptoms, slow the progression of heart failure and reduce mortality in all classes of heart failure. The most profound impact is seen in patients who are most symptomatic as well as those patients who have recently suffered a myocardial infarction. In addition ACE inhibitors have been shown to slow the progression of LV (left ventricular) dilation in systolic heart failure. <br />
<br />
The SOLVD-Prevention trial and SAVE trial both are large randomized controlled trials which evaluated patients with asymptomatic systolic heart failure. SOLVD-Prevention examined 4000 patients with an EF < 35% who were asymptomatic and randomized them to enalapril (dose 2.5-20mg daily) or placebo. After an average 3 years follow up there was a significant reduction in heart failure hospitalizations but no difference in mortality. The SAVE (Survival and Ventricular Enlargement) trial studied 2200 patients with an EF < or = to 40% within 3-14 days following an acute myocardial infarction. These patients were given either captopril or placebo and followed for an average of 3.5 years. There was a significant 25% reduciton in myocardial infarction and a significant reduction in death from recurrent MI by 32% in the captopril group.<ref>Circulation, Oct 1994;90:1731-1738.</ref><br />
<br />
The CONSENSUS, SOLVD-Treatment and V-HeFT II trials all examined ACE inhibitors in symptomatic patients with systolic heart failure. The CONSENSUS trial was published in 1987 and studied 250 patients with NYHA class IV heart failure. These patients were randomized to enalapril (dose 2.5mg - 40mg daily) or placebo. After an average follow up of 6 months there was a 40% reduction in mortality in the enalapril group (this persisted to 1 year, at 1 year there was a 31% reduction in mortality in the enalapril group). The reduction in mortality was attributed to a reduction in the death from progressive heart failure, not from a reduction in sudden cardiac death. SOLVD-Treatement and V-HeFT II also showed a reduction in mortality with ACE inhibitors, both of these studies evalauted mainly patients with NYHA class II or III heart failure.<ref>N Engl J Med. 1991 Aug 1;325(5):303-10</ref><ref>N Engl J Med. 1991 Aug 1;325(5):293-302.</ref><br />
<br />
The AIRE and TRACE trials were placebo controlled randomized controlled trials which both evaluated ACE inhibitors (ramipril and trandolapril respectively) in heart failure following a myocardial infarction. Both of these studies also showed a reduction in mortality in the ACE inhibitor arm when compared to placebo. These studies evaluated patients at a minimum of 2 (AIRE) or 3 (TRACE) days following an acute MI. <br />
<br />
The CONSENSUS II, ISIS-4, GISSI-3 and SMILE studies all evaluated patients early (within 24 hours) following an acute myocardial infarction. All but the CONSENSUS II study showed a mortality benefit (both short and long term) in the ACE inhibitor arm when compared to placebo.<ref>Lancet. 1995 Mar 18;345(8951):669-85</ref><ref>Lancet. 1994 May 7;343(8906):1115-22</ref><ref>N Engl J Med. 1995 Jan 12;332(2):80-5.</ref> <br />
<br />
===ARBs in dilated cardiomyopathy===<br />
ARBs have also been extensively studied. There are at least four large trials which support the use of ARBs in systolic heart failure. These include the ELITE, ELITE II, Val-HeFT, and CHARM trials. The ELITE trial randomized 722 patients over the age of 65 with an EF < 40% and NYHA class II-IV heart failure to either an ACEi (captopril) or an ARB (losartan). After a follow up of 48 weeks there was no difference in the primary endpoint (persistent elevations in serum creatinine) however a secondary endpoint of mortality showed a risk reduction of 46% in teh losartan group.<ref>Lancet 1997;349:747-52</ref> This was further evaluated in the ELITE II trial which randomized 3150 patients similar to those in the ELITE trial and again compared captopril and losartan. After a mean follow up of 555 days there was no difference in mortalitity or resuscitated arrest, but losartan was "better tolerated" than captopril (captopril was most often discontinued due to ACEi related cough).<ref>Lancet. 2000;355:1582-1587.</ref> The Val-HeFT trial was a placebo controlled RCT that evaluated studied valsartan use in 5000 patients with heart failure. There was a reduction in the combined endpoint of mortality and morbidity after a mean follow up of 23 months.<ref>N Engl J Med. 2001 Dec 6;345(23):1667-75</ref> <br />
<br />
CHARM randomized 76000 patients to candesartan or placebo. There were 3 subgroups analyzed in this study. CHARM Added showed that there was a reduction in cardiovascular mortality or CHF hospitlization in patients with systolic heart failure (EF < 40%) who were taking candesartan as well as an ACEi when compared to an ACEi alone. The CHARM Alternative subgroup showed that in ACEi intolerant patients with systolic heart failure (EF < 40%) there was a reduction in mortality or CHF hospitalization in patients taking an ARB (candesartan) when compared to placebo. The CHARM Preserved group evaluated patients with heart failure and a preserved ejection fraction and found no difference between candesartan and placebo.<ref>Circulation 2004; 110:2180</ref><br />
<br />
The data is very strongly in favor of using ACEi as first line medications for systolic heart failure, and the addition of ARBs may be helpful. In addition, if patients are intolerant of ACEi there are clear benefits to using ARBs. <br />
<br />
===Beta Blockers in dilated cardiomyopathy===<br />
Beta blockers have been extensively studied in systolic heart failure. Bisoprolol, metoprolol succinate and carvedilol are the most supported by data. The U.S. Carvedilol study randomized roughly 1000 patients with an EF < 35% to either carvedilol or placebo. The study was stopped early as there was a 65% risk reduction in mortality in the carvedilol group and there was also a reduction in hospitalizations from a cardiac cause.<ref>N Enlg J Med. 1996 May 23;334(21):1349-55.</ref> The MERIT HF trial randomized 4000 patients NYHA II-IV with an EF < 40% to receive either metoprolol succinate ("Toprol XL") at doses 12.5mg daily uptitrated to 200mg daily or placebo. After a mean of 1 year follow up the study was also stopped early as there was a 34% risk reduction in mortality in the metoprolol succinate group. This reduction in mortality was attributed both to a reduction in sudden cardiac death as well as death from heart failure.<ref>Lancet 1999 Jun 12;353(9169):2001-7.</ref> Other large trials of beta blockers in systolic heart failure include CIBIS-II, COPERNICUS, and COMET.<br />
<br />
===Aldosterone antagonists in dilated cardiomyopathy===<br />
Long acting nitrate and hydralazine combinations<br />
<br />
As stated above warfarin is a medication that is occasionally used in systolic heart failure and the benefits are controversial. In systolic heart failure and atrial fibrillation there is a more clear benefit in terms of stroke prevention; however, in isolated systolic heart failure the reduction in embolic risk has not been fully elucidated. <br />
<br />
Loop diuretic medications are commonly used for patients with symptoms of heart failure. There has been no clear survival benefit associated with loop diuretics; however, the use of diuretics and a sodium restricted diet are the mainstays of treatment for congestive symptoms.<br />
<br />
Digoxin is sometimes used in systolic heart failure for symptom relief. A survival benefit has not been shown with digoxin use; however, it is useful for symptomatic treatment. There may be more of a role for digoxin in systolic heart failure and atrial fibrillation as digoxin may serve a dual purpose of heart failure symptom relief related to increased ionotropy as well as ventricular rate control related to AV nodal blockade.<br />
<br />
N-3 polyunsaturated fatty acids have also been evaluated by the GISSI-HF group and showed a slight reduction in mortality (from 29% to 27%) at roughly 3 years of follow up.<ref>Tavazzi L; Maggioni AP, et al. Effect of n-3 polyunsaturated fatty acids in patients with chronic heart failure (the GISSI-HF trial): a randomised, double-blind, placebo-controlled trial. Lancet. 2008 Oct 4;372(9645):1223-30. Epub 2008 Aug 29.</ref><br />
<br />
==Advanced Therapies==<br />
In patients with end stage heart failure or hemodynamic compromise vasopressor agents may be helpful. In patients with hemodynamic compromise medications such as dobutamine or dopamine may provide blood pressure support necessary. In addition parental agents such as milrinone (a phosphodiesterase inhibitor- somewhat specific for cardiac and vascular tissue) may be helpful in the short term or for end stage patients. There is no clear survival benefit and most trials with IV phosphodiesterase inhibitors are small trials of end stage heart failure patients. Oral milrinone has been studied and has been shown to increase mortality. <br />
<br />
In patients who have severe heart failure and are refractory to medical therapy cardiac transplantation may be an option (based upon patient characteristics such as age and comorbidities as well as disease characterisitics such as the etiology of dilated cardiomyopathy). As a bridge to cardiac transplantation multiple mechanical devices have been used. The most durable device is the LVAD (left ventricular assist device), certain patient populations not suitable for cardiac transplantation may also undergo LVAD placement by a cardiac surgeon as a "destination LVAD." This may be considered a palliative measure for end-stage heart failure patients. Other devices which may be more limited in the duration of use include the aortic balloon pump, Impella, and the PVAD (peripheral ventricular assist device) one of which is the Tandem Heart.<br />
<br />
Implantable cardiac defibrillators have also been extensively studied in systolic heart failure. A survival benefit has also been shown in select patient populations.<br />
<br />
==Gross Pathological Findings==<br />
Images shown below are Courtesy of Professor Peter Anderson DVM PhD and published with permission. [http://www.peir.net © PEIR, University of Alabama at Birmingham, Department of Pathology]<br />
<br />
<div align="left"><br />
<gallery heights="175" widths="175"><br />
Image:414.jpg|Cardiomyopathy: Gross excellent view of mitral valve from left atrium anterior leaflet appears to balloon a bit into the atrium<br />
Image:415.jpg|Cardiomyopathy: Gross excellent view of mitral and tricuspid valves from atria, appear normal anatomy.<br />
</gallery><br />
</div><br />
<br />
<br />
<div align="left"><br />
<gallery heights="175" widths="175"><br />
Image:6621.jpg|Dilated Cardiomyopathy: Gross natural color close-up view of heart surgically removed for a transplantation shows aortic valve and anterior leaflet of mitral valve with cholesterol deposits endocardium of left ventricle is diffusely thickened<br />
Image:434.jpg|Cardiomyopathy: Gross external view of globular heart with patchy fibrosis seen through epicardium<br />
</gallery><br />
</div><br />
<br />
<br />
<div align="left"><br />
<gallery heights="175" widths="175"><br />
Image:874.jpg|Cardiomyopathy: Gross dilated left ventricle with marked endocardial thickening this is what has been called adult fibroelastosis<br />
Image:1134.jpg|Dilated Cardiomyopathy: Gross good example huge dilated left ventricle<br />
</gallery><br />
</div><br />
<br />
<br />
<div align="left"><br />
<gallery heights="175" widths="175"><br />
Image:1151.jpg|Dilated Cardiomyopathy: Gross dilated left ventricle with marked endocardial sclerosis (an excellent example)<br />
Image:1457.jpg|Cardiomyopathy: Gross intact globular shaped heart<br />
</gallery><br />
</div><br />
<br />
<br />
<div align="left"><br />
<gallery heights="175" widths="175"><br />
Image:1489.jpg|Dilated Cardiomyopathy: Gross opened left ventricle dilated with endocardial thickening good example<br />
Image:1509.jpg|Cardiomyopathy: Gross globular heart external view 10 year old girl with sickle cell anemia<br />
</gallery><br />
</div><br />
<br />
<br />
<div align="left"><br />
<gallery heights="175" widths="175"><br />
Image:1510.jpg|Cardiomyopathy: Gross horizontal sections of ventricles dilation type 10 year old girl with sickle cell anemia<br />
Image:2367.jpg|Cardiomyopathy: Intermediate between hypertrophic and dilated<br />
</gallery><br />
</div><br />
<br />
<br />
<div align="left"><br />
<gallery heights="175" widths="175"><br />
Image:2665.jpg|Dilated Cardiomyopathy: Gross opened globular left ventricle natural color (very good example)<br />
Image:2221.jpg|Brain: Infarct: Healing large MCA and PICA probably embolic 64 year old female chronic obstructive pulmonary disease and cardiomyopathy with atrial fibrillation<br />
</gallery><br />
</div><br />
<br />
<br />
<div align="left"><br />
<gallery heights="175" widths="175"><br />
Image:8777.jpg|Kidney: Infarct Remote: Gross external view with capsule removed two old and very typical infarct scars 27yobf with dilated cardiomyopathy<br />
Image:6224.jpg|Dilated Cardiomyopathy: Gross natural color external view globular heart 500 gm 24yo female seven pregnancies<br />
</gallery><br />
</div><br />
<br />
==References==<br />
{{Reflist|2}}<br />
<br />
==See Also==<br />
<br />
* [[Cardiomyopathy]]<br />
* [[Hypertrophic cardiomyopathy]]<br />
<br />
==External links==<br />
* [http://www.cardiomyopathy.org/html/which_card_dcm.htm Cardiomyopathy Association: Dilated cardiomyopathy]<br />
* [http://www.childrenscardiomyopathy.org Children's Cardiomyopathy Foundation]<br />
<br />
==Additional Reading==<br />
<br />
* Moss and Adams' Heart Disease in Infants, Children, and Adolescents Hugh D. Allen, Arthur J. Moss, David J. Driscoll, Forrest H. Adams, Timothy F. Feltes, Robert E. Shaddy, 2007 ISBN 0781786843<br />
* Braunwald's Heart Disease, Libby P, 8th ed., 2007, ISBN 978-1-41-604105-4<br />
* Hurst's the Heart, Fuster V, 12th ed. 2008, ISBN 978-0-07-149928-6<br />
* Willerson JT, Cardiovascular Medicine, 3rd ed., 2007, ISBN 978-1-84628-188-4<br />
{{clr}}<br />
{{Circulatory system pathology}}<br />
{{SIB}}<br />
<br />
[[ru:Дилатационная кардиомиопатия]]<br />
<br />
[[Category:Cardiomyopathy]]<br />
[[Category:Cardiology]]<br />
<br />
{{WikiDoc Help Menu}}<br />
{{WikiDoc Sources}}</div>
Sachin Shah
https://www.wikidoc.org/index.php?title=Dilated_cardiomyopathy&diff=561526
Dilated cardiomyopathy
2009-11-04T02:01:37Z
<p>Sachin Shah: /* Advanced Therapies */</p>
<hr />
<div>{{Infobox_Disease |<br />
Name = {{PAGENAME}} |<br />
Image = 1151.jpg| <br />
Caption = Dilated Cardiomyopathy: Gross dilated left ventricle with marked endocardial sclerosis <br> <small> [http://www.peir.net Image courtesy of Professor Peter Anderson DVM PhD and published with permission © PEIR, University of Alabama at Birmingham, Department of Pathology] </small>|<br />
DiseasesDB = 3066 |<br />
ICD10 = {{ICD10|I|42|0|i|30}} |<br />
ICD9 = {{ICD9|425.4}} |<br />
ICDO = |<br />
OMIM = 212110 |<br />
MedlinePlus = 000168 |<br />
eMedicineSubj = med |<br />
eMedicineTopic = 289 |<br />
eMedicine_mult = {{eMedicine2|emerg|80}} {{eMedicine2|ped|2502}} | <br />
MeshID = D002311 |<br />
}}<br />
{{SI}}<br />
{{WikiDoc Cardiology Network Infobox}}<br />
'''Editor-in-Chief:''' Sachin Shah, M.D. <br />
<br />
{{Editor Help}}<br />
<br />
==Overview==<br />
'''Dilated cardiomyopathy''' or '''DCM''' is a condition of the heart that causes dilation and impaired contraction of the left ventricle (or both ventricles). Impaired contraction is defined as a low ejection fraction (< 40%). In the following text the clinical presentation, diagnosis, and treatment will be reviewed. <br />
<br />
[[Cardimyopathy]] as a general topic also includes topics such as [[restrictive cardiomyopathy]] and [[hypertrophic cardiomyopathy]]. This section will focus on dilated cardiomyopathy. There is sometimes confusion regarding nomenclature, some of this confusion is based on different classifications set forth by the WHO (World Health Organization) and the AHA (American Heart Association). The WHO classifies cardiomyopathy as either Dilated (DCM), Restrictive (RCM), or Hypertrophic (HCM). The American Heart Association classifies cardiomyopathies as either "primary" or "secondary."<br />
<br />
Dilated cardiomyopathy can occur at any age (although it is more likely between the ages of 20-60)<ref>Dec GW, Fuster V. Idiopathic Dilated Cardiomyopathy. N Engl J Med 1994 Dec 8;331(23):1564-75. PMID 7969328</ref> there is a male predominance (3:1 male:female),<ref>Robbins Basic Pathology, 7th edition. Kumar, Cotran, Robbins. ISBN 0-7216-9274-5</ref>, and is 2.5 times more likely in African Americans.<ref>Coughlin SS, Labenberg JR, Tefft MC. Black-white differences in idiopathic dilated cardiomyopathy: the Washington DC Dilated Cardiomyopathy Study. Epidemiology. 1993;4:165-72. PMID 8452906</ref>. There are many causes and there are varying degrees of severityof the disease . Some forms are reversible and some are irreversible; some patients may be completely asymptoamtic and some may require cardiac transplantation. <br />
<br />
<br />
==Causes==<br />
There are many causes of dilated cardiomyopathy. The most common cause is "idiopathic" which accounts for roughly 50% of cases.<ref> Felker GM, Thompson RE, et al. Underlying causes and long-term survival in patients with initially unexplained cardiomyopathy. N Engl J Med 2000 Apr 13;342(14):1077-84.</ref> The next most common is Myocarditis which accounts for roughly 10%. Ischemic "cardiomyopathy," infiltrative disease, hypertensive heart disease, substance abuse (i.e. alcohol abuse or cocaine abuse), connective tissue disease, peripartum cardiomyopathy, drugs (such as the chemotherapeutic agent doxarubacin), HIV infection or antiretroviral drugs, toxins (such as cobalt, lead or beryllium), and nutritional deficiencies (such as thiamine or selenium) are among other causes of dilated cardiomyopathy. <br />
<br />
The high percentage of idiopathic dilated cardiomyopathy may be related to the difficulty in diagnosing viral myocarditis. There are not definitive diagnostic criteria for myocarditis based on echocardiography, the clinical presentation is commonly similar to dilated cardiomyopathy from other causes, and the sensitivity of endomycardial biopsy is relatively low and approaches near 50% even with immunostaining (CD3 for T lymphocytes and CD68 for macrophages).<ref>Herskowitz A, Ahmed-Ansari A, Neumann DA et al. Induction of major histocompatibility complex antigens within the myocardium of patients with active myocarditis: a nonhistologic marker of myocarditis. J Am Coll Cardiol. 1990;15(3):624-632.</ref>. Cardiac MRI (Magnetic Resonance Imaging) appears to be not only helpful in the localization of inflammation and targeting of endomyocardial biopsy but also seems to be helpful in the diagnosis of myocarditis.<ref>Freidrich MG, Strohm O, et al. Contrast media-enhanced mangetic resonance imaging visualizes myocardial changes in the course of viral myocarditis. Circulation. 1998;97(18):1802-1809.</ref> This new technology may be helpful in reducing the percentage of idiopathic dilated cardiomyopathy and discovering an etiology to the dilated cardiomyopathy in some of these patients.<br />
<br />
==Clinical Presentation==<br />
The clinical presentation of dilated cardiomyopathy is similar to that heart failure from any cause. Dyspnea on exertion, orthopnea, paroxysmal nocturnal dyspnea, lower extremity edema and orthostasis / syncope are all common findings in dilated cardiomyopathy. In addition dilated cardiomyopathy may present as palpitations as a result of arrhythmia (ventricular or atrial) with the most common arrhythmia being atrial fibrillation. Dilated cardiomyopathy may also present as sudden cardiac death or as CVA (cerebrovascular accident) or other embolic phenomenon (either from associated atrial fibrillation or from ventricular thrombi as a result of dilated ventricular cavities). <br />
<br />
Angina is not a common feature of dilated cardiomyopathy unless the cause is related to coronary artery disease. If angina is present a work up for cardiac ischemia should be undertaken.<ref> Mayo Clinic Cardiology. Concise Textbook. Murphy, Joseph G; Lloyd, Margaret A. Mayo Clinic Scientific Press. 2007.</ref><br />
<br />
==Diagnosis==<br />
The diagnosis of dilated cardiomyopathy is based on clinical presentation and imaging findings. The most common imaging modality used to diagnose dilated cardiomyopathy is 2D-echocardiography. Echocardiographic findings of dilated cardiomyopathy include dilation of the left ventricle; however, may include dilation of all 4 cardiac chambers, LV (left ventricular) wall thickness usually is normal but given the dilation the LV mass is increased. In addition there is a global reduciton in systolic function. Occasionally there may also be wall motion abnormalities even in patients without flow limiting coronary artery disease.<ref> Mayo Clinic Cardiology. Concise Textbook. Murphy, Joseph G; Lloyd, Margaret A. Mayo Clinic Scientific Press. 2007.</ref> <br />
<br />
The diagnosis requires a dilated left ventricle and low ejection fraction.<br />
<br />
In terms of determining the etiology a careful history is most instrumental. If the patient has CAD (coronary artery disease) risk factors, known CAD, or angina then a workup for CAD should be undertaken with coronary angiography. A viral prodrome such as viral URI or viral gastroenteritis may make viral myocarditis as a more likely cause. If the patient was exposed to chemotherapy such as anthracyclines then this would be the likely cause. Patients at risk for HIV should undergo testing as HIV can cause a dilated cardiomyopathy. Peripartum cardiomyopathy most often occurs within 1 month of delivery or 5 months after delivery, so recent childbirth is important information. Often by 8 months gestational age pregnancy is physically apparent but it is important to rule out pregnancy in women of childbearing age with dilated cardiomyopathy. Screening questions regarding cocaine or alcohol abuse or other toxin exposure (such as cobalt) should be addressed. <br />
<br />
A review of systems is also helpful in regards to connective tissue disease associated dilated cardiomyopathy (which can be related to SLE (systemic lupus erythematosis), rheumatoid arthritis, sarcoidosis, scleroderma, as well as other connective tissue diseases). <br />
<br />
A family history also has a great importance in the diagnosis of dilated cardiomyopathy. It has been suggested that a portion of those patients labeled as "idiopathic" may have a familial form of the disease. The prevalence of this in the population of patients with dilated cardiomyopathy has been estimated as high as 25%.<ref>Ross J Jr. Dilated cardiomyopathy: concepts derived from gene deficient and transgenic animal models. Circ J. 2002;66:219-24. PMID 11922267</ref> The majority of these are thought to be related to autosomal dominant transmission, the remaining are thought to be transimtted in an autosomal recessive and X-linked fashion.<ref>Mestroni L; Rocco C; et al. Familial dilated cardiomyopathy: evidence for genetic and phenotypic heterogeneity. Heart Muscle Disease Study Group. J Am Coll Cardiol 1999 Jul;34(1):181-90.</ref> Mitochondrial inheritance of the disease has also been identified.<ref>Schonberger J, Seidman CE. Many roads lead to a broken heart: the genetics of dilated cardiomyopathy. Am J Hum Genet. 2001;69:249-60. Epub 2001 Jul 6. PMID 11443548</ref><br />
<br />
Pericardial effusion may accompany myocarditis but this finding is not specific. Cardiac MRI as discussed above may be helpful in diagnosing myocarditis. Endomyocardial biopsy as discussed above has low sensitivy and the findings are also notoriously non-specific. The findings on biopsy usually involve findings of inflammation and specific pathogens are unlikely to be identified. There may be an increased yield to using MRI to target endomyocardial biopsy as described above. Viral titiers (serologies) are often unhelpful and not routinely ordered in clinical practice. <br />
<br />
==Prognosis==<br />
There are many prognostic factors which can be evaluated in a patient with dilated cardiomyopathy.<ref> Mayo Clinic Cardiology. Concise Textbook. Murphy, Joseph G; Lloyd, Margaret A. Mayo Clinic Scientific Press. 2007.</ref> The most important prognostic indicator is a decreased ejection fraction, in addition increased ventricular size and right ventricular dilation are independent indicators of a poor prognosis. <br />
<br />
As is in most cases of heart failure a poor NYHA functional class and increased PASP (>35mmHg) are also poor prognostic indicators. <br />
<br />
Other findings that infer a poor prognosis are as follows: Maximal O2 uptake of < 12mL/kg / minute on exercise testing, LBBB (left bundle branch block), non sustained ventricular tachycardia, syncope, hyponatremia with a serum sodium less than 135, elevated norepinephrine, ANP (atrial natriuretic peptide) and renin levels (not routinely measured in clinical practice), elevated PCWP (pulmonary capillary wedge pressure) > 18mmHg, low cardiac index < 2.5L/min/m^2. <br />
<br />
==Treatment==<br />
Death from dilated cardiomyopathy is usually the result of progressive heart failure or arrhythmia. Treatments for dilated cardiomyopathy are targeted towards preventing death and treating symptoms of heart failure. Some medications (such as ACE inhibitors) may help acheive both goals. Initial treatment should focus on the underlying cause of dilated cardiomyopathy if reversible. If for example a patient has dilated cardiomyopathy and three vessel coronary artery disease then revascularization should be an initial step in treatment. <br />
<br />
Medications which have a proven survival benefit in systolic heart failure are ACE (angiotensin converting enzyme) inhibitors, ARBs (angiotensin II receptor blockers), beta blockers (carvedilol and metoprolol succinate are the most well studied), aldosterone antagonists (in severe heart failure) and combination of long acting nitrates and hydralazine. Medications targeted towards symptom relief in systolic heart failure are diuretics and digoxin. Warfarin is also a medication used in systolic heart failure; the benefit of this medication is controversial.<br />
<br />
ACE inhibitors are thought to be useful in dilated cardiomyopathy by not only causing arterial vasodilation and reduction of afterload but also by reduction in levels of angiotensin II, aldosterone, and ADH which may have deleterious remodeling effects on the heart as well as vasoconstriction. ACE inhibitors have been extensively studied in systolic heart failure and have been shown to reduce symptoms, slow the progression of heart failure and reduce mortality in all classes of heart failure. The most profound impact is seen in patients who are most symptomatic as well as those patients who have recently suffered a myocardial infarction. In addition ACE inhibitors have been shown to slow the progression of LV (left ventricular) dilation in systolic heart failure. <br />
<br />
The SOLVD-Prevention trial and SAVE trial both are large randomized controlled trials which evaluated patients with asymptomatic systolic heart failure. SOLVD-Prevention examined 4000 patients with an EF < 35% who were asymptomatic and randomized them to enalapril (dose 2.5-20mg daily) or placebo. After an average 3 years follow up there was a significant reduction in heart failure hospitalizations but no difference in mortality. The SAVE (Survival and Ventricular Enlargement) trial studied 2200 patients with an EF < or = to 40% within 3-14 days following an acute myocardial infarction. These patients were given either captopril or placebo and followed for an average of 3.5 years. There was a significant 25% reduciton in myocardial infarction and a significant reduction in death from recurrent MI by 32% in the captopril group.<ref>Circulation, Oct 1994;90:1731-1738.</ref><br />
<br />
The CONSENSUS, SOLVD-Treatment and V-HeFT II trials all examined ACE inhibitors in symptomatic patients with systolic heart failure. The CONSENSUS trial was published in 1987 and studied 250 patients with NYHA class IV heart failure. These patients were randomized to enalapril (dose 2.5mg - 40mg daily) or placebo. After an average follow up of 6 months there was a 40% reduction in mortality in the enalapril group (this persisted to 1 year, at 1 year there was a 31% reduction in mortality in the enalapril group). The reduction in mortality was attributed to a reduction in the death from progressive heart failure, not from a reduction in sudden cardiac death. SOLVD-Treatement and V-HeFT II also showed a reduction in mortality with ACE inhibitors, both of these studies evalauted mainly patients with NYHA class II or III heart failure.<ref>N Engl J Med. 1991 Aug 1;325(5):303-10</ref><ref>N Engl J Med. 1991 Aug 1;325(5):293-302.</ref><br />
<br />
The AIRE and TRACE trials were placebo controlled randomized controlled trials which both evaluated ACE inhibitors (ramipril and trandolapril respectively) in heart failure following a myocardial infarction. Both of these studies also showed a reduction in mortality in the ACE inhibitor arm when compared to placebo. These studies evaluated patients at a minimum of 2 (AIRE) or 3 (TRACE) days following an acute MI. <br />
<br />
The CONSENSUS II, ISIS-4, GISSI-3 and SMILE studies all evaluated patients early (within 24 hours) following an acute myocardial infarction. All but the CONSENSUS II study showed a mortality benefit (both short and long term) in the ACE inhibitor arm when compared to placebo.<ref>Lancet. 1995 Mar 18;345(8951):669-85</ref><ref>Lancet. 1994 May 7;343(8906):1115-22</ref><ref>N Engl J Med. 1995 Jan 12;332(2):80-5.</ref> <br />
<br />
ARBs have also been extensively studied. There are at least four large trials which support the use of ARBs in systolic heart failure. These include the ELITE, ELITE II, Val-HeFT, and CHARM trials. The ELITE trial randomized 722 patients over the age of 65 with an EF < 40% and NYHA class II-IV heart failure to either an ACEi (captopril) or an ARB (losartan). After a follow up of 48 weeks there was no difference in the primary endpoint (persistent elevations in serum creatinine) however a secondary endpoint of mortality showed a risk reduction of 46% in teh losartan group.<ref>Lancet 1997;349:747-52</ref> This was further evaluated in the ELITE II trial which randomized 3150 patients similar to those in the ELITE trial and again compared captopril and losartan. After a mean follow up of 555 days there was no difference in mortalitity or resuscitated arrest, but losartan was "better tolerated" than captopril (captopril was most often discontinued due to ACEi related cough).<ref>Lancet. 2000;355:1582-1587.</ref> The Val-HeFT trial was a placebo controlled RCT that evaluated studied valsartan use in 5000 patients with heart failure. There was a reduction in the combined endpoint of mortality and morbidity after a mean follow up of 23 months.<ref>N Engl J Med. 2001 Dec 6;345(23):1667-75</ref> <br />
<br />
CHARM randomized 76000 patients to candesartan or placebo. There were 3 subgroups analyzed in this study. CHARM Added showed that there was a reduction in cardiovascular mortality or CHF hospitlization in patients with systolic heart failure (EF < 40%) who were taking candesartan as well as an ACEi when compared to an ACEi alone. The CHARM Alternative subgroup showed that in ACEi intolerant patients with systolic heart failure (EF < 40%) there was a reduction in mortality or CHF hospitalization in patients taking an ARB (candesartan) when compared to placebo. The CHARM Preserved group evaluated patients with heart failure and a preserved ejection fraction and found no difference between candesartan and placebo.<ref>Circulation 2004; 110:2180</ref><br />
<br />
The data is very strongly in favor of using ACEi as first line medications for systolic heart failure, and the addition of ARBs may be helpful. In addition, if patients are intolerant of ACEi there are clear benefits to using ARBs. <br />
<br />
Beta Blockers<br />
Aldosterone antagonists<br />
Long acting nitrate and hydralazine combinations<br />
<br />
As stated above warfarin is a medication that is occasionally used in systolic heart failure and the benefits are controversial. In systolic heart failure and atrial fibrillation there is a more clear benefit in terms of stroke prevention; however, in isolated systolic heart failure the reduction in embolic risk has not been fully elucidated. <br />
<br />
Loop diuretic medications are commonly used for patients with symptoms of heart failure. There has been no clear survival benefit associated with loop diuretics; however, the use of diuretics and a sodium restricted diet are the mainstays of treatment for congestive symptoms.<br />
<br />
Digoxin is sometimes used in systolic heart failure for symptom relief. A survival benefit has not been shown with digoxin use; however, it is useful for symptomatic treatment. There may be more of a role for digoxin in systolic heart failure and atrial fibrillation as digoxin may serve a dual purpose of heart failure symptom relief related to increased ionotropy as well as ventricular rate control related to AV nodal blockade.<br />
<br />
N-3 polyunsaturated fatty acids have also been evaluated by the GISSI-HF group and showed a slight reduction in mortality (from 29% to 27%) at roughly 3 years of follow up.<ref>Tavazzi L; Maggioni AP, et al. Effect of n-3 polyunsaturated fatty acids in patients with chronic heart failure (the GISSI-HF trial): a randomised, double-blind, placebo-controlled trial. Lancet. 2008 Oct 4;372(9645):1223-30. Epub 2008 Aug 29.</ref><br />
<br />
==Advanced Therapies==<br />
In patients with end stage heart failure or hemodynamic compromise vasopressor agents may be helpful. In patients with hemodynamic compromise medications such as dobutamine or dopamine may provide blood pressure support necessary. In addition parental agents such as milrinone (a phosphodiesterase inhibitor- somewhat specific for cardiac and vascular tissue) may be helpful in the short term or for end stage patients. There is no clear survival benefit and most trials with IV phosphodiesterase inhibitors are small trials of end stage heart failure patients. Oral milrinone has been studied and has been shown to increase mortality. <br />
<br />
In patients who have severe heart failure and are refractory to medical therapy cardiac transplantation may be an option (based upon patient characteristics such as age and comorbidities as well as disease characterisitics such as the etiology of dilated cardiomyopathy). As a bridge to cardiac transplantation multiple mechanical devices have been used. The most durable device is the LVAD (left ventricular assist device), certain patient populations not suitable for cardiac transplantation may also undergo LVAD placement by a cardiac surgeon as a "destination LVAD." This may be considered a palliative measure for end-stage heart failure patients. Other devices which may be more limited in the duration of use include the aortic balloon pump, Impella, and the PVAD (peripheral ventricular assist device) one of which is the Tandem Heart.<br />
<br />
Implantable cardiac defibrillators have also been extensively studied in systolic heart failure. A survival benefit has also been shown in select patient populations.<br />
<br />
==Gross Pathological Findings==<br />
Images shown below are Courtesy of Professor Peter Anderson DVM PhD and published with permission. [http://www.peir.net © PEIR, University of Alabama at Birmingham, Department of Pathology]<br />
<br />
<div align="left"><br />
<gallery heights="175" widths="175"><br />
Image:414.jpg|Cardiomyopathy: Gross excellent view of mitral valve from left atrium anterior leaflet appears to balloon a bit into the atrium<br />
Image:415.jpg|Cardiomyopathy: Gross excellent view of mitral and tricuspid valves from atria, appear normal anatomy.<br />
</gallery><br />
</div><br />
<br />
<br />
<div align="left"><br />
<gallery heights="175" widths="175"><br />
Image:6621.jpg|Dilated Cardiomyopathy: Gross natural color close-up view of heart surgically removed for a transplantation shows aortic valve and anterior leaflet of mitral valve with cholesterol deposits endocardium of left ventricle is diffusely thickened<br />
Image:434.jpg|Cardiomyopathy: Gross external view of globular heart with patchy fibrosis seen through epicardium<br />
</gallery><br />
</div><br />
<br />
<br />
<div align="left"><br />
<gallery heights="175" widths="175"><br />
Image:874.jpg|Cardiomyopathy: Gross dilated left ventricle with marked endocardial thickening this is what has been called adult fibroelastosis<br />
Image:1134.jpg|Dilated Cardiomyopathy: Gross good example huge dilated left ventricle<br />
</gallery><br />
</div><br />
<br />
<br />
<div align="left"><br />
<gallery heights="175" widths="175"><br />
Image:1151.jpg|Dilated Cardiomyopathy: Gross dilated left ventricle with marked endocardial sclerosis (an excellent example)<br />
Image:1457.jpg|Cardiomyopathy: Gross intact globular shaped heart<br />
</gallery><br />
</div><br />
<br />
<br />
<div align="left"><br />
<gallery heights="175" widths="175"><br />
Image:1489.jpg|Dilated Cardiomyopathy: Gross opened left ventricle dilated with endocardial thickening good example<br />
Image:1509.jpg|Cardiomyopathy: Gross globular heart external view 10 year old girl with sickle cell anemia<br />
</gallery><br />
</div><br />
<br />
<br />
<div align="left"><br />
<gallery heights="175" widths="175"><br />
Image:1510.jpg|Cardiomyopathy: Gross horizontal sections of ventricles dilation type 10 year old girl with sickle cell anemia<br />
Image:2367.jpg|Cardiomyopathy: Intermediate between hypertrophic and dilated<br />
</gallery><br />
</div><br />
<br />
<br />
<div align="left"><br />
<gallery heights="175" widths="175"><br />
Image:2665.jpg|Dilated Cardiomyopathy: Gross opened globular left ventricle natural color (very good example)<br />
Image:2221.jpg|Brain: Infarct: Healing large MCA and PICA probably embolic 64 year old female chronic obstructive pulmonary disease and cardiomyopathy with atrial fibrillation<br />
</gallery><br />
</div><br />
<br />
<br />
<div align="left"><br />
<gallery heights="175" widths="175"><br />
Image:8777.jpg|Kidney: Infarct Remote: Gross external view with capsule removed two old and very typical infarct scars 27yobf with dilated cardiomyopathy<br />
Image:6224.jpg|Dilated Cardiomyopathy: Gross natural color external view globular heart 500 gm 24yo female seven pregnancies<br />
</gallery><br />
</div><br />
<br />
==References==<br />
{{Reflist|2}}<br />
<br />
==See Also==<br />
<br />
* [[Cardiomyopathy]]<br />
* [[Hypertrophic cardiomyopathy]]<br />
<br />
==External links==<br />
* [http://www.cardiomyopathy.org/html/which_card_dcm.htm Cardiomyopathy Association: Dilated cardiomyopathy]<br />
* [http://www.childrenscardiomyopathy.org Children's Cardiomyopathy Foundation]<br />
<br />
==Additional Reading==<br />
<br />
* Moss and Adams' Heart Disease in Infants, Children, and Adolescents Hugh D. Allen, Arthur J. Moss, David J. Driscoll, Forrest H. Adams, Timothy F. Feltes, Robert E. Shaddy, 2007 ISBN 0781786843<br />
* Braunwald's Heart Disease, Libby P, 8th ed., 2007, ISBN 978-1-41-604105-4<br />
* Hurst's the Heart, Fuster V, 12th ed. 2008, ISBN 978-0-07-149928-6<br />
* Willerson JT, Cardiovascular Medicine, 3rd ed., 2007, ISBN 978-1-84628-188-4<br />
{{clr}}<br />
{{Circulatory system pathology}}<br />
{{SIB}}<br />
<br />
[[ru:Дилатационная кардиомиопатия]]<br />
<br />
[[Category:Cardiomyopathy]]<br />
[[Category:Cardiology]]<br />
<br />
{{WikiDoc Help Menu}}<br />
{{WikiDoc Sources}}</div>
Sachin Shah
https://www.wikidoc.org/index.php?title=Dilated_cardiomyopathy&diff=561525
Dilated cardiomyopathy
2009-11-04T02:00:01Z
<p>Sachin Shah: </p>
<hr />
<div>{{Infobox_Disease |<br />
Name = {{PAGENAME}} |<br />
Image = 1151.jpg| <br />
Caption = Dilated Cardiomyopathy: Gross dilated left ventricle with marked endocardial sclerosis <br> <small> [http://www.peir.net Image courtesy of Professor Peter Anderson DVM PhD and published with permission © PEIR, University of Alabama at Birmingham, Department of Pathology] </small>|<br />
DiseasesDB = 3066 |<br />
ICD10 = {{ICD10|I|42|0|i|30}} |<br />
ICD9 = {{ICD9|425.4}} |<br />
ICDO = |<br />
OMIM = 212110 |<br />
MedlinePlus = 000168 |<br />
eMedicineSubj = med |<br />
eMedicineTopic = 289 |<br />
eMedicine_mult = {{eMedicine2|emerg|80}} {{eMedicine2|ped|2502}} | <br />
MeshID = D002311 |<br />
}}<br />
{{SI}}<br />
{{WikiDoc Cardiology Network Infobox}}<br />
'''Editor-in-Chief:''' Sachin Shah, M.D. <br />
<br />
{{Editor Help}}<br />
<br />
==Overview==<br />
'''Dilated cardiomyopathy''' or '''DCM''' is a condition of the heart that causes dilation and impaired contraction of the left ventricle (or both ventricles). Impaired contraction is defined as a low ejection fraction (< 40%). In the following text the clinical presentation, diagnosis, and treatment will be reviewed. <br />
<br />
[[Cardimyopathy]] as a general topic also includes topics such as [[restrictive cardiomyopathy]] and [[hypertrophic cardiomyopathy]]. This section will focus on dilated cardiomyopathy. There is sometimes confusion regarding nomenclature, some of this confusion is based on different classifications set forth by the WHO (World Health Organization) and the AHA (American Heart Association). The WHO classifies cardiomyopathy as either Dilated (DCM), Restrictive (RCM), or Hypertrophic (HCM). The American Heart Association classifies cardiomyopathies as either "primary" or "secondary."<br />
<br />
Dilated cardiomyopathy can occur at any age (although it is more likely between the ages of 20-60)<ref>Dec GW, Fuster V. Idiopathic Dilated Cardiomyopathy. N Engl J Med 1994 Dec 8;331(23):1564-75. PMID 7969328</ref> there is a male predominance (3:1 male:female),<ref>Robbins Basic Pathology, 7th edition. Kumar, Cotran, Robbins. ISBN 0-7216-9274-5</ref>, and is 2.5 times more likely in African Americans.<ref>Coughlin SS, Labenberg JR, Tefft MC. Black-white differences in idiopathic dilated cardiomyopathy: the Washington DC Dilated Cardiomyopathy Study. Epidemiology. 1993;4:165-72. PMID 8452906</ref>. There are many causes and there are varying degrees of severityof the disease . Some forms are reversible and some are irreversible; some patients may be completely asymptoamtic and some may require cardiac transplantation. <br />
<br />
<br />
==Causes==<br />
There are many causes of dilated cardiomyopathy. The most common cause is "idiopathic" which accounts for roughly 50% of cases.<ref> Felker GM, Thompson RE, et al. Underlying causes and long-term survival in patients with initially unexplained cardiomyopathy. N Engl J Med 2000 Apr 13;342(14):1077-84.</ref> The next most common is Myocarditis which accounts for roughly 10%. Ischemic "cardiomyopathy," infiltrative disease, hypertensive heart disease, substance abuse (i.e. alcohol abuse or cocaine abuse), connective tissue disease, peripartum cardiomyopathy, drugs (such as the chemotherapeutic agent doxarubacin), HIV infection or antiretroviral drugs, toxins (such as cobalt, lead or beryllium), and nutritional deficiencies (such as thiamine or selenium) are among other causes of dilated cardiomyopathy. <br />
<br />
The high percentage of idiopathic dilated cardiomyopathy may be related to the difficulty in diagnosing viral myocarditis. There are not definitive diagnostic criteria for myocarditis based on echocardiography, the clinical presentation is commonly similar to dilated cardiomyopathy from other causes, and the sensitivity of endomycardial biopsy is relatively low and approaches near 50% even with immunostaining (CD3 for T lymphocytes and CD68 for macrophages).<ref>Herskowitz A, Ahmed-Ansari A, Neumann DA et al. Induction of major histocompatibility complex antigens within the myocardium of patients with active myocarditis: a nonhistologic marker of myocarditis. J Am Coll Cardiol. 1990;15(3):624-632.</ref>. Cardiac MRI (Magnetic Resonance Imaging) appears to be not only helpful in the localization of inflammation and targeting of endomyocardial biopsy but also seems to be helpful in the diagnosis of myocarditis.<ref>Freidrich MG, Strohm O, et al. Contrast media-enhanced mangetic resonance imaging visualizes myocardial changes in the course of viral myocarditis. Circulation. 1998;97(18):1802-1809.</ref> This new technology may be helpful in reducing the percentage of idiopathic dilated cardiomyopathy and discovering an etiology to the dilated cardiomyopathy in some of these patients.<br />
<br />
==Clinical Presentation==<br />
The clinical presentation of dilated cardiomyopathy is similar to that heart failure from any cause. Dyspnea on exertion, orthopnea, paroxysmal nocturnal dyspnea, lower extremity edema and orthostasis / syncope are all common findings in dilated cardiomyopathy. In addition dilated cardiomyopathy may present as palpitations as a result of arrhythmia (ventricular or atrial) with the most common arrhythmia being atrial fibrillation. Dilated cardiomyopathy may also present as sudden cardiac death or as CVA (cerebrovascular accident) or other embolic phenomenon (either from associated atrial fibrillation or from ventricular thrombi as a result of dilated ventricular cavities). <br />
<br />
Angina is not a common feature of dilated cardiomyopathy unless the cause is related to coronary artery disease. If angina is present a work up for cardiac ischemia should be undertaken.<ref> Mayo Clinic Cardiology. Concise Textbook. Murphy, Joseph G; Lloyd, Margaret A. Mayo Clinic Scientific Press. 2007.</ref><br />
<br />
==Diagnosis==<br />
The diagnosis of dilated cardiomyopathy is based on clinical presentation and imaging findings. The most common imaging modality used to diagnose dilated cardiomyopathy is 2D-echocardiography. Echocardiographic findings of dilated cardiomyopathy include dilation of the left ventricle; however, may include dilation of all 4 cardiac chambers, LV (left ventricular) wall thickness usually is normal but given the dilation the LV mass is increased. In addition there is a global reduciton in systolic function. Occasionally there may also be wall motion abnormalities even in patients without flow limiting coronary artery disease.<ref> Mayo Clinic Cardiology. Concise Textbook. Murphy, Joseph G; Lloyd, Margaret A. Mayo Clinic Scientific Press. 2007.</ref> <br />
<br />
The diagnosis requires a dilated left ventricle and low ejection fraction.<br />
<br />
In terms of determining the etiology a careful history is most instrumental. If the patient has CAD (coronary artery disease) risk factors, known CAD, or angina then a workup for CAD should be undertaken with coronary angiography. A viral prodrome such as viral URI or viral gastroenteritis may make viral myocarditis as a more likely cause. If the patient was exposed to chemotherapy such as anthracyclines then this would be the likely cause. Patients at risk for HIV should undergo testing as HIV can cause a dilated cardiomyopathy. Peripartum cardiomyopathy most often occurs within 1 month of delivery or 5 months after delivery, so recent childbirth is important information. Often by 8 months gestational age pregnancy is physically apparent but it is important to rule out pregnancy in women of childbearing age with dilated cardiomyopathy. Screening questions regarding cocaine or alcohol abuse or other toxin exposure (such as cobalt) should be addressed. <br />
<br />
A review of systems is also helpful in regards to connective tissue disease associated dilated cardiomyopathy (which can be related to SLE (systemic lupus erythematosis), rheumatoid arthritis, sarcoidosis, scleroderma, as well as other connective tissue diseases). <br />
<br />
A family history also has a great importance in the diagnosis of dilated cardiomyopathy. It has been suggested that a portion of those patients labeled as "idiopathic" may have a familial form of the disease. The prevalence of this in the population of patients with dilated cardiomyopathy has been estimated as high as 25%.<ref>Ross J Jr. Dilated cardiomyopathy: concepts derived from gene deficient and transgenic animal models. Circ J. 2002;66:219-24. PMID 11922267</ref> The majority of these are thought to be related to autosomal dominant transmission, the remaining are thought to be transimtted in an autosomal recessive and X-linked fashion.<ref>Mestroni L; Rocco C; et al. Familial dilated cardiomyopathy: evidence for genetic and phenotypic heterogeneity. Heart Muscle Disease Study Group. J Am Coll Cardiol 1999 Jul;34(1):181-90.</ref> Mitochondrial inheritance of the disease has also been identified.<ref>Schonberger J, Seidman CE. Many roads lead to a broken heart: the genetics of dilated cardiomyopathy. Am J Hum Genet. 2001;69:249-60. Epub 2001 Jul 6. PMID 11443548</ref><br />
<br />
Pericardial effusion may accompany myocarditis but this finding is not specific. Cardiac MRI as discussed above may be helpful in diagnosing myocarditis. Endomyocardial biopsy as discussed above has low sensitivy and the findings are also notoriously non-specific. The findings on biopsy usually involve findings of inflammation and specific pathogens are unlikely to be identified. There may be an increased yield to using MRI to target endomyocardial biopsy as described above. Viral titiers (serologies) are often unhelpful and not routinely ordered in clinical practice. <br />
<br />
==Prognosis==<br />
There are many prognostic factors which can be evaluated in a patient with dilated cardiomyopathy.<ref> Mayo Clinic Cardiology. Concise Textbook. Murphy, Joseph G; Lloyd, Margaret A. Mayo Clinic Scientific Press. 2007.</ref> The most important prognostic indicator is a decreased ejection fraction, in addition increased ventricular size and right ventricular dilation are independent indicators of a poor prognosis. <br />
<br />
As is in most cases of heart failure a poor NYHA functional class and increased PASP (>35mmHg) are also poor prognostic indicators. <br />
<br />
Other findings that infer a poor prognosis are as follows: Maximal O2 uptake of < 12mL/kg / minute on exercise testing, LBBB (left bundle branch block), non sustained ventricular tachycardia, syncope, hyponatremia with a serum sodium less than 135, elevated norepinephrine, ANP (atrial natriuretic peptide) and renin levels (not routinely measured in clinical practice), elevated PCWP (pulmonary capillary wedge pressure) > 18mmHg, low cardiac index < 2.5L/min/m^2. <br />
<br />
==Treatment==<br />
Death from dilated cardiomyopathy is usually the result of progressive heart failure or arrhythmia. Treatments for dilated cardiomyopathy are targeted towards preventing death and treating symptoms of heart failure. Some medications (such as ACE inhibitors) may help acheive both goals. Initial treatment should focus on the underlying cause of dilated cardiomyopathy if reversible. If for example a patient has dilated cardiomyopathy and three vessel coronary artery disease then revascularization should be an initial step in treatment. <br />
<br />
Medications which have a proven survival benefit in systolic heart failure are ACE (angiotensin converting enzyme) inhibitors, ARBs (angiotensin II receptor blockers), beta blockers (carvedilol and metoprolol succinate are the most well studied), aldosterone antagonists (in severe heart failure) and combination of long acting nitrates and hydralazine. Medications targeted towards symptom relief in systolic heart failure are diuretics and digoxin. Warfarin is also a medication used in systolic heart failure; the benefit of this medication is controversial.<br />
<br />
ACE inhibitors are thought to be useful in dilated cardiomyopathy by not only causing arterial vasodilation and reduction of afterload but also by reduction in levels of angiotensin II, aldosterone, and ADH which may have deleterious remodeling effects on the heart as well as vasoconstriction. ACE inhibitors have been extensively studied in systolic heart failure and have been shown to reduce symptoms, slow the progression of heart failure and reduce mortality in all classes of heart failure. The most profound impact is seen in patients who are most symptomatic as well as those patients who have recently suffered a myocardial infarction. In addition ACE inhibitors have been shown to slow the progression of LV (left ventricular) dilation in systolic heart failure. <br />
<br />
The SOLVD-Prevention trial and SAVE trial both are large randomized controlled trials which evaluated patients with asymptomatic systolic heart failure. SOLVD-Prevention examined 4000 patients with an EF < 35% who were asymptomatic and randomized them to enalapril (dose 2.5-20mg daily) or placebo. After an average 3 years follow up there was a significant reduction in heart failure hospitalizations but no difference in mortality. The SAVE (Survival and Ventricular Enlargement) trial studied 2200 patients with an EF < or = to 40% within 3-14 days following an acute myocardial infarction. These patients were given either captopril or placebo and followed for an average of 3.5 years. There was a significant 25% reduciton in myocardial infarction and a significant reduction in death from recurrent MI by 32% in the captopril group.<ref>Circulation, Oct 1994;90:1731-1738.</ref><br />
<br />
The CONSENSUS, SOLVD-Treatment and V-HeFT II trials all examined ACE inhibitors in symptomatic patients with systolic heart failure. The CONSENSUS trial was published in 1987 and studied 250 patients with NYHA class IV heart failure. These patients were randomized to enalapril (dose 2.5mg - 40mg daily) or placebo. After an average follow up of 6 months there was a 40% reduction in mortality in the enalapril group (this persisted to 1 year, at 1 year there was a 31% reduction in mortality in the enalapril group). The reduction in mortality was attributed to a reduction in the death from progressive heart failure, not from a reduction in sudden cardiac death. SOLVD-Treatement and V-HeFT II also showed a reduction in mortality with ACE inhibitors, both of these studies evalauted mainly patients with NYHA class II or III heart failure.<ref>N Engl J Med. 1991 Aug 1;325(5):303-10</ref><ref>N Engl J Med. 1991 Aug 1;325(5):293-302.</ref><br />
<br />
The AIRE and TRACE trials were placebo controlled randomized controlled trials which both evaluated ACE inhibitors (ramipril and trandolapril respectively) in heart failure following a myocardial infarction. Both of these studies also showed a reduction in mortality in the ACE inhibitor arm when compared to placebo. These studies evaluated patients at a minimum of 2 (AIRE) or 3 (TRACE) days following an acute MI. <br />
<br />
The CONSENSUS II, ISIS-4, GISSI-3 and SMILE studies all evaluated patients early (within 24 hours) following an acute myocardial infarction. All but the CONSENSUS II study showed a mortality benefit (both short and long term) in the ACE inhibitor arm when compared to placebo.<ref>Lancet. 1995 Mar 18;345(8951):669-85</ref><ref>Lancet. 1994 May 7;343(8906):1115-22</ref><ref>N Engl J Med. 1995 Jan 12;332(2):80-5.</ref> <br />
<br />
ARBs have also been extensively studied. There are at least four large trials which support the use of ARBs in systolic heart failure. These include the ELITE, ELITE II, Val-HeFT, and CHARM trials. The ELITE trial randomized 722 patients over the age of 65 with an EF < 40% and NYHA class II-IV heart failure to either an ACEi (captopril) or an ARB (losartan). After a follow up of 48 weeks there was no difference in the primary endpoint (persistent elevations in serum creatinine) however a secondary endpoint of mortality showed a risk reduction of 46% in teh losartan group.<ref>Lancet 1997;349:747-52</ref> This was further evaluated in the ELITE II trial which randomized 3150 patients similar to those in the ELITE trial and again compared captopril and losartan. After a mean follow up of 555 days there was no difference in mortalitity or resuscitated arrest, but losartan was "better tolerated" than captopril (captopril was most often discontinued due to ACEi related cough).<ref>Lancet. 2000;355:1582-1587.</ref> The Val-HeFT trial was a placebo controlled RCT that evaluated studied valsartan use in 5000 patients with heart failure. There was a reduction in the combined endpoint of mortality and morbidity after a mean follow up of 23 months.<ref>N Engl J Med. 2001 Dec 6;345(23):1667-75</ref> <br />
<br />
CHARM randomized 76000 patients to candesartan or placebo. There were 3 subgroups analyzed in this study. CHARM Added showed that there was a reduction in cardiovascular mortality or CHF hospitlization in patients with systolic heart failure (EF < 40%) who were taking candesartan as well as an ACEi when compared to an ACEi alone. The CHARM Alternative subgroup showed that in ACEi intolerant patients with systolic heart failure (EF < 40%) there was a reduction in mortality or CHF hospitalization in patients taking an ARB (candesartan) when compared to placebo. The CHARM Preserved group evaluated patients with heart failure and a preserved ejection fraction and found no difference between candesartan and placebo.<ref>Circulation 2004; 110:2180</ref><br />
<br />
The data is very strongly in favor of using ACEi as first line medications for systolic heart failure, and the addition of ARBs may be helpful. In addition, if patients are intolerant of ACEi there are clear benefits to using ARBs. <br />
<br />
Beta Blockers<br />
Aldosterone antagonists<br />
Long acting nitrate and hydralazine combinations<br />
<br />
As stated above warfarin is a medication that is occasionally used in systolic heart failure and the benefits are controversial. In systolic heart failure and atrial fibrillation there is a more clear benefit in terms of stroke prevention; however, in isolated systolic heart failure the reduction in embolic risk has not been fully elucidated. <br />
<br />
Loop diuretic medications are commonly used for patients with symptoms of heart failure. There has been no clear survival benefit associated with loop diuretics; however, the use of diuretics and a sodium restricted diet are the mainstays of treatment for congestive symptoms.<br />
<br />
Digoxin is sometimes used in systolic heart failure for symptom relief. A survival benefit has not been shown with digoxin use; however, it is useful for symptomatic treatment. There may be more of a role for digoxin in systolic heart failure and atrial fibrillation as digoxin may serve a dual purpose of heart failure symptom relief related to increased ionotropy as well as ventricular rate control related to AV nodal blockade.<br />
<br />
N-3 polyunsaturated fatty acids have also been evaluated by the GISSI-HF group and showed a slight reduction in mortality (from 29% to 27%) at roughly 3 years of follow up.<ref>Tavazzi L; Maggioni AP, et al. Effect of n-3 polyunsaturated fatty acids in patients with chronic heart failure (the GISSI-HF trial): a randomised, double-blind, placebo-controlled trial. Lancet. 2008 Oct 4;372(9645):1223-30. Epub 2008 Aug 29.</ref><br />
<br />
==Advanced Therapies==<br />
In patients with end stage heart failure or hemodynamic compromise vasopressor agents may be helpful. In patients with hemodynamic compromise medications such as dobutamine or dopamine may provide blood pressure support necessary. In addition parental agents such as milrinone (a phosphodiesterase inhibitor- somewhat specific for cardiac and vascular tissue) may be helpful in the short term or for end stage patients. There is no clear survival benefit and most trials with IV phosphodiesterase inhibitors are small trials of end stage heart failure patients. Oral milrinone has been studied and has been shown to increase mortality. <br />
<br />
In patients who have severe heart failure and are refractory to medical therapy cardiac transplantation may be an option (based upon patient characteristics such as age and comorbidities as well as disease characterisitics such as the etiology of dilated cardiomyopathy). As a bridge to cardiac transplantation multiple mechanical devices have been used. The most durable device is the LVAD (left ventricular assist device), certain patient populations not suitable for cardiac transplantation may also undergo LVAD placement by a cardiac surgeon as a "destination LVAD." This may be considered a palliative measure for end-stage heart failure patients. Other devices which may be more limited in the duration of use include the aortic balloon pump, Impella, and the PVAD (peripheral ventricular assist device) one of which is the Tandem Heart.<br />
<br />
Implantable cardiac defibrillators have also been extensively studied in systolic heart failure. A survival benefit has also been shown in select patient populations.<br />
<br />
<br />
==Gross Pathological Findings==<br />
Images shown below are Courtesy of Professor Peter Anderson DVM PhD and published with permission. [http://www.peir.net © PEIR, University of Alabama at Birmingham, Department of Pathology]<br />
<br />
<div align="left"><br />
<gallery heights="175" widths="175"><br />
Image:414.jpg|Cardiomyopathy: Gross excellent view of mitral valve from left atrium anterior leaflet appears to balloon a bit into the atrium<br />
Image:415.jpg|Cardiomyopathy: Gross excellent view of mitral and tricuspid valves from atria, appear normal anatomy.<br />
</gallery><br />
</div><br />
<br />
<br />
<div align="left"><br />
<gallery heights="175" widths="175"><br />
Image:6621.jpg|Dilated Cardiomyopathy: Gross natural color close-up view of heart surgically removed for a transplantation shows aortic valve and anterior leaflet of mitral valve with cholesterol deposits endocardium of left ventricle is diffusely thickened<br />
Image:434.jpg|Cardiomyopathy: Gross external view of globular heart with patchy fibrosis seen through epicardium<br />
</gallery><br />
</div><br />
<br />
<br />
<div align="left"><br />
<gallery heights="175" widths="175"><br />
Image:874.jpg|Cardiomyopathy: Gross dilated left ventricle with marked endocardial thickening this is what has been called adult fibroelastosis<br />
Image:1134.jpg|Dilated Cardiomyopathy: Gross good example huge dilated left ventricle<br />
</gallery><br />
</div><br />
<br />
<br />
<div align="left"><br />
<gallery heights="175" widths="175"><br />
Image:1151.jpg|Dilated Cardiomyopathy: Gross dilated left ventricle with marked endocardial sclerosis (an excellent example)<br />
Image:1457.jpg|Cardiomyopathy: Gross intact globular shaped heart<br />
</gallery><br />
</div><br />
<br />
<br />
<div align="left"><br />
<gallery heights="175" widths="175"><br />
Image:1489.jpg|Dilated Cardiomyopathy: Gross opened left ventricle dilated with endocardial thickening good example<br />
Image:1509.jpg|Cardiomyopathy: Gross globular heart external view 10 year old girl with sickle cell anemia<br />
</gallery><br />
</div><br />
<br />
<br />
<div align="left"><br />
<gallery heights="175" widths="175"><br />
Image:1510.jpg|Cardiomyopathy: Gross horizontal sections of ventricles dilation type 10 year old girl with sickle cell anemia<br />
Image:2367.jpg|Cardiomyopathy: Intermediate between hypertrophic and dilated<br />
</gallery><br />
</div><br />
<br />
<br />
<div align="left"><br />
<gallery heights="175" widths="175"><br />
Image:2665.jpg|Dilated Cardiomyopathy: Gross opened globular left ventricle natural color (very good example)<br />
Image:2221.jpg|Brain: Infarct: Healing large MCA and PICA probably embolic 64 year old female chronic obstructive pulmonary disease and cardiomyopathy with atrial fibrillation<br />
</gallery><br />
</div><br />
<br />
<br />
<div align="left"><br />
<gallery heights="175" widths="175"><br />
Image:8777.jpg|Kidney: Infarct Remote: Gross external view with capsule removed two old and very typical infarct scars 27yobf with dilated cardiomyopathy<br />
Image:6224.jpg|Dilated Cardiomyopathy: Gross natural color external view globular heart 500 gm 24yo female seven pregnancies<br />
</gallery><br />
</div><br />
<br />
==References==<br />
{{Reflist|2}}<br />
<br />
==See Also==<br />
<br />
* [[Cardiomyopathy]]<br />
* [[Hypertrophic cardiomyopathy]]<br />
<br />
==External links==<br />
* [http://www.cardiomyopathy.org/html/which_card_dcm.htm Cardiomyopathy Association: Dilated cardiomyopathy]<br />
* [http://www.childrenscardiomyopathy.org Children's Cardiomyopathy Foundation]<br />
<br />
==Additional Reading==<br />
<br />
* Moss and Adams' Heart Disease in Infants, Children, and Adolescents Hugh D. Allen, Arthur J. Moss, David J. Driscoll, Forrest H. Adams, Timothy F. Feltes, Robert E. Shaddy, 2007 ISBN 0781786843<br />
* Braunwald's Heart Disease, Libby P, 8th ed., 2007, ISBN 978-1-41-604105-4<br />
* Hurst's the Heart, Fuster V, 12th ed. 2008, ISBN 978-0-07-149928-6<br />
* Willerson JT, Cardiovascular Medicine, 3rd ed., 2007, ISBN 978-1-84628-188-4<br />
{{clr}}<br />
{{Circulatory system pathology}}<br />
{{SIB}}<br />
<br />
[[ru:Дилатационная кардиомиопатия]]<br />
<br />
[[Category:Cardiomyopathy]]<br />
[[Category:Cardiology]]<br />
<br />
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{{WikiDoc Sources}}</div>
Sachin Shah
https://www.wikidoc.org/index.php?title=Dilated_cardiomyopathy&diff=561524
Dilated cardiomyopathy
2009-11-04T01:29:59Z
<p>Sachin Shah: </p>
<hr />
<div>{{Infobox_Disease |<br />
Name = {{PAGENAME}} |<br />
Image = 1151.jpg| <br />
Caption = Dilated Cardiomyopathy: Gross dilated left ventricle with marked endocardial sclerosis <br> <small> [http://www.peir.net Image courtesy of Professor Peter Anderson DVM PhD and published with permission © PEIR, University of Alabama at Birmingham, Department of Pathology] </small>|<br />
DiseasesDB = 3066 |<br />
ICD10 = {{ICD10|I|42|0|i|30}} |<br />
ICD9 = {{ICD9|425.4}} |<br />
ICDO = |<br />
OMIM = 212110 |<br />
MedlinePlus = 000168 |<br />
eMedicineSubj = med |<br />
eMedicineTopic = 289 |<br />
eMedicine_mult = {{eMedicine2|emerg|80}} {{eMedicine2|ped|2502}} | <br />
MeshID = D002311 |<br />
}}<br />
{{SI}}<br />
{{WikiDoc Cardiology Network Infobox}}<br />
'''Editor-in-Chief:''' Sachin Shah, M.D. <br />
<br />
{{Editor Help}}<br />
<br />
==Overview==<br />
'''Dilated cardiomyopathy''' or '''DCM''' is a condition of the heart that causes dilation and impaired contraction of the left ventricle (or both ventricles). Impaired contraction is defined as a low ejection fraction (< 40%). In the following text the clinical presentation, diagnosis, and treatment will be reviewed. <br />
<br />
[[Cardimyopathy]] as a general topic also includes topics such as [[restrictive cardiomyopathy]] and [[hypertrophic cardiomyopathy]]. This section will focus on dilated cardiomyopathy. There is sometimes confusion regarding nomenclature, some of this confusion is based on different classifications set forth by the WHO (World Health Organization) and the AHA (American Heart Association). The WHO classifies cardiomyopathy as either Dilated (DCM), Restrictive (RCM), or Hypertrophic (HCM). The American Heart Association classifies cardiomyopathies as either "primary" or "secondary."<br />
<br />
Dilated cardiomyopathy can occur at any age (although it is more likely between the ages of 20-60)<ref>Dec GW, Fuster V. Idiopathic Dilated Cardiomyopathy. N Engl J Med 1994 Dec 8;331(23):1564-75. PMID 7969328</ref> there is a male predominance (3:1 male:female),<ref>Robbins Basic Pathology, 7th edition. Kumar, Cotran, Robbins. ISBN 0-7216-9274-5</ref>, and is 2.5 times more likely in African Americans.<ref>Coughlin SS, Labenberg JR, Tefft MC. Black-white differences in idiopathic dilated cardiomyopathy: the Washington DC Dilated Cardiomyopathy Study. Epidemiology. 1993;4:165-72. PMID 8452906</ref>. There are many causes and there are varying degrees of severityof the disease . Some forms are reversible and some are irreversible; some patients may be completely asymptoamtic and some may require cardiac transplantation. <br />
<br />
<br />
==Causes==<br />
There are many causes of dilated cardiomyopathy. The most common cause is "idiopathic" which accounts for roughly 50% of cases.<ref> Felker GM, Thompson RE, et al. Underlying causes and long-term survival in patients with initially unexplained cardiomyopathy. N Engl J Med 2000 Apr 13;342(14):1077-84.</ref> The next most common is Myocarditis which accounts for roughly 10%. Ischemic "cardiomyopathy," infiltrative disease, hypertensive heart disease, substance abuse (i.e. alcohol abuse or cocaine abuse), connective tissue disease, peripartum cardiomyopathy, drugs (such as the chemotherapeutic agent doxarubacin), HIV infection or antiretroviral drugs, toxins (such as cobalt, lead or beryllium), and nutritional deficiencies (such as thiamine or selenium) are among other causes of dilated cardiomyopathy. <br />
<br />
The high percentage of idiopathic dilated cardiomyopathy may be related to the difficulty in diagnosing viral myocarditis. There are not definitive diagnostic criteria for myocarditis based on echocardiography, the clinical presentation is commonly similar to dilated cardiomyopathy from other causes, and the sensitivity of endomycardial biopsy is relatively low and approaches near 50% even with immunostaining (CD3 for T lymphocytes and CD68 for macrophages).<ref>Herskowitz A, Ahmed-Ansari A, Neumann DA et al. Induction of major histocompatibility complex antigens within the myocardium of patients with active myocarditis: a nonhistologic marker of myocarditis. J Am Coll Cardiol. 1990;15(3):624-632.</ref>. Cardiac MRI (Magnetic Resonance Imaging) appears to be not only helpful in the localization of inflammation and targeting of endomyocardial biopsy but also seems to be helpful in the diagnosis of myocarditis.<ref>Freidrich MG, Strohm O, et al. Contrast media-enhanced mangetic resonance imaging visualizes myocardial changes in the course of viral myocarditis. Circulation. 1998;97(18):1802-1809.</ref> This new technology may be helpful in reducing the percentage of idiopathic dilated cardiomyopathy and discovering an etiology to the dilated cardiomyopathy in some of these patients.<br />
<br />
==Clinical Presentation==<br />
The clinical presentation of dilated cardiomyopathy is similar to that heart failure from any cause. Dyspnea on exertion, orthopnea, paroxysmal nocturnal dyspnea, lower extremity edema and orthostasis / syncope are all common findings in dilated cardiomyopathy. In addition dilated cardiomyopathy may present as palpitations as a result of arrhythmia (ventricular or atrial) with the most common arrhythmia being atrial fibrillation. Dilated cardiomyopathy may also present as sudden cardiac death or as CVA (cerebrovascular accident) or other embolic phenomenon (either from associated atrial fibrillation or from ventricular thrombi as a result of dilated ventricular cavities). <br />
<br />
Angina is not a common feature of dilated cardiomyopathy unless the cause is related to coronary artery disease. If angina is present a work up for cardiac ischemia should be undertaken.<ref> Mayo Clinic Cardiology. Concise Textbook. Murphy, Joseph G; Lloyd, Margaret A. Mayo Clinic Scientific Press. 2007.</ref><br />
<br />
==Diagnosis==<br />
The diagnosis of dilated cardiomyopathy is based on clinical presentation and imaging findings. The most common imaging modality used to diagnose dilated cardiomyopathy is 2D-echocardiography. Echocardiographic findings of dilated cardiomyopathy include dilation of the left ventricle; however, may include dilation of all 4 cardiac chambers, LV (left ventricular) wall thickness usually is normal but given the dilation the LV mass is increased. In addition there is a global reduciton in systolic function. Occasionally there may also be wall motion abnormalities even in patients without flow limiting coronary artery disease.<ref> Mayo Clinic Cardiology. Concise Textbook. Murphy, Joseph G; Lloyd, Margaret A. Mayo Clinic Scientific Press. 2007.</ref> <br />
<br />
The diagnosis requires a dilated left ventricle and low ejection fraction.<br />
<br />
In terms of determining the etiology a careful history is most instrumental. If the patient has CAD (coronary artery disease) risk factors, known CAD, or angina then a workup for CAD should be undertaken with coronary angiography. A viral prodrome such as viral URI or viral gastroenteritis may make viral myocarditis as a more likely cause. If the patient was exposed to chemotherapy such as anthracyclines then this would be the likely cause. Patients at risk for HIV should undergo testing as HIV can cause a dilated cardiomyopathy. Peripartum cardiomyopathy most often occurs within 1 month of delivery or 5 months after delivery, so recent childbirth is important information. Often by 8 months gestational age pregnancy is physically apparent but it is important to rule out pregnancy in women of childbearing age with dilated cardiomyopathy. Screening questions regarding cocaine or alcohol abuse or other toxin exposure (such as cobalt) should be addressed. <br />
<br />
A review of systems is also helpful in regards to connective tissue disease associated dilated cardiomyopathy (which can be related to SLE (systemic lupus erythematosis), rheumatoid arthritis, sarcoidosis, scleroderma, as well as other connective tissue diseases). <br />
<br />
A family history also has a great importance in the diagnosis of dilated cardiomyopathy. It has been suggested that a portion of those patients labeled as "idiopathic" may have a familial form of the disease. The prevalence of this in the population of patients with dilated cardiomyopathy has been estimated as high as 25%.<ref>Ross J Jr. Dilated cardiomyopathy: concepts derived from gene deficient and transgenic animal models. Circ J. 2002;66:219-24. PMID 11922267</ref> The majority of these are thought to be related to autosomal dominant transmission, the remaining are thought to be transimtted in an autosomal recessive and X-linked fashion.<ref>Mestroni L; Rocco C; et al. Familial dilated cardiomyopathy: evidence for genetic and phenotypic heterogeneity. Heart Muscle Disease Study Group. J Am Coll Cardiol 1999 Jul;34(1):181-90.</ref> Mitochondrial inheritance of the disease has also been identified.<ref>Schonberger J, Seidman CE. Many roads lead to a broken heart: the genetics of dilated cardiomyopathy. Am J Hum Genet. 2001;69:249-60. Epub 2001 Jul 6. PMID 11443548</ref><br />
<br />
Pericardial effusion may accompany myocarditis but this finding is not specific. Cardiac MRI as discussed above may be helpful in diagnosing myocarditis. Endomyocardial biopsy as discussed above has low sensitivy and the findings are also notoriously non-specific. The findings on biopsy usually involve findings of inflammation and specific pathogens are unlikely to be identified. There may be an increased yield to using MRI to target endomyocardial biopsy as described above. Viral titiers (serologies) are often unhelpful and not routinely ordered in clinical practice. <br />
<br />
==Prognosis==<br />
There are many prognostic factors which can be evaluated in a patient with dilated cardiomyopathy.<ref> Mayo Clinic Cardiology. Concise Textbook. Murphy, Joseph G; Lloyd, Margaret A. Mayo Clinic Scientific Press. 2007.</ref> The most important prognostic indicator is a decreased ejection fraction, in addition increased ventricular size and right ventricular dilation are independent indicators of a poor prognosis. <br />
<br />
As is in most cases of heart failure a poor NYHA functional class and increased PASP (>35mmHg) are also poor prognostic indicators. <br />
<br />
Other findings that infer a poor prognosis are as follows: Maximal O2 uptake of < 12mL/kg / minute on exercise testing, LBBB (left bundle branch block), non sustained ventricular tachycardia, syncope, hyponatremia with a serum sodium less than 135, elevated norepinephrine, ANP (atrial natriuretic peptide) and renin levels (not routinely measured in clinical practice), elevated PCWP (pulmonary capillary wedge pressure) > 18mmHg, low cardiac index < 2.5L/min/m^2. <br />
<br />
==Treatment==<br />
Death from dilated cardiomyopathy is usually the result of progressive heart failure or arrhythmia. Treatments for dilated cardiomyopathy are targeted towards preventing death and treating symptoms of heart failure. Some medications (such as ACE inhibitors) may help acheive both goals. Initial treatment should focus on the underlying cause of dilated cardiomyopathy if reversible. If for example a patient has dilated cardiomyopathy and three vessel coronary artery disease then revascularization should be an initial step in treatment. <br />
<br />
Medications which have a proven survival benefit in systolic heart failure are ACE (angiotensin converting enzyme) inhibitors, ARBs (angiotensin II receptor blockers), beta blockers (carvedilol and metoprolol succinate are the most well studied), aldosterone antagonists (in severe heart failure) and combination of long acting nitrates and hydralazine. Medications targeted towards symptom relief in systolic heart failure are diuretics and digoxin. Warfarin is also a medication used in systolic heart failure; the benefit of this medication is controversial.<br />
<br />
ACE inhibitors are thought to be useful in dilated cardiomyopathy by not only causing arterial vasodilation and reduction of afterload but also by reduction in levels of angiotensin II, aldosterone, and ADH which may have deleterious remodeling effects on the heart as well as vasoconstriction. ACE inhibitors have been extensively studied in systolic heart failure and have been shown to reduce symptoms, slow the progression of heart failure and reduce mortality in all classes of heart failure. The most profound impact is seen in patients who are most symptomatic as well as those patients who have recently suffered a myocardial infarction. In addition ACE inhibitors have been shown to slow the progression of LV (left ventricular) dilation in systolic heart failure. <br />
<br />
The SOLVD-Prevention trial and SAVE trial both are large randomized controlled trials which evaluated patients with asymptomatic systolic heart failure. SOLVD-Prevention examined 4000 patients with an EF < 35% who were asymptomatic and randomized them to enalapril (dose 2.5-20mg daily) or placebo. After an average 3 years follow up there was a significant reduction in heart failure hospitalizations but no difference in mortality. The SAVE (Survival and Ventricular Enlargement) trial studied 2200 patients with an EF < or = to 40% within 3-14 days following an acute myocardial infarction. These patients were given either captopril or placebo and followed for an average of 3.5 years. There was a significant 25% reduciton in myocardial infarction and a significant reduction in death from recurrent MI by 32% in the captopril group.<ref>Circulation, Oct 1994;90:1731-1738.</ref><br />
<br />
The CONSENSUS, SOLVD-Treatment and V-HeFT II trials all examined ACE inhibitors in symptomatic patients with systolic heart failure. The CONSENSUS trial was published in 1987 and studied 250 patients with NYHA class IV heart failure. These patients were randomized to enalapril (dose 2.5mg - 40mg daily) or placebo. After an average follow up of 6 months there was a 40% reduction in mortality in the enalapril group (this persisted to 1 year, at 1 year there was a 31% reduction in mortality in the enalapril group). The reduction in mortality was attributed to a reduction in the death from progressive heart failure, not from a reduction in sudden cardiac death. SOLVD-Treatement and V-HeFT II also showed a reduction in mortality with ACE inhibitors, both of these studies evalauted mainly patients with NYHA class II or III heart failure.<ref>N Engl J Med. 1991 Aug 1;325(5):303-10</ref><ref>N Engl J Med. 1991 Aug 1;325(5):293-302.</ref><br />
<br />
The AIRE and TRACE trials both evaluated <br />
<br />
ARBs <br />
Beta Blockers<br />
Aldosterone antagonists<br />
Long acting nitrate and hydralazine combinations<br />
<br />
As stated above warfarin is a medication that is occasionally used in systolic heart failure and the benefits are controversial. In systolic heart failure and atrial fibrillation there is a more clear benefit in terms of stroke prevention; however, in isolated systolic heart failure the reduction in embolic risk has not been fully elucidated. <br />
<br />
Loop diuretic medications are commonly used for patients with symptoms of heart failure. There has been no clear survival benefit associated with loop diuretics; however, the use of diuretics and a sodium restricted diet are the mainstays of treatment for congestive symptoms.<br />
<br />
Digoxin is sometimes used in systolic heart failure for symptom relief. A survival benefit has not been shown with digoxin use; however, it is useful for symptomatic treatment. There may be more of a role for digoxin in systolic heart failure and atrial fibrillation as digoxin may serve a dual purpose of heart failure symptom relief related to increased ionotropy as well as ventricular rate control related to AV nodal blockade.<br />
<br />
N-3 polyunsaturated fatty acids have also been evaluated by the GISSI-HF group and showed a slight reduction in mortality (from 29% to 27%) at roughly 3 years of follow up.<ref>Tavazzi L; Maggioni AP, et al. Effect of n-3 polyunsaturated fatty acids in patients with chronic heart failure (the GISSI-HF trial): a randomised, double-blind, placebo-controlled trial. Lancet. 2008 Oct 4;372(9645):1223-30. Epub 2008 Aug 29.</ref><br />
<br />
==Advanced Therapies==<br />
In patients with end stage heart failure or hemodynamic compromise vasopressor agents may be helpful. In patients with hemodynamic compromise medications such as dobutamine or dopamine may provide blood pressure support necessary. In addition parental agents such as milrinone (a phosphodiesterase inhibitor- somewhat specific for cardiac and vascular tissue) may be helpful in the short term or for end stage patients. There is no clear survival benefit and most trials with IV phosphodiesterase inhibitors are small trials of end stage heart failure patients. Oral milrinone has been studied and has been shown to increase mortality. <br />
<br />
In patients who have severe heart failure and are refractory to medical therapy cardiac transplantation may be an option (based upon patient characteristics such as age and comorbidities as well as disease characterisitics such as the etiology of dilated cardiomyopathy). As a bridge to cardiac transplantation multiple mechanical devices have been used. The most durable device is the LVAD (left ventricular assist device), certain patient populations not suitable for cardiac transplantation may also undergo LVAD placement by a cardiac surgeon as a "destination LVAD." This may be considered a palliative measure for end-stage heart failure patients. Other devices which may be more limited in the duration of use include the aortic balloon pump, Impella, and the PVAD (peripheral ventricular assist device) one of which is the Tandem Heart.<br />
<br />
Implantable cardiac defibrillators have also been extensively studied in systolic heart failure. A survival benefit has also been shown in select patient populations.<br />
<br />
<br />
==Gross Pathological Findings==<br />
Images shown below are Courtesy of Professor Peter Anderson DVM PhD and published with permission. [http://www.peir.net © PEIR, University of Alabama at Birmingham, Department of Pathology]<br />
<br />
<div align="left"><br />
<gallery heights="175" widths="175"><br />
Image:414.jpg|Cardiomyopathy: Gross excellent view of mitral valve from left atrium anterior leaflet appears to balloon a bit into the atrium<br />
Image:415.jpg|Cardiomyopathy: Gross excellent view of mitral and tricuspid valves from atria, appear normal anatomy.<br />
</gallery><br />
</div><br />
<br />
<br />
<div align="left"><br />
<gallery heights="175" widths="175"><br />
Image:6621.jpg|Dilated Cardiomyopathy: Gross natural color close-up view of heart surgically removed for a transplantation shows aortic valve and anterior leaflet of mitral valve with cholesterol deposits endocardium of left ventricle is diffusely thickened<br />
Image:434.jpg|Cardiomyopathy: Gross external view of globular heart with patchy fibrosis seen through epicardium<br />
</gallery><br />
</div><br />
<br />
<br />
<div align="left"><br />
<gallery heights="175" widths="175"><br />
Image:874.jpg|Cardiomyopathy: Gross dilated left ventricle with marked endocardial thickening this is what has been called adult fibroelastosis<br />
Image:1134.jpg|Dilated Cardiomyopathy: Gross good example huge dilated left ventricle<br />
</gallery><br />
</div><br />
<br />
<br />
<div align="left"><br />
<gallery heights="175" widths="175"><br />
Image:1151.jpg|Dilated Cardiomyopathy: Gross dilated left ventricle with marked endocardial sclerosis (an excellent example)<br />
Image:1457.jpg|Cardiomyopathy: Gross intact globular shaped heart<br />
</gallery><br />
</div><br />
<br />
<br />
<div align="left"><br />
<gallery heights="175" widths="175"><br />
Image:1489.jpg|Dilated Cardiomyopathy: Gross opened left ventricle dilated with endocardial thickening good example<br />
Image:1509.jpg|Cardiomyopathy: Gross globular heart external view 10 year old girl with sickle cell anemia<br />
</gallery><br />
</div><br />
<br />
<br />
<div align="left"><br />
<gallery heights="175" widths="175"><br />
Image:1510.jpg|Cardiomyopathy: Gross horizontal sections of ventricles dilation type 10 year old girl with sickle cell anemia<br />
Image:2367.jpg|Cardiomyopathy: Intermediate between hypertrophic and dilated<br />
</gallery><br />
</div><br />
<br />
<br />
<div align="left"><br />
<gallery heights="175" widths="175"><br />
Image:2665.jpg|Dilated Cardiomyopathy: Gross opened globular left ventricle natural color (very good example)<br />
Image:2221.jpg|Brain: Infarct: Healing large MCA and PICA probably embolic 64 year old female chronic obstructive pulmonary disease and cardiomyopathy with atrial fibrillation<br />
</gallery><br />
</div><br />
<br />
<br />
<div align="left"><br />
<gallery heights="175" widths="175"><br />
Image:8777.jpg|Kidney: Infarct Remote: Gross external view with capsule removed two old and very typical infarct scars 27yobf with dilated cardiomyopathy<br />
Image:6224.jpg|Dilated Cardiomyopathy: Gross natural color external view globular heart 500 gm 24yo female seven pregnancies<br />
</gallery><br />
</div><br />
<br />
==References==<br />
{{Reflist|2}}<br />
<br />
==See Also==<br />
<br />
* [[Cardiomyopathy]]<br />
* [[Hypertrophic cardiomyopathy]]<br />
<br />
==External links==<br />
* [http://www.cardiomyopathy.org/html/which_card_dcm.htm Cardiomyopathy Association: Dilated cardiomyopathy]<br />
* [http://www.childrenscardiomyopathy.org Children's Cardiomyopathy Foundation]<br />
<br />
==Additional Reading==<br />
<br />
* Moss and Adams' Heart Disease in Infants, Children, and Adolescents Hugh D. Allen, Arthur J. Moss, David J. Driscoll, Forrest H. Adams, Timothy F. Feltes, Robert E. Shaddy, 2007 ISBN 0781786843<br />
* Braunwald's Heart Disease, Libby P, 8th ed., 2007, ISBN 978-1-41-604105-4<br />
* Hurst's the Heart, Fuster V, 12th ed. 2008, ISBN 978-0-07-149928-6<br />
* Willerson JT, Cardiovascular Medicine, 3rd ed., 2007, ISBN 978-1-84628-188-4<br />
{{clr}}<br />
{{Circulatory system pathology}}<br />
{{SIB}}<br />
<br />
[[ru:Дилатационная кардиомиопатия]]<br />
<br />
[[Category:Cardiomyopathy]]<br />
[[Category:Cardiology]]<br />
<br />
{{WikiDoc Help Menu}}<br />
{{WikiDoc Sources}}</div>
Sachin Shah
https://www.wikidoc.org/index.php?title=Dilated_cardiomyopathy&diff=561523
Dilated cardiomyopathy
2009-11-04T00:47:01Z
<p>Sachin Shah: </p>
<hr />
<div>{{Infobox_Disease |<br />
Name = {{PAGENAME}} |<br />
Image = 1151.jpg| <br />
Caption = Dilated Cardiomyopathy: Gross dilated left ventricle with marked endocardial sclerosis <br> <small> [http://www.peir.net Image courtesy of Professor Peter Anderson DVM PhD and published with permission © PEIR, University of Alabama at Birmingham, Department of Pathology] </small>|<br />
DiseasesDB = 3066 |<br />
ICD10 = {{ICD10|I|42|0|i|30}} |<br />
ICD9 = {{ICD9|425.4}} |<br />
ICDO = |<br />
OMIM = 212110 |<br />
MedlinePlus = 000168 |<br />
eMedicineSubj = med |<br />
eMedicineTopic = 289 |<br />
eMedicine_mult = {{eMedicine2|emerg|80}} {{eMedicine2|ped|2502}} | <br />
MeshID = D002311 |<br />
}}<br />
{{SI}}<br />
{{WikiDoc Cardiology Network Infobox}}<br />
'''Editor-in-Chief:''' Sachin Shah, M.D. <br />
<br />
{{Editor Help}}<br />
<br />
==Overview==<br />
'''Dilated cardiomyopathy''' or '''DCM''' is a condition of the heart that causes dilation and impaired contraction of the left ventricle (or both ventricles). Impaired contraction is defined as a low ejection fraction (< 40%). In the following text the clinical presentation, diagnosis, and treatment will be reviewed. <br />
<br />
[[Cardimyopathy]] as a general topic also includes topics such as [[restrictive cardiomyopathy]] and [[hypertrophic cardiomyopathy]]. This section will focus on dilated cardiomyopathy. There is sometimes confusion regarding nomenclature, some of this confusion is based on different classifications set forth by the WHO (World Health Organization) and the AHA (American Heart Association). The WHO classifies cardiomyopathy as either Dilated (DCM), Restrictive (RCM), or Hypertrophic (HCM). The American Heart Association classifies cardiomyopathies as either "primary" or "secondary."<br />
<br />
Dilated cardiomyopathy can occur at any age (although it is more likely between the ages of 20-60)<ref>Dec GW, Fuster V. Idiopathic Dilated Cardiomyopathy. N Engl J Med 1994 Dec 8;331(23):1564-75. PMID 7969328</ref> there is a male predominance (3:1 male:female),<ref>Robbins Basic Pathology, 7th edition. Kumar, Cotran, Robbins. ISBN 0-7216-9274-5</ref>, and is 2.5 times more likely in African Americans.<ref>Coughlin SS, Labenberg JR, Tefft MC. Black-white differences in idiopathic dilated cardiomyopathy: the Washington DC Dilated Cardiomyopathy Study. Epidemiology. 1993;4:165-72. PMID 8452906</ref>. There are many causes and there are varying degrees of severityof the disease . Some forms are reversible and some are irreversible; some patients may be completely asymptoamtic and some may require cardiac transplantation. <br />
<br />
<br />
==Causes==<br />
There are many causes of dilated cardiomyopathy. The most common cause is "idiopathic" which accounts for roughly 50% of cases.<ref> Felker GM, Thompson RE, et al. Underlying causes and long-term survival in patients with initially unexplained cardiomyopathy. N Engl J Med 2000 Apr 13;342(14):1077-84.</ref> The next most common is Myocarditis which accounts for roughly 10%. Ischemic "cardiomyopathy," infiltrative disease, hypertensive heart disease, substance abuse (i.e. alcohol abuse or cocaine abuse), connective tissue disease, peripartum cardiomyopathy, drugs (such as the chemotherapeutic agent doxarubacin), HIV infection or antiretroviral drugs, toxins (such as cobalt, lead or beryllium), and nutritional deficiencies (such as thiamine or selenium) are among other causes of dilated cardiomyopathy. <br />
<br />
The high percentage of idiopathic dilated cardiomyopathy may be related to the difficulty in diagnosing viral myocarditis. There are not definitive diagnostic criteria for myocarditis based on echocardiography, the clinical presentation is commonly similar to dilated cardiomyopathy from other causes, and the sensitivity of endomycardial biopsy is relatively low and approaches near 50% even with immunostaining (CD3 for T lymphocytes and CD68 for macrophages).<ref>Herskowitz A, Ahmed-Ansari A, Neumann DA et al. Induction of major histocompatibility complex antigens within the myocardium of patients with active myocarditis: a nonhistologic marker of myocarditis. J Am Coll Cardiol. 1990;15(3):624-632.</ref>. Cardiac MRI (Magnetic Resonance Imaging) appears to be not only helpful in the localization of inflammation and targeting of endomyocardial biopsy but also seems to be helpful in the diagnosis of myocarditis.<ref>Freidrich MG, Strohm O, et al. Contrast media-enhanced mangetic resonance imaging visualizes myocardial changes in the course of viral myocarditis. Circulation. 1998;97(18):1802-1809.</ref> This new technology may be helpful in reducing the percentage of idiopathic dilated cardiomyopathy and discovering an etiology to the dilated cardiomyopathy in some of these patients.<br />
<br />
==Clinical Presentation==<br />
The clinical presentation of dilated cardiomyopathy is similar to that heart failure from any cause. Dyspnea on exertion, orthopnea, paroxysmal nocturnal dyspnea, lower extremity edema and orthostasis / syncope are all common findings in dilated cardiomyopathy. In addition dilated cardiomyopathy may present as palpitations as a result of arrhythmia (ventricular or atrial) with the most common arrhythmia being atrial fibrillation. Dilated cardiomyopathy may also present as sudden cardiac death or as CVA (cerebrovascular accident) or other embolic phenomenon (either from associated atrial fibrillation or from ventricular thrombi as a result of dilated ventricular cavities). <br />
<br />
Angina is not a common feature of dilated cardiomyopathy unless the cause is related to coronary artery disease. If angina is present a work up for cardiac ischemia should be undertaken.<ref> Mayo Clinic Cardiology. Concise Textbook. Murphy, Joseph G; Lloyd, Margaret A. Mayo Clinic Scientific Press. 2007.</ref><br />
<br />
==Diagnosis==<br />
The diagnosis of dilated cardiomyopathy is based on clinical presentation and imaging findings. The most common imaging modality used to diagnose dilated cardiomyopathy is 2D-echocardiography. Echocardiographic findings of dilated cardiomyopathy include dilation of the left ventricle; however, may include dilation of all 4 cardiac chambers, LV (left ventricular) wall thickness usually is normal but given the dilation the LV mass is increased. In addition there is a global reduciton in systolic function. Occasionally there may also be wall motion abnormalities even in patients without flow limiting coronary artery disease.<ref> Mayo Clinic Cardiology. Concise Textbook. Murphy, Joseph G; Lloyd, Margaret A. Mayo Clinic Scientific Press. 2007.</ref> <br />
<br />
The diagnosis requires a dilated left ventricle and low ejection fraction.<br />
<br />
In terms of determining the etiology a careful history is most instrumental. If the patient has CAD (coronary artery disease) risk factors, known CAD, or angina then a workup for CAD should be undertaken with coronary angiography. A viral prodrome such as viral URI or viral gastroenteritis may make viral myocarditis as a more likely cause. If the patient was exposed to chemotherapy such as anthracyclines then this would be the likely cause. Patients at risk for HIV should undergo testing as HIV can cause a dilated cardiomyopathy. Peripartum cardiomyopathy most often occurs within 1 month of delivery or 5 months after delivery, so recent childbirth is important information. Often by 8 months gestational age pregnancy is physically apparent but it is important to rule out pregnancy in women of childbearing age with dilated cardiomyopathy. Screening questions regarding cocaine or alcohol abuse or other toxin exposure (such as cobalt) should be addressed. <br />
<br />
A review of systems is also helpful in regards to connective tissue disease associated dilated cardiomyopathy (which can be related to SLE (systemic lupus erythematosis), rheumatoid arthritis, sarcoidosis, scleroderma, as well as other connective tissue diseases). <br />
<br />
A family history also has a great importance in the diagnosis of dilated cardiomyopathy. It has been suggested that a portion of those patients labeled as "idiopathic" may have a familial form of the disease. The prevalence of this in the population of patients with dilated cardiomyopathy has been estimated as high as 25%.<ref>Ross J Jr. Dilated cardiomyopathy: concepts derived from gene deficient and transgenic animal models. Circ J. 2002;66:219-24. PMID 11922267</ref> The majority of these are thought to be related to autosomal dominant transmission, the remaining are thought to be transimtted in an autosomal recessive and X-linked fashion.<ref>Mestroni L; Rocco C; et al. Familial dilated cardiomyopathy: evidence for genetic and phenotypic heterogeneity. Heart Muscle Disease Study Group. J Am Coll Cardiol 1999 Jul;34(1):181-90.</ref> Mitochondrial inheritance of the disease has also been identified.<ref>Schonberger J, Seidman CE. Many roads lead to a broken heart: the genetics of dilated cardiomyopathy. Am J Hum Genet. 2001;69:249-60. Epub 2001 Jul 6. PMID 11443548</ref><br />
<br />
Pericardial effusion may accompany myocarditis but this finding is not specific. Cardiac MRI as discussed above may be helpful in diagnosing myocarditis. Endomyocardial biopsy as discussed above has low sensitivy and the findings are also notoriously non-specific. The findings on biopsy usually involve findings of inflammation and specific pathogens are unlikely to be identified. There may be an increased yield to using MRI to target endomyocardial biopsy as described above. Viral titiers (serologies) are often unhelpful and not routinely ordered in clinical practice. <br />
<br />
==Prognosis==<br />
There are many prognostic factors which can be evaluated in a patient with dilated cardiomyopathy.<ref> Mayo Clinic Cardiology. Concise Textbook. Murphy, Joseph G; Lloyd, Margaret A. Mayo Clinic Scientific Press. 2007.</ref> The most important prognostic indicator is a decreased ejection fraction, in addition increased ventricular size and right ventricular dilation are independent indicators of a poor prognosis. <br />
<br />
As is in most cases of heart failure a poor NYHA functional class and increased PASP (>35mmHg) are also poor prognostic indicators. <br />
<br />
Other findings that infer a poor prognosis are as follows: Maximal O2 uptake of < 12mL/kg / minute on exercise testing, LBBB (left bundle branch block), non sustained ventricular tachycardia, syncope, hyponatremia with a serum sodium less than 135, elevated norepinephrine, ANP (atrial natriuretic peptide) and renin levels (not routinely measured in clinical practice), elevated PCWP (pulmonary capillary wedge pressure) > 18mmHg, low cardiac index < 2.5L/min/m^2. <br />
<br />
==Treatment==<br />
Death from dilated cardiomyopathy is usually the result of progressive heart failure or arrhythmia. Treatments for dilated cardiomyopathy are targeted towards preventing death and treating symptoms of heart failure. Some medications (such as ACE inhibitors) may help acheive both goals. <br />
<br />
Medications which have a proven survival benefit in systolic heart failure are ACE (angiotensin converting enzyme) inhibitors, ARBs (angiotensin II receptor blockers), beta blockers (carvedilol and metoprolol succinate are the most well studied), aldosterone antagonists (in severe heart failure) and combination of long acting nitrates and hydralazine. Medications targeted towards symptom relief in systolic heart failure are diuretics and digoxin. Warfarin is also a medication used in systolic heart failure; the benefit of this medication is controversial.<br />
<br />
ACE inhibitors<br />
ARBs <br />
Beta Blockers<br />
Aldosterone antagonists<br />
Long acting nitrate and hydralazine combinations<br />
<br />
As stated above warfarin is a medication that is occasionally used in systolic heart failure and the benefits are controversial. In systolic heart failure and atrial fibrillation there is a more clear benefit in terms of stroke prevention; however, in isolated systolic heart failure the reduction in embolic risk has not been fully elucidated. <br />
<br />
Loop diuretic medications are commonly used for patients with symptoms of heart failure. There has been no clear survival benefit associated with loop diuretics; however, the use of diuretics and a sodium restricted diet are the mainstays of treatment for congestive symptoms.<br />
<br />
Digoxin is sometimes used in systolic heart failure for symptom relief. A survival benefit has not been shown with digoxin use; however, it is useful for symptomatic treatment. There may be more of a role for digoxin in systolic heart failure and atrial fibrillation as digoxin may serve a dual purpose of heart failure symptom relief related to increased ionotropy as well as ventricular rate control related to AV nodal blockade.<br />
<br />
N-3 polyunsaturated fatty acids have also been evaluated by the GISSI-HF group and showed a slight reduction in mortality (from 29% to 27%) at roughly 3 years of follow up.<ref>Tavazzi L; Maggioni AP, et al. Effect of n-3 polyunsaturated fatty acids in patients with chronic heart failure (the GISSI-HF trial): a randomised, double-blind, placebo-controlled trial. Lancet. 2008 Oct 4;372(9645):1223-30. Epub 2008 Aug 29.</ref><br />
<br />
==Advanced Therapies==<br />
In patients with end stage heart failure or hemodynamic compromise vasopressor agents may be helpful. In patients with hemodynamic compromise medications such as dobutamine or dopamine may provide blood pressure support necessary. In addition parental agents such as milrinone (a phosphodiesterase inhibitor- somewhat specific for cardiac and vascular tissue) may be helpful in the short term or for end stage patients. There is no clear survival benefit and most trials with IV phosphodiesterase inhibitors are small trials of end stage heart failure patients. Oral milrinone has been studied and has been shown to increase mortality. <br />
<br />
In patients who have severe heart failure and are refractory to medical therapy cardiac transplantation may be an option (based upon patient characteristics such as age and comorbidities as well as disease characterisitics such as the etiology of dilated cardiomyopathy). As a bridge to cardiac transplantation multiple mechanical devices have been used. The most durable device is the LVAD (left ventricular assist device), certain patient populations not suitable for cardiac transplantation may also undergo LVAD placement by a cardiac surgeon as a "destination LVAD." This may be considered a palliative measure for end-stage heart failure patients. Other devices which may be more limited in the duration of use include the aortic balloon pump, Impella, and the PVAD (peripheral ventricular assist device) one of which is the Tandem Heart.<br />
<br />
Implantable cardiac defibrillators have also been extensively studied in systolic heart failure. A survival benefit has also been shown in select patient populations.<br />
<br />
<br />
==Gross Pathological Findings==<br />
Images shown below are Courtesy of Professor Peter Anderson DVM PhD and published with permission. [http://www.peir.net © PEIR, University of Alabama at Birmingham, Department of Pathology]<br />
<br />
<div align="left"><br />
<gallery heights="175" widths="175"><br />
Image:414.jpg|Cardiomyopathy: Gross excellent view of mitral valve from left atrium anterior leaflet appears to balloon a bit into the atrium<br />
Image:415.jpg|Cardiomyopathy: Gross excellent view of mitral and tricuspid valves from atria, appear normal anatomy.<br />
</gallery><br />
</div><br />
<br />
<br />
<div align="left"><br />
<gallery heights="175" widths="175"><br />
Image:6621.jpg|Dilated Cardiomyopathy: Gross natural color close-up view of heart surgically removed for a transplantation shows aortic valve and anterior leaflet of mitral valve with cholesterol deposits endocardium of left ventricle is diffusely thickened<br />
Image:434.jpg|Cardiomyopathy: Gross external view of globular heart with patchy fibrosis seen through epicardium<br />
</gallery><br />
</div><br />
<br />
<br />
<div align="left"><br />
<gallery heights="175" widths="175"><br />
Image:874.jpg|Cardiomyopathy: Gross dilated left ventricle with marked endocardial thickening this is what has been called adult fibroelastosis<br />
Image:1134.jpg|Dilated Cardiomyopathy: Gross good example huge dilated left ventricle<br />
</gallery><br />
</div><br />
<br />
<br />
<div align="left"><br />
<gallery heights="175" widths="175"><br />
Image:1151.jpg|Dilated Cardiomyopathy: Gross dilated left ventricle with marked endocardial sclerosis (an excellent example)<br />
Image:1457.jpg|Cardiomyopathy: Gross intact globular shaped heart<br />
</gallery><br />
</div><br />
<br />
<br />
<div align="left"><br />
<gallery heights="175" widths="175"><br />
Image:1489.jpg|Dilated Cardiomyopathy: Gross opened left ventricle dilated with endocardial thickening good example<br />
Image:1509.jpg|Cardiomyopathy: Gross globular heart external view 10 year old girl with sickle cell anemia<br />
</gallery><br />
</div><br />
<br />
<br />
<div align="left"><br />
<gallery heights="175" widths="175"><br />
Image:1510.jpg|Cardiomyopathy: Gross horizontal sections of ventricles dilation type 10 year old girl with sickle cell anemia<br />
Image:2367.jpg|Cardiomyopathy: Intermediate between hypertrophic and dilated<br />
</gallery><br />
</div><br />
<br />
<br />
<div align="left"><br />
<gallery heights="175" widths="175"><br />
Image:2665.jpg|Dilated Cardiomyopathy: Gross opened globular left ventricle natural color (very good example)<br />
Image:2221.jpg|Brain: Infarct: Healing large MCA and PICA probably embolic 64 year old female chronic obstructive pulmonary disease and cardiomyopathy with atrial fibrillation<br />
</gallery><br />
</div><br />
<br />
<br />
<div align="left"><br />
<gallery heights="175" widths="175"><br />
Image:8777.jpg|Kidney: Infarct Remote: Gross external view with capsule removed two old and very typical infarct scars 27yobf with dilated cardiomyopathy<br />
Image:6224.jpg|Dilated Cardiomyopathy: Gross natural color external view globular heart 500 gm 24yo female seven pregnancies<br />
</gallery><br />
</div><br />
<br />
==References==<br />
{{Reflist|2}}<br />
<br />
==See Also==<br />
<br />
* [[Cardiomyopathy]]<br />
* [[Hypertrophic cardiomyopathy]]<br />
<br />
==External links==<br />
* [http://www.cardiomyopathy.org/html/which_card_dcm.htm Cardiomyopathy Association: Dilated cardiomyopathy]<br />
* [http://www.childrenscardiomyopathy.org Children's Cardiomyopathy Foundation]<br />
<br />
==Additional Reading==<br />
<br />
* Moss and Adams' Heart Disease in Infants, Children, and Adolescents Hugh D. Allen, Arthur J. Moss, David J. Driscoll, Forrest H. Adams, Timothy F. Feltes, Robert E. Shaddy, 2007 ISBN 0781786843<br />
* Braunwald's Heart Disease, Libby P, 8th ed., 2007, ISBN 978-1-41-604105-4<br />
* Hurst's the Heart, Fuster V, 12th ed. 2008, ISBN 978-0-07-149928-6<br />
* Willerson JT, Cardiovascular Medicine, 3rd ed., 2007, ISBN 978-1-84628-188-4<br />
{{clr}}<br />
{{Circulatory system pathology}}<br />
{{SIB}}<br />
<br />
[[ru:Дилатационная кардиомиопатия]]<br />
<br />
[[Category:Cardiomyopathy]]<br />
[[Category:Cardiology]]<br />
<br />
{{WikiDoc Help Menu}}<br />
{{WikiDoc Sources}}</div>
Sachin Shah
https://www.wikidoc.org/index.php?title=Dilated_cardiomyopathy&diff=561521
Dilated cardiomyopathy
2009-11-03T16:25:08Z
<p>Sachin Shah: </p>
<hr />
<div>{{Infobox_Disease |<br />
Name = {{PAGENAME}} |<br />
Image = 1151.jpg| <br />
Caption = Dilated Cardiomyopathy: Gross dilated left ventricle with marked endocardial sclerosis <br> <small> [http://www.peir.net Image courtesy of Professor Peter Anderson DVM PhD and published with permission © PEIR, University of Alabama at Birmingham, Department of Pathology] </small>|<br />
DiseasesDB = 3066 |<br />
ICD10 = {{ICD10|I|42|0|i|30}} |<br />
ICD9 = {{ICD9|425.4}} |<br />
ICDO = |<br />
OMIM = 212110 |<br />
MedlinePlus = 000168 |<br />
eMedicineSubj = med |<br />
eMedicineTopic = 289 |<br />
eMedicine_mult = {{eMedicine2|emerg|80}} {{eMedicine2|ped|2502}} | <br />
MeshID = D002311 |<br />
}}<br />
{{SI}}<br />
{{WikiDoc Cardiology Network Infobox}}<br />
'''Editor-in-Chief:''' Sachin Shah, M.D. <br />
<br />
{{Editor Help}}<br />
<br />
==Overview==<br />
'''Dilated cardiomyopathy''' or '''DCM''' is a condition of the heart that causes dilation and impaired contraction of the left ventricle (or both ventricles). Impaired contraction is defined as a low ejection fraction (< 40%). In the following text the clinical presentation, diagnosis, and treatment will be reviewed. <br />
<br />
[[Cardimyopathy]] as a general topic also includes topics such as [[restrictive cardiomyopathy]] and [[hypertrophic cardiomyopathy]]. This section will focus on dilated cardiomyopathy. There is sometimes confusion regarding nomenclature, some of this confusion is based on different classifications set forth by the WHO (World Health Organization) and the AHA (American Heart Association). The WHO classifies cardiomyopathy as either Dilated (DCM), Restrictive (RCM), or Hypertrophic (HCM). The American Heart Association classifies cardiomyopathies as either "primary" or "secondary."<br />
<br />
Dilated cardiomyopathy can occur at any age (although it is more likely between the ages of 20-60)<ref>Dec GW, Fuster V. Idiopathic Dilated Cardiomyopathy. N Engl J Med 1994 Dec 8;331(23):1564-75. PMID 7969328</ref> there is a male predominance (3:1 male:female),<ref>Robbins Basic Pathology, 7th edition. Kumar, Cotran, Robbins. ISBN 0-7216-9274-5</ref>, and is 2.5 times more likely in African Americans.<ref>Coughlin SS, Labenberg JR, Tefft MC. Black-white differences in idiopathic dilated cardiomyopathy: the Washington DC Dilated Cardiomyopathy Study. Epidemiology. 1993;4:165-72. PMID 8452906</ref>. There are many causes and there are varying degrees of severityof the disease . Some forms are reversible and some are irreversible; some patients may be completely asymptoamtic and some may require cardiac transplantation. <br />
<br />
<br />
==Causes==<br />
There are many causes of dilated cardiomyopathy. The most common cause is "idiopathic" which accounts for roughly 50% of cases.<ref> Felker GM, Thompson RE, et al. Underlying causes and long-term survival in patients with initially unexplained cardiomyopathy. N Engl J Med 2000 Apr 13;342(14):1077-84.</ref> The next most common is Myocarditis which accounts for roughly 10%. Ischemic "cardiomyopathy," infiltrative disease, hypertensive heart disease, substance abuse (i.e. alcohol abuse or cocaine abuse), connective tissue disease, peripartum cardiomyopathy, drugs (such as the chemotherapeutic agent doxarubacin), HIV infection or antiretroviral drugs, toxins (such as cobalt, lead or beryllium), and nutritional deficiencies (such as thiamine or selenium) are among other causes of dilated cardiomyopathy. <br />
<br />
The high percentage of idiopathic dilated cardiomyopathy may be related to the difficulty in diagnosing viral myocarditis. There are not definitive diagnostic criteria for myocarditis based on echocardiography, the clinical presentation is commonly similar to dilated cardiomyopathy from other causes, and the sensitivity of endomycardial biopsy is relatively low and approaches near 50% even with immunostaining (CD3 for T lymphocytes and CD68 for macrophages).<ref>Herskowitz A, Ahmed-Ansari A, Neumann DA et al. Induction of major histocompatibility complex antigens within the myocardium of patients with active myocarditis: a nonhistologic marker of myocarditis. J Am Coll Cardiol. 1990;15(3):624-632.</ref>. Cardiac MRI (Magnetic Resonance Imaging) appears to be not only helpful in the localization of inflammation and targeting of endomyocardial biopsy but also seems to be helpful in the diagnosis of myocarditis.<ref>Freidrich MG, Strohm O, et al. Contrast media-enhanced mangetic resonance imaging visualizes myocardial changes in the course of viral myocarditis. Circulation. 1998;97(18):1802-1809.</ref> This new technology may be helpful in reducing the percentage of idiopathic dilated cardiomyopathy and discovering an etiology to the dilated cardiomyopathy in some of these patients.<br />
<br />
==Clinical Presentation==<br />
The clinical presentation of dilated cardiomyopathy is similar to that heart failure from any cause. Dyspnea on exertion, orthopnea, paroxysmal nocturnal dyspnea, lower extremity edema and orthostasis / syncope are all common findings in dilated cardiomyopathy. In addition dilated cardiomyopathy may present as palpitations as a result of arrhythmia (ventricular or atrial) with the most common arrhythmia being atrial fibrillation. Dilated cardiomyopathy may also present as sudden cardiac death or as CVA (cerebrovascular accident) or other embolic phenomenon (either from associated atrial fibrillation or from ventricular thrombi as a result of dilated ventricular cavities). <br />
<br />
Angina is not a common feature of dilated cardiomyopathy unless the cause is related to coronary artery disease. If angina is present a work up for cardiac ischemia should be undertaken.<ref> Mayo Clinic Cardiology. Concise Textbook. Murphy, Joseph G; Lloyd, Margaret A. Mayo Clinic Scientific Press. 2007.</ref><br />
<br />
==Diagnosis==<br />
The diagnosis of dilated cardiomyopathy is based on clinical presentation and imaging findings. The most common imaging modality used to diagnose dilated cardiomyopathy is 2D-echocardiography. Echocardiographic findings of dilated cardiomyopathy include dilation of the left ventricle; however, may include dilation of all 4 cardiac chambers, LV (left ventricular) wall thickness usually is normal but given the dilation the LV mass is increased. In addition there is a global reduciton in systolic function. Occasionally there may also be wall motion abnormalities even in patients without flow limiting coronary artery disease.<ref> Mayo Clinic Cardiology. Concise Textbook. Murphy, Joseph G; Lloyd, Margaret A. Mayo Clinic Scientific Press. 2007.</ref> <br />
<br />
The diagnosis requires a dilated left ventricle and low ejection fraction.<br />
<br />
In terms of determining the etiology a careful history is most instrumental. If the patient has CAD (coronary artery disease) risk factors, known CAD, or angina then a workup for CAD should be undertaken with coronary angiography. A viral prodrome such as viral URI or viral gastroenteritis may make viral myocarditis as a more likely cause. If the patient was exposed to chemotherapy such as anthracyclines then this would be the likely cause. Patients at risk for HIV should undergo testing as HIV can cause a dilated cardiomyopathy. Peripartum cardiomyopathy most often occurs within 1 month of delivery or 5 months after delivery, so recent childbirth is important information. Often by 8 months gestational age pregnancy is physically apparent but it is important to rule out pregnancy in women of childbearing age with dilated cardiomyopathy. Screening questions regarding cocaine or alcohol abuse or other toxin exposure (such as cobalt) should be addressed. A review of systems is also helpful in regards to connective tissue disease associated dilated cardiomyopathy (which can be related to SLE (systemic lupus erythematosis), rheumatoid arthritis, sarcoidosis, scleroderma, as well as other connective tissue diseases). A family history also has a great importance in the diagnosis of dilated cardiomyopathy. It has been suggested that a portion of those patients labeled as "idiopathic" may have a familial form of the disease. The prevalence of this in the population of patients with dilated cardiomyopathy has been estimated as high as 25%.<ref>Ross J Jr. Dilated cardiomyopathy: concepts derived from gene deficient and transgenic animal models. Circ J. 2002;66:219-24. PMID 11922267</ref> The majority of these are thought to be related to autosomal dominant transmission, the remaining are thought to be transimtted in an autosomal recessive and X-linked fashion.<ref>Mestroni L; Rocco C; et al. Familial dilated cardiomyopathy: evidence for genetic and phenotypic heterogeneity. Heart Muscle Disease Study Group. J Am Coll Cardiol 1999 Jul;34(1):181-90.</ref> Mitochondrial inheritance of the disease has also been identified.<ref>Schonberger J, Seidman CE. Many roads lead to a broken heart: the genetics of dilated cardiomyopathy. Am J Hum Genet. 2001;69:249-60. Epub 2001 Jul 6. PMID 11443548</ref><br />
<br />
Pericardial effusion may accompany myocarditis but this finding is not specific. Cardiac MRI as discussed above may be helpful in diagnosing myocarditis. Endomyocardial biopsy as discussed above has low sensitivy and the findings are also notoriously non-specific. The findings on biopsy usually involve findings of inflammation and specific pathogens are unlikely to be identified. There may be an increased yield to using MRI to target endomyocardial biopsy as described above. Viral titiers (serologies) are often unhelpful and not routinely ordered in clinical practice. <br />
<br />
==Prognosis==<br />
There are many prognostic factors which can be evaluated in a patient with dilated cardiomyopathy.<ref> Mayo Clinic Cardiology. Concise Textbook. Murphy, Joseph G; Lloyd, Margaret A. Mayo Clinic Scientific Press. 2007.</ref> The most important prognostic indicator is a decreased ejection fraction, in addition increased ventricular size and right ventricular dilation are independent indicators of a poor prognosis. <br />
<br />
As is in most cases of heart failure a poor NYHA functional class and increased PASP (>35mmHg) are also poor prognostic indicators. <br />
<br />
Other findings that infer a poor prognosis are as follows: Maximal O2 uptake of < 12mL/kg / minute on exercise testing, LBBB (left bundle branch block), non sustained ventricular tachycardia, syncope, hyponatremia with a serum sodium less than 135, elevated norepinephrine, ANP (atrial natriuretic peptide) and renin levels (not routinely measured in clinical practice), elevated PCWP (pulmonary capillary wedge pressure) > 18mmHg, low cardiac index < 2.5L/min/m^2. <br />
<br />
==Treatment==<br />
Years ago the statistic was that the majority of patients, particularly those over 55 years of age, died within 3 years of the onset of symptoms (stage 5 of CHF) &ndash; and such figures can still be found in many textbooks. The situation has improved dramatically in recent years with drug therapy that can slow down progression and in some cases even improve the heart condition. Death is due to either [[congestive heart failure]] or ventricular [[tachyarrhythmia|tachy-]] or [[bradyarrhythmia]]s.<br />
<br />
Patients are given the standard therapy for heart failure, typically including salt restriction, [[angiotensin-converting enzyme]] (ACE) inhibitors, [[diuretic]]s, and [[digitalis]]. [[Anticoagulation|Anticoagulants]] may also be used. Alcohol should be avoided. [[Artificial pacemaker]]s may be used in patients with intraventricular conduction delay, and [[implantable cardioverter-defibrillator]]s in those at risk of arrhythmia. These forms of treatment have been shown to improve symptoms and reduce hospitalization.<br />
<br />
In patients with advanced disease who are refractory to medical therapy, cardiac [[transplantation]] may be considered.<br />
<br />
=== Reverse remodeling ===<br />
<br />
The progression of heart failure is associated with left ventricular remodeling, which manifests as gradual increases in left ventricular end-diastolic and end-systolic volumes, wall thinning, and a change in chamber geometry to a more spherical, less elongated shape. This process is usually associated with a continuous decline in [[ejection fraction]]. The concept of cardiac remodeling was initially developed to describe changes which occur in the days and months following myocardial infarction. It has been extended to cardiomyopathies of non-ischemic origin, such as idiopathic dilated cardiomyopathy or chronic myocarditis, suggesting common mechanisms for the progression of cardiac dysfunction. Literally, reverse remodeling is the process of reversing the remodeling, or in other words, it is a process of a temporary or a permanent correction of the heart. A 2004 article gives a description of the current therapies that support reverse remodeling and suggests a new approach to the prognosis of cardiomyopathies.<ref> Pieske B. Reverse remodeling in heart failure – fact or fiction? Eur Heart J Suppl. 2004;6:D66-D68. ([http://eurheartjsupp.oxfordjournals.org/cgi/content/abstract/6/suppl_D/D66 full text online])</ref><br />
<br />
=== Alternative treatment ===<br />
[[alternative medicine|Alternative treatments]] are promoted by some, including food supplements [[Coenzyme Q10]], [[L-Carnitine]], [[Taurine]] and D-Ribose, and there is some evidence for the benefits of Coenzyme Q10 in treating heart failure.<ref>Langsjoen PH, Langsjoen PH, Folkers K. A six-year clinical study of therapy of cardiomyopathy with coenzyme Q10. Int J Tissue React. 1990;12:169-71. PMID 2276895</ref><ref>Folkers K, Langsjoen P, Langsjoen PH. Therapy with coenzyme Q10 of patients in heart failure who are eligible or ineligible for a transplant. Biochem Biophys Res Commun. 1992;182:247-53. PMID 1731784</ref><ref>Baggio E, Gandini R, Plancher AC, Passeri M, Carmosino G. Italian multicenter study on the safety and efficacy of coenzyme Q10 as adjunctive therapy in heart failure. CoQ10 Drug Surveillance Investigators. Mol Aspects Med. 1994;15 Suppl:s287-94. PMID 7752841</ref> The majority of doctors doubt the effectiveness of these alternative treatments, but a few complement conventional treatment by suggesting Coenzyme Q10.<br />
<br />
==Gross Pathological Findings==<br />
Images shown below are Courtesy of Professor Peter Anderson DVM PhD and published with permission. [http://www.peir.net © PEIR, University of Alabama at Birmingham, Department of Pathology]<br />
<br />
<div align="left"><br />
<gallery heights="175" widths="175"><br />
Image:414.jpg|Cardiomyopathy: Gross excellent view of mitral valve from left atrium anterior leaflet appears to balloon a bit into the atrium<br />
Image:415.jpg|Cardiomyopathy: Gross excellent view of mitral and tricuspid valves from atria, appear normal anatomy.<br />
</gallery><br />
</div><br />
<br />
<br />
<div align="left"><br />
<gallery heights="175" widths="175"><br />
Image:6621.jpg|Dilated Cardiomyopathy: Gross natural color close-up view of heart surgically removed for a transplantation shows aortic valve and anterior leaflet of mitral valve with cholesterol deposits endocardium of left ventricle is diffusely thickened<br />
Image:434.jpg|Cardiomyopathy: Gross external view of globular heart with patchy fibrosis seen through epicardium<br />
</gallery><br />
</div><br />
<br />
<br />
<div align="left"><br />
<gallery heights="175" widths="175"><br />
Image:874.jpg|Cardiomyopathy: Gross dilated left ventricle with marked endocardial thickening this is what has been called adult fibroelastosis<br />
Image:1134.jpg|Dilated Cardiomyopathy: Gross good example huge dilated left ventricle<br />
</gallery><br />
</div><br />
<br />
<br />
<div align="left"><br />
<gallery heights="175" widths="175"><br />
Image:1151.jpg|Dilated Cardiomyopathy: Gross dilated left ventricle with marked endocardial sclerosis (an excellent example)<br />
Image:1457.jpg|Cardiomyopathy: Gross intact globular shaped heart<br />
</gallery><br />
</div><br />
<br />
<br />
<div align="left"><br />
<gallery heights="175" widths="175"><br />
Image:1489.jpg|Dilated Cardiomyopathy: Gross opened left ventricle dilated with endocardial thickening good example<br />
Image:1509.jpg|Cardiomyopathy: Gross globular heart external view 10 year old girl with sickle cell anemia<br />
</gallery><br />
</div><br />
<br />
<br />
<div align="left"><br />
<gallery heights="175" widths="175"><br />
Image:1510.jpg|Cardiomyopathy: Gross horizontal sections of ventricles dilation type 10 year old girl with sickle cell anemia<br />
Image:2367.jpg|Cardiomyopathy: Intermediate between hypertrophic and dilated<br />
</gallery><br />
</div><br />
<br />
<br />
<div align="left"><br />
<gallery heights="175" widths="175"><br />
Image:2665.jpg|Dilated Cardiomyopathy: Gross opened globular left ventricle natural color (very good example)<br />
Image:2221.jpg|Brain: Infarct: Healing large MCA and PICA probably embolic 64 year old female chronic obstructive pulmonary disease and cardiomyopathy with atrial fibrillation<br />
</gallery><br />
</div><br />
<br />
<br />
<div align="left"><br />
<gallery heights="175" widths="175"><br />
Image:8777.jpg|Kidney: Infarct Remote: Gross external view with capsule removed two old and very typical infarct scars 27yobf with dilated cardiomyopathy<br />
Image:6224.jpg|Dilated Cardiomyopathy: Gross natural color external view globular heart 500 gm 24yo female seven pregnancies<br />
</gallery><br />
</div><br />
<br />
==References==<br />
{{Reflist|2}}<br />
<br />
==See Also==<br />
<br />
* [[Cardiomyopathy]]<br />
* [[Hypertrophic cardiomyopathy]]<br />
<br />
==External links==<br />
* [http://www.cardiomyopathy.org/html/which_card_dcm.htm Cardiomyopathy Association: Dilated cardiomyopathy]<br />
* [http://www.childrenscardiomyopathy.org Children's Cardiomyopathy Foundation]<br />
<br />
==Additional Reading==<br />
<br />
* Moss and Adams' Heart Disease in Infants, Children, and Adolescents Hugh D. Allen, Arthur J. Moss, David J. Driscoll, Forrest H. Adams, Timothy F. Feltes, Robert E. Shaddy, 2007 ISBN 0781786843<br />
* Braunwald's Heart Disease, Libby P, 8th ed., 2007, ISBN 978-1-41-604105-4<br />
* Hurst's the Heart, Fuster V, 12th ed. 2008, ISBN 978-0-07-149928-6<br />
* Willerson JT, Cardiovascular Medicine, 3rd ed., 2007, ISBN 978-1-84628-188-4<br />
{{clr}}<br />
{{Circulatory system pathology}}<br />
{{SIB}}<br />
<br />
[[ru:Дилатационная кардиомиопатия]]<br />
<br />
[[Category:Cardiomyopathy]]<br />
[[Category:Cardiology]]<br />
<br />
{{WikiDoc Help Menu}}<br />
{{WikiDoc Sources}}</div>
Sachin Shah
https://www.wikidoc.org/index.php?title=Dilated_cardiomyopathy&diff=561520
Dilated cardiomyopathy
2009-11-03T15:08:42Z
<p>Sachin Shah: </p>
<hr />
<div>{{Infobox_Disease |<br />
Name = {{PAGENAME}} |<br />
Image = 1151.jpg| <br />
Caption = Dilated Cardiomyopathy: Gross dilated left ventricle with marked endocardial sclerosis <br> <small> [http://www.peir.net Image courtesy of Professor Peter Anderson DVM PhD and published with permission © PEIR, University of Alabama at Birmingham, Department of Pathology] </small>|<br />
DiseasesDB = 3066 |<br />
ICD10 = {{ICD10|I|42|0|i|30}} |<br />
ICD9 = {{ICD9|425.4}} |<br />
ICDO = |<br />
OMIM = 212110 |<br />
MedlinePlus = 000168 |<br />
eMedicineSubj = med |<br />
eMedicineTopic = 289 |<br />
eMedicine_mult = {{eMedicine2|emerg|80}} {{eMedicine2|ped|2502}} | <br />
MeshID = D002311 |<br />
}}<br />
{{SI}}<br />
{{WikiDoc Cardiology Network Infobox}}<br />
'''Editor-in-Chief:''' Sachin Shah, M.D. <br />
<br />
{{Editor Help}}<br />
<br />
==Overview==<br />
'''Dilated cardiomyopathy''' or '''DCM''' is a condition of the heart that causes dilation and impaired contraction of the left ventricle (or both ventricles). Impaired contraction is defined as a low ejection fraction (< 40%). In the following text the clinical presentation, diagnosis, and treatment will be reviewed. <br />
<br />
[[Cardimyopathy]] as a general topic also includes topics such as [[restrictive cardiomyopathy]] and [[hypertrophic cardiomyopathy]]. This section will focus on dilated cardiomyopathy. <br />
<br />
Dilated cardiomyopathy can occur at any age (although it is more likely between the ages of 20-60)<ref>Dec GW, Fuster V. Idiopathic Dilated Cardiomyopathy. N Engl J Med 1994 Dec 8;331(23):1564-75. PMID 7969328</ref> there is a male predominance,<ref>Robbins Basic Pathology, 7th edition. Kumar, Cotran, Robbins. ISBN 0-7216-9274-5</ref>, there are many causes and there are varying degrees of severity. Some forms are reversible and some are irreversible and may even require cardiac transplantation. <br />
<br />
<br />
==Causes==<br />
Although no cause ([[etiology]]) is apparent in many cases, dilated cardiomyopathy is probably the end result of damage to the [[myocardium]] produced by a variety of [[toxic]], [[metabolic]], or [[infectious]] agents. It may be the late sequel of acute [[viral]] [[myocarditis]], possibly mediated through an immunologic mechanism.<ref>Martino TA, Liu P, Sole MJ. Viral infection and the pathogenesis of dilated cardiomyopathy. Circ Res. 1994;74:182-8. PMID 8293557<br />
</ref> [[Autoimmune]] mechanisms are also suggested as a cause for dilated cardiomyopathy.<ref>San Martin MA, Garcia A, Rodriguez FJ, Terol I. Dilated cardiomyopathy and autoimmunity: an overview of current knowledge and perspectives. Rev Esp Cardiol. 2002;55:514-24. PMID 12015932</ref> A reversible form of dilated cardiomyopathy may be found with [[alcohol]] abuse, [[pregnancy]], [[thyroid disease]], [[stimulant]] use, and [[chronic]] uncontrolled [[tachycardia]]. Many cases of dilated cardiomyopathy are described as ''idiopathic'' - meaning that the cause is unknown.<br />
<br />
==Genetics==<br />
About 20-40% of patients have familial forms of the disease, with [[mutation]]s of genes encoding [[cytoskeletal]], contractile, or other proteins present in myocardial cells.<ref>Ross J Jr. Dilated cardiomyopathy: concepts derived from gene deficient and transgenic animal models. Circ J. 2002;66:219-24. PMID 11922267</ref> The disease is genetically heterogeneous, but the most common form of its transmission is an [[autosomal dominant]] pattern as found, for example, in [[Alström syndrome]].<br />
[[Autosomal recessive]], [[X-linked]], and [[Mitochondrial disease|mitochondrial]] inheritance of the disease is also found.<ref>Schonberger J, Seidman CE. Many roads lead to a broken heart: the genetics of dilated cardiomyopathy. Am J Hum Genet. 2001;69:249-60. Epub 2001 Jul 6. PMID 11443548</ref> Relatives of dilated cardiomyopathy patients have been found to show preclinical, asymptomatic heart-muscle changes.<ref>Mahon NG, Murphy RT, MacRae CA, Caforio AL, Elliott PM, McKenna WJ. Echocardiographic evaluation in asymptomatic relatives of patients with dilated cardiomyopathy reveals preclinical disease. Ann Intern Med. 2005;143:108-15. PMID 16027452</ref><br />
<br />
Although the disease is more common in African-Americans than in whites,<ref>Coughlin SS, Labenberg JR, Tefft MC. Black-white differences in idiopathic dilated cardiomyopathy: the Washington DC Dilated Cardiomyopathy Study. Epidemiology. 1993;4:165-72. PMID 8452906</ref> it may occur in any patient population.<br />
<br />
==Associated symptoms==<br />
For many affected individuals, dilated cardiomyopathy is a condition which will not limit the quality or duration of life. A minority, however, experience significant symptoms and there is sometimes a risk of sudden death. Evaluation by a cardiologist is recommended to confirm the diagnosis and to assess the outlook and particularly the risk of complications. In some patients symptoms of left- and right-sided congestive heart failure develop gradually. Left ventricular dilatation may be present for months or even years before the patient becomes symptomatic.<br />
<br />
Vague chest pain may be present, but typical [[angina pectoris]] is unusual and suggests the presence of concomitant [[ischemic heart disease]]. [[Syncope]] due to [[Cardiac arrhythmia|arrhythmias]], and systemic [[embolism]] may occur.<br />
<br />
==Physical examination==<br />
The patient may present variable degrees of cardiac enlargement, and findings of [[congestive heart failure]]. In advanced stages of the disease, the [[pulse pressure]] is narrowed and the [[jugular venous pressure]] is elevated. Third and fourth heart sounds are common. [[Mitral]] or [[tricuspid]] [[regurgitation]] may occur, presented by systolic [[murmur]]s upon [[auscultation]] (see [[mitral regurgitation]] and [[tricuspid insufficiency]] for more details about the findings).<br />
<br />
==Laboratory examinations==<br />
Generalized enlargement of the heart is seen upon normal [[chest X-ray]]. [[Pleural effusion]] may also be noticed, which is due to pulmonary venous hypertension.<br />
<br />
The [[electrocardiogram]] often shows [[sinus tachycardia]] or [[atrial fibrillation]], [[Cardiac arrhythmia#List of common cardiac dysrhythmias|ventricular arrhythmia]]s, left atrial abnormality, and sometimes intraventricual conduction defects and low voltage. [[Echocardiogram]] shows left ventricular dilatation with normal or thinned walls and reduced [[ejection fraction]]. Cardiac [[catheterization]] and [[coronary angiography]] are often performed to exclude ischemic heart disease.<br />
<br />
==Treatment==<br />
Years ago the statistic was that the majority of patients, particularly those over 55 years of age, died within 3 years of the onset of symptoms (stage 5 of CHF) &ndash; and such figures can still be found in many textbooks. The situation has improved dramatically in recent years with drug therapy that can slow down progression and in some cases even improve the heart condition. Death is due to either [[congestive heart failure]] or ventricular [[tachyarrhythmia|tachy-]] or [[bradyarrhythmia]]s.<br />
<br />
Patients are given the standard therapy for heart failure, typically including salt restriction, [[angiotensin-converting enzyme]] (ACE) inhibitors, [[diuretic]]s, and [[digitalis]]. [[Anticoagulation|Anticoagulants]] may also be used. Alcohol should be avoided. [[Artificial pacemaker]]s may be used in patients with intraventricular conduction delay, and [[implantable cardioverter-defibrillator]]s in those at risk of arrhythmia. These forms of treatment have been shown to improve symptoms and reduce hospitalization.<br />
<br />
In patients with advanced disease who are refractory to medical therapy, cardiac [[transplantation]] may be considered.<br />
<br />
=== Reverse remodeling ===<br />
<br />
The progression of heart failure is associated with left ventricular remodeling, which manifests as gradual increases in left ventricular end-diastolic and end-systolic volumes, wall thinning, and a change in chamber geometry to a more spherical, less elongated shape. This process is usually associated with a continuous decline in [[ejection fraction]]. The concept of cardiac remodeling was initially developed to describe changes which occur in the days and months following myocardial infarction. It has been extended to cardiomyopathies of non-ischemic origin, such as idiopathic dilated cardiomyopathy or chronic myocarditis, suggesting common mechanisms for the progression of cardiac dysfunction. Literally, reverse remodeling is the process of reversing the remodeling, or in other words, it is a process of a temporary or a permanent correction of the heart. A 2004 article gives a description of the current therapies that support reverse remodeling and suggests a new approach to the prognosis of cardiomyopathies.<ref> Pieske B. Reverse remodeling in heart failure – fact or fiction? Eur Heart J Suppl. 2004;6:D66-D68. ([http://eurheartjsupp.oxfordjournals.org/cgi/content/abstract/6/suppl_D/D66 full text online])</ref><br />
<br />
=== Alternative treatment ===<br />
[[alternative medicine|Alternative treatments]] are promoted by some, including food supplements [[Coenzyme Q10]], [[L-Carnitine]], [[Taurine]] and D-Ribose, and there is some evidence for the benefits of Coenzyme Q10 in treating heart failure.<ref>Langsjoen PH, Langsjoen PH, Folkers K. A six-year clinical study of therapy of cardiomyopathy with coenzyme Q10. Int J Tissue React. 1990;12:169-71. PMID 2276895</ref><ref>Folkers K, Langsjoen P, Langsjoen PH. Therapy with coenzyme Q10 of patients in heart failure who are eligible or ineligible for a transplant. Biochem Biophys Res Commun. 1992;182:247-53. PMID 1731784</ref><ref>Baggio E, Gandini R, Plancher AC, Passeri M, Carmosino G. Italian multicenter study on the safety and efficacy of coenzyme Q10 as adjunctive therapy in heart failure. CoQ10 Drug Surveillance Investigators. Mol Aspects Med. 1994;15 Suppl:s287-94. PMID 7752841</ref> The majority of doctors doubt the effectiveness of these alternative treatments, but a few complement conventional treatment by suggesting Coenzyme Q10.<br />
<br />
==Gross Pathological Findings==<br />
Images shown below are Courtesy of Professor Peter Anderson DVM PhD and published with permission. [http://www.peir.net © PEIR, University of Alabama at Birmingham, Department of Pathology]<br />
<br />
<div align="left"><br />
<gallery heights="175" widths="175"><br />
Image:414.jpg|Cardiomyopathy: Gross excellent view of mitral valve from left atrium anterior leaflet appears to balloon a bit into the atrium<br />
Image:415.jpg|Cardiomyopathy: Gross excellent view of mitral and tricuspid valves from atria, appear normal anatomy.<br />
</gallery><br />
</div><br />
<br />
<br />
<div align="left"><br />
<gallery heights="175" widths="175"><br />
Image:6621.jpg|Dilated Cardiomyopathy: Gross natural color close-up view of heart surgically removed for a transplantation shows aortic valve and anterior leaflet of mitral valve with cholesterol deposits endocardium of left ventricle is diffusely thickened<br />
Image:434.jpg|Cardiomyopathy: Gross external view of globular heart with patchy fibrosis seen through epicardium<br />
</gallery><br />
</div><br />
<br />
<br />
<div align="left"><br />
<gallery heights="175" widths="175"><br />
Image:874.jpg|Cardiomyopathy: Gross dilated left ventricle with marked endocardial thickening this is what has been called adult fibroelastosis<br />
Image:1134.jpg|Dilated Cardiomyopathy: Gross good example huge dilated left ventricle<br />
</gallery><br />
</div><br />
<br />
<br />
<div align="left"><br />
<gallery heights="175" widths="175"><br />
Image:1151.jpg|Dilated Cardiomyopathy: Gross dilated left ventricle with marked endocardial sclerosis (an excellent example)<br />
Image:1457.jpg|Cardiomyopathy: Gross intact globular shaped heart<br />
</gallery><br />
</div><br />
<br />
<br />
<div align="left"><br />
<gallery heights="175" widths="175"><br />
Image:1489.jpg|Dilated Cardiomyopathy: Gross opened left ventricle dilated with endocardial thickening good example<br />
Image:1509.jpg|Cardiomyopathy: Gross globular heart external view 10 year old girl with sickle cell anemia<br />
</gallery><br />
</div><br />
<br />
<br />
<div align="left"><br />
<gallery heights="175" widths="175"><br />
Image:1510.jpg|Cardiomyopathy: Gross horizontal sections of ventricles dilation type 10 year old girl with sickle cell anemia<br />
Image:2367.jpg|Cardiomyopathy: Intermediate between hypertrophic and dilated<br />
</gallery><br />
</div><br />
<br />
<br />
<div align="left"><br />
<gallery heights="175" widths="175"><br />
Image:2665.jpg|Dilated Cardiomyopathy: Gross opened globular left ventricle natural color (very good example)<br />
Image:2221.jpg|Brain: Infarct: Healing large MCA and PICA probably embolic 64 year old female chronic obstructive pulmonary disease and cardiomyopathy with atrial fibrillation<br />
</gallery><br />
</div><br />
<br />
<br />
<div align="left"><br />
<gallery heights="175" widths="175"><br />
Image:8777.jpg|Kidney: Infarct Remote: Gross external view with capsule removed two old and very typical infarct scars 27yobf with dilated cardiomyopathy<br />
Image:6224.jpg|Dilated Cardiomyopathy: Gross natural color external view globular heart 500 gm 24yo female seven pregnancies<br />
</gallery><br />
</div><br />
<br />
==References==<br />
{{Reflist|2}}<br />
<br />
==See Also==<br />
<br />
* [[Cardiomyopathy]]<br />
* [[Hypertrophic cardiomyopathy]]<br />
<br />
==External links==<br />
* [http://www.cardiomyopathy.org/html/which_card_dcm.htm Cardiomyopathy Association: Dilated cardiomyopathy]<br />
* [http://www.childrenscardiomyopathy.org Children's Cardiomyopathy Foundation]<br />
<br />
==Additional Reading==<br />
<br />
* Moss and Adams' Heart Disease in Infants, Children, and Adolescents Hugh D. Allen, Arthur J. Moss, David J. Driscoll, Forrest H. Adams, Timothy F. Feltes, Robert E. Shaddy, 2007 ISBN 0781786843<br />
* Braunwald's Heart Disease, Libby P, 8th ed., 2007, ISBN 978-1-41-604105-4<br />
* Hurst's the Heart, Fuster V, 12th ed. 2008, ISBN 978-0-07-149928-6<br />
* Willerson JT, Cardiovascular Medicine, 3rd ed., 2007, ISBN 978-1-84628-188-4<br />
{{clr}}<br />
{{Circulatory system pathology}}<br />
{{SIB}}<br />
<br />
[[ru:Дилатационная кардиомиопатия]]<br />
<br />
[[Category:Cardiomyopathy]]<br />
[[Category:Cardiology]]<br />
<br />
{{WikiDoc Help Menu}}<br />
{{WikiDoc Sources}}</div>
Sachin Shah
https://www.wikidoc.org/index.php?title=Dilated_Cardiomyopathy&diff=561089
Dilated Cardiomyopathy
2009-09-29T19:42:03Z
<p>Sachin Shah: ←Redirected page to Dilated cardiomyopathy</p>
<hr />
<div>#redirect [[Dilated cardiomyopathy]]</div>
Sachin Shah
https://www.wikidoc.org/index.php?title=DCM&diff=561088
DCM
2009-09-29T19:40:27Z
<p>Sachin Shah: ←Redirected page to Dilated cardiomyopathy</p>
<hr />
<div>#REDIRECT [[Dilated cardiomyopathy]]</div>
Sachin Shah
https://www.wikidoc.org/index.php?title=Dilated_cardiomyopathy&diff=561087
Dilated cardiomyopathy
2009-09-29T19:32:34Z
<p>Sachin Shah: </p>
<hr />
<div>{{Infobox_Disease |<br />
Name = {{PAGENAME}} |<br />
Image = 1151.jpg| <br />
Caption = Dilated Cardiomyopathy: Gross dilated left ventricle with marked endocardial sclerosis <br> <small> [http://www.peir.net Image courtesy of Professor Peter Anderson DVM PhD and published with permission © PEIR, University of Alabama at Birmingham, Department of Pathology] </small>|<br />
DiseasesDB = 3066 |<br />
ICD10 = {{ICD10|I|42|0|i|30}} |<br />
ICD9 = {{ICD9|425.4}} |<br />
ICDO = |<br />
OMIM = 212110 |<br />
MedlinePlus = 000168 |<br />
eMedicineSubj = med |<br />
eMedicineTopic = 289 |<br />
eMedicine_mult = {{eMedicine2|emerg|80}} {{eMedicine2|ped|2502}} | <br />
MeshID = D002311 |<br />
}}<br />
{{SI}}<br />
{{WikiDoc Cardiology Network Infobox}}<br />
'''Editor-in-Chief:''' Sachin Shah, M.D. <br />
<br />
{{Editor Help}}<br />
<br />
==Overview==<br />
'''Dilated cardiomyopathy''' or '''DCM''', also known as '''congestive cardiomyopathy''', is a condition in which the [[heart]] becomes weakened and enlarged, and cannot pump blood efficiently. The decreased heart function can affect the lungs, liver, and other body systems.<br />
<br />
DCM is one of the [[cardiomyopathy|cardiomyopathies]], a group of diseases that primarily affect the [[myocardium]] (the [[muscle]] of the [[heart]]). Different cardiomyopathies have different causes, and affect the heart in different ways. In DCM a portion of the myocardium is dilated, often without any obvious cause. Left and/or right ventricular [[systolic]] pump function of the heart is impaired, leading to progressive cardiac enlargement and [[Organ hypertrophy|hypertrophy]], a process called ''remodeling''.<ref>Harrison's Principles of Internal Medicine, 16th edition. Kasper, Braunwald, Fauci, Hauser, Longo, Jameson. ISBN 0-07-139140-1</ref><br />
<br />
Dilated cardiomyopathy is the most common form of cardiomyopathy. It occurs more frequently in men than in women, and is most common between the ages of 20 and 60 years.<ref>Robbins Basic Pathology, 7th edition. Kumar, Cotran, Robbins. ISBN 0-7216-9274-5</ref> About one in three cases of [[congestive heart failure]] (CHF) is due to dilated cardiomyopathy.<ref>Harrison's Principles of Internal Medicine, 16th edition. Kasper, Braunwald, Fauci, Hauser, Longo, Jameson. ISBN 0-07-139140-1</ref> Dilated cardiomyopathy also occurs in children.<br />
<br />
==Causes==<br />
Although no cause ([[etiology]]) is apparent in many cases, dilated cardiomyopathy is probably the end result of damage to the [[myocardium]] produced by a variety of [[toxic]], [[metabolic]], or [[infectious]] agents. It may be the late sequel of acute [[viral]] [[myocarditis]], possibly mediated through an immunologic mechanism.<ref>Martino TA, Liu P, Sole MJ. Viral infection and the pathogenesis of dilated cardiomyopathy. Circ Res. 1994;74:182-8. PMID 8293557<br />
</ref> [[Autoimmune]] mechanisms are also suggested as a cause for dilated cardiomyopathy.<ref>San Martin MA, Garcia A, Rodriguez FJ, Terol I. Dilated cardiomyopathy and autoimmunity: an overview of current knowledge and perspectives. Rev Esp Cardiol. 2002;55:514-24. PMID 12015932</ref> A reversible form of dilated cardiomyopathy may be found with [[alcohol]] abuse, [[pregnancy]], [[thyroid disease]], [[stimulant]] use, and [[chronic]] uncontrolled [[tachycardia]]. Many cases of dilated cardiomyopathy are described as ''idiopathic'' - meaning that the cause is unknown.<br />
<br />
==Genetics==<br />
About 20-40% of patients have familial forms of the disease, with [[mutation]]s of genes encoding [[cytoskeletal]], contractile, or other proteins present in myocardial cells.<ref>Ross J Jr. Dilated cardiomyopathy: concepts derived from gene deficient and transgenic animal models. Circ J. 2002;66:219-24. PMID 11922267</ref> The disease is genetically heterogeneous, but the most common form of its transmission is an [[autosomal dominant]] pattern as found, for example, in [[Alström syndrome]].<br />
[[Autosomal recessive]], [[X-linked]], and [[Mitochondrial disease|mitochondrial]] inheritance of the disease is also found.<ref>Schonberger J, Seidman CE. Many roads lead to a broken heart: the genetics of dilated cardiomyopathy. Am J Hum Genet. 2001;69:249-60. Epub 2001 Jul 6. PMID 11443548</ref> Relatives of dilated cardiomyopathy patients have been found to show preclinical, asymptomatic heart-muscle changes.<ref>Mahon NG, Murphy RT, MacRae CA, Caforio AL, Elliott PM, McKenna WJ. Echocardiographic evaluation in asymptomatic relatives of patients with dilated cardiomyopathy reveals preclinical disease. Ann Intern Med. 2005;143:108-15. PMID 16027452</ref><br />
<br />
Although the disease is more common in African-Americans than in whites,<ref>Coughlin SS, Labenberg JR, Tefft MC. Black-white differences in idiopathic dilated cardiomyopathy: the Washington DC Dilated Cardiomyopathy Study. Epidemiology. 1993;4:165-72. PMID 8452906</ref> it may occur in any patient population.<br />
<br />
==Associated symptoms==<br />
For many affected individuals, dilated cardiomyopathy is a condition which will not limit the quality or duration of life. A minority, however, experience significant symptoms and there is sometimes a risk of sudden death. Evaluation by a cardiologist is recommended to confirm the diagnosis and to assess the outlook and particularly the risk of complications. In some patients symptoms of left- and right-sided congestive heart failure develop gradually. Left ventricular dilatation may be present for months or even years before the patient becomes symptomatic.<br />
<br />
Vague chest pain may be present, but typical [[angina pectoris]] is unusual and suggests the presence of concomitant [[ischemic heart disease]]. [[Syncope]] due to [[Cardiac arrhythmia|arrhythmias]], and systemic [[embolism]] may occur.<br />
<br />
==Physical examination==<br />
The patient may present variable degrees of cardiac enlargement, and findings of [[congestive heart failure]]. In advanced stages of the disease, the [[pulse pressure]] is narrowed and the [[jugular venous pressure]] is elevated. Third and fourth heart sounds are common. [[Mitral]] or [[tricuspid]] [[regurgitation]] may occur, presented by systolic [[murmur]]s upon [[auscultation]] (see [[mitral regurgitation]] and [[tricuspid insufficiency]] for more details about the findings).<br />
<br />
==Laboratory examinations==<br />
Generalized enlargement of the heart is seen upon normal [[chest X-ray]]. [[Pleural effusion]] may also be noticed, which is due to pulmonary venous hypertension.<br />
<br />
The [[electrocardiogram]] often shows [[sinus tachycardia]] or [[atrial fibrillation]], [[Cardiac arrhythmia#List of common cardiac dysrhythmias|ventricular arrhythmia]]s, left atrial abnormality, and sometimes intraventricual conduction defects and low voltage. [[Echocardiogram]] shows left ventricular dilatation with normal or thinned walls and reduced [[ejection fraction]]. Cardiac [[catheterization]] and [[coronary angiography]] are often performed to exclude ischemic heart disease.<br />
<br />
==Treatment==<br />
Years ago the statistic was that the majority of patients, particularly those over 55 years of age, died within 3 years of the onset of symptoms (stage 5 of CHF) &ndash; and such figures can still be found in many textbooks. The situation has improved dramatically in recent years with drug therapy that can slow down progression and in some cases even improve the heart condition. Death is due to either [[congestive heart failure]] or ventricular [[tachyarrhythmia|tachy-]] or [[bradyarrhythmia]]s.<br />
<br />
Patients are given the standard therapy for heart failure, typically including salt restriction, [[angiotensin-converting enzyme]] (ACE) inhibitors, [[diuretic]]s, and [[digitalis]]. [[Anticoagulation|Anticoagulants]] may also be used. Alcohol should be avoided. [[Artificial pacemaker]]s may be used in patients with intraventricular conduction delay, and [[implantable cardioverter-defibrillator]]s in those at risk of arrhythmia. These forms of treatment have been shown to improve symptoms and reduce hospitalization.<br />
<br />
In patients with advanced disease who are refractory to medical therapy, cardiac [[transplantation]] may be considered.<br />
<br />
=== Reverse remodeling ===<br />
<br />
The progression of heart failure is associated with left ventricular remodeling, which manifests as gradual increases in left ventricular end-diastolic and end-systolic volumes, wall thinning, and a change in chamber geometry to a more spherical, less elongated shape. This process is usually associated with a continuous decline in [[ejection fraction]]. The concept of cardiac remodeling was initially developed to describe changes which occur in the days and months following myocardial infarction. It has been extended to cardiomyopathies of non-ischemic origin, such as idiopathic dilated cardiomyopathy or chronic myocarditis, suggesting common mechanisms for the progression of cardiac dysfunction. Literally, reverse remodeling is the process of reversing the remodeling, or in other words, it is a process of a temporary or a permanent correction of the heart. A 2004 article gives a description of the current therapies that support reverse remodeling and suggests a new approach to the prognosis of cardiomyopathies.<ref> Pieske B. Reverse remodeling in heart failure – fact or fiction? Eur Heart J Suppl. 2004;6:D66-D68. ([http://eurheartjsupp.oxfordjournals.org/cgi/content/abstract/6/suppl_D/D66 full text online])</ref><br />
<br />
=== Alternative treatment ===<br />
[[alternative medicine|Alternative treatments]] are promoted by some, including food supplements [[Coenzyme Q10]], [[L-Carnitine]], [[Taurine]] and D-Ribose, and there is some evidence for the benefits of Coenzyme Q10 in treating heart failure.<ref>Langsjoen PH, Langsjoen PH, Folkers K. A six-year clinical study of therapy of cardiomyopathy with coenzyme Q10. Int J Tissue React. 1990;12:169-71. PMID 2276895</ref><ref>Folkers K, Langsjoen P, Langsjoen PH. Therapy with coenzyme Q10 of patients in heart failure who are eligible or ineligible for a transplant. Biochem Biophys Res Commun. 1992;182:247-53. PMID 1731784</ref><ref>Baggio E, Gandini R, Plancher AC, Passeri M, Carmosino G. Italian multicenter study on the safety and efficacy of coenzyme Q10 as adjunctive therapy in heart failure. CoQ10 Drug Surveillance Investigators. Mol Aspects Med. 1994;15 Suppl:s287-94. PMID 7752841</ref> The majority of doctors doubt the effectiveness of these alternative treatments, but a few complement conventional treatment by suggesting Coenzyme Q10.<br />
<br />
==Gross Pathological Findings==<br />
Images shown below are Courtesy of Professor Peter Anderson DVM PhD and published with permission. [http://www.peir.net © PEIR, University of Alabama at Birmingham, Department of Pathology]<br />
<br />
<div align="left"><br />
<gallery heights="175" widths="175"><br />
Image:414.jpg|Cardiomyopathy: Gross excellent view of mitral valve from left atrium anterior leaflet appears to balloon a bit into the atrium<br />
Image:415.jpg|Cardiomyopathy: Gross excellent view of mitral and tricuspid valves from atria, appear normal anatomy.<br />
</gallery><br />
</div><br />
<br />
<br />
<div align="left"><br />
<gallery heights="175" widths="175"><br />
Image:6621.jpg|Dilated Cardiomyopathy: Gross natural color close-up view of heart surgically removed for a transplantation shows aortic valve and anterior leaflet of mitral valve with cholesterol deposits endocardium of left ventricle is diffusely thickened<br />
Image:434.jpg|Cardiomyopathy: Gross external view of globular heart with patchy fibrosis seen through epicardium<br />
</gallery><br />
</div><br />
<br />
<br />
<div align="left"><br />
<gallery heights="175" widths="175"><br />
Image:874.jpg|Cardiomyopathy: Gross dilated left ventricle with marked endocardial thickening this is what has been called adult fibroelastosis<br />
Image:1134.jpg|Dilated Cardiomyopathy: Gross good example huge dilated left ventricle<br />
</gallery><br />
</div><br />
<br />
<br />
<div align="left"><br />
<gallery heights="175" widths="175"><br />
Image:1151.jpg|Dilated Cardiomyopathy: Gross dilated left ventricle with marked endocardial sclerosis (an excellent example)<br />
Image:1457.jpg|Cardiomyopathy: Gross intact globular shaped heart<br />
</gallery><br />
</div><br />
<br />
<br />
<div align="left"><br />
<gallery heights="175" widths="175"><br />
Image:1489.jpg|Dilated Cardiomyopathy: Gross opened left ventricle dilated with endocardial thickening good example<br />
Image:1509.jpg|Cardiomyopathy: Gross globular heart external view 10 year old girl with sickle cell anemia<br />
</gallery><br />
</div><br />
<br />
<br />
<div align="left"><br />
<gallery heights="175" widths="175"><br />
Image:1510.jpg|Cardiomyopathy: Gross horizontal sections of ventricles dilation type 10 year old girl with sickle cell anemia<br />
Image:2367.jpg|Cardiomyopathy: Intermediate between hypertrophic and dilated<br />
</gallery><br />
</div><br />
<br />
<br />
<div align="left"><br />
<gallery heights="175" widths="175"><br />
Image:2665.jpg|Dilated Cardiomyopathy: Gross opened globular left ventricle natural color (very good example)<br />
Image:2221.jpg|Brain: Infarct: Healing large MCA and PICA probably embolic 64 year old female chronic obstructive pulmonary disease and cardiomyopathy with atrial fibrillation<br />
</gallery><br />
</div><br />
<br />
<br />
<div align="left"><br />
<gallery heights="175" widths="175"><br />
Image:8777.jpg|Kidney: Infarct Remote: Gross external view with capsule removed two old and very typical infarct scars 27yobf with dilated cardiomyopathy<br />
Image:6224.jpg|Dilated Cardiomyopathy: Gross natural color external view globular heart 500 gm 24yo female seven pregnancies<br />
</gallery><br />
</div><br />
<br />
==References==<br />
{{Reflist|2}}<br />
<br />
==See Also==<br />
<br />
* [[Cardiomyopathy]]<br />
* [[Hypertrophic cardiomyopathy]]<br />
<br />
==External links==<br />
* [http://www.cardiomyopathy.org/html/which_card_dcm.htm Cardiomyopathy Association: Dilated cardiomyopathy]<br />
* [http://www.childrenscardiomyopathy.org Children's Cardiomyopathy Foundation]<br />
<br />
==Additional Reading==<br />
<br />
* Moss and Adams' Heart Disease in Infants, Children, and Adolescents Hugh D. Allen, Arthur J. Moss, David J. Driscoll, Forrest H. Adams, Timothy F. Feltes, Robert E. Shaddy, 2007 ISBN 0781786843<br />
* Braunwald's Heart Disease, Libby P, 8th ed., 2007, ISBN 978-1-41-604105-4<br />
* Hurst's the Heart, Fuster V, 12th ed. 2008, ISBN 978-0-07-149928-6<br />
* Willerson JT, Cardiovascular Medicine, 3rd ed., 2007, ISBN 978-1-84628-188-4<br />
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[[ru:Дилатационная кардиомиопатия]]<br />
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Sachin Shah