Sandbox adult CHD complications
Template:Adult CHD complications - 2017
Editor-In-Chief: C. Michael Gibson, M.S., M.D. [1],Associate Editor(s)-in-Chief: Arzu Kalayci, M.D. [2]
AHA SCIENTIFIC STATEMENT - 2017
Diagnosis and Management of Noncardiac Complications in Adults With Congenital Heart Disease
Advantages and Disadvantages of Imaging Modalities for Detection of Liver Disease and Screening for HCC in Patients With Congenital Heart Disease(CHD)
| Advantages | Disadvantages | Additional Notes | |
|---|---|---|---|
| Ultrasound | Inexpensive
Widely available Highly sensitive for differentiating cystic and solid lesions No ionising radiation |
Low sensitivity for detecting focal, solid liver lesions, particularly in the setting of diffuse disease
Often unable to detect lesions <1 cm in size Low specs city High operator dependency |
Use of contrast agents may improve characterization of hepatic tutors
Useful for guiding liver parenchymal and some focal mass biopsies Elastography may overestimate degree of brosis and may not be useful for screening in CHD |
| CT | Best spatial resolution (submillimeter resolution) | Exposure to ionizing radiation dose
Low sensitivity for detecting and characterizing lesions <1 cm in size Contrast contraindicated in renal failure Diffuse liver disease and fatty in ltration limit sensitivity for lesion detection |
CT-guided liver mass biopsy useful in cases when ultrasound visualization is poor |
| MRI | High lesion-to-liver contrast
High spatial resolution Better lesion detection and characterization than CT No ionising radiation Unenhanced MRI superior to unenhanced CT |
Contrast relatively contraindicated in renal failure (eGFR <30 mL·min−1·1.73 m−2)
High cost Long scan time Need for longer breath-holds Less widely available Unable to be used with many pacemakers and de brillators |
Hepatobiliary contrast media useful in characterizing speci c liver tutors |
| CHD indicates congenital heart disease; CT, computed tomography; eGFR, estimated glomerular ltration rate; HCC, hepatocellular carcinoma; and MRI, magnetic resonance imaging. | |||
Types of Heart Disease That May Be Associated With Liver Disease
| Right-sided heart disease |
| Fontan physiology |
| TOF with residual pulmonary regurgitation |
| Complete transposition of the great arteries after atrial switch surgery |
| Pulmonary valve disease |
| Ebstein anomaly and other tricuspid valve disease |
| Eisenmenger syndrome |
| Pulmonary hypertension |
| Pericardial disease |
| Left-sided heart disease |
| Left ventricular out ow obstruction |
| Mitral valve disease |
| Ischemic and nonischemic cardiomyopathy |
| Cor triatriatum |
| TOF indicates tetralogy of Fallot. |
Consideration for Liver Surveillance in Adults With Congenital Heart Disease
| Physical examination for signs of liver disease. Signs can include an increased liver span consistent with hepatomegaly, splenomegaly, jaundice, right upper quadrant pain, or ascites. |
| Laboratory tests, including transaminases, GGT, alkaline phosphatase, bilirubin, albumin, total protein, INR, creatinine, and platelets every 1 to 2 y in patients with CHD at risk for liver disease, including all patients with Fontan circulation starting from 5 y after Fontan completion with frequency of testing increasing at 15 y after Fontan. |
| All patients who underwent heart surgery in or before 1992 should be screened for chronic hepatitis B and C infection. |
| All patients with evidence of liver disease should be vaccinated against hepatitis A and B. Those previously vaccinated against hepatitis B should have serologies checked because some patients exhibit waning immunity in adulthood. |
| Imaging of liver by ultrasound, MRI, or CT should be considered in patients with abnormal laboratory studies or signs of advanced liver disease.115 It is reasonable to perform baseline abdominal imaging in patients with Fontan physiology 5 y after Fontan completion regardless of the presence of other abnormal findings. |
| Liver biopsy may assist in staging hepatic brosis and diagnosing cirrhosis but is susceptible to sampling error. Liver biopsy remains important in the evaluation of nodules seen on hepatic imaging in patients with liver disease caused by CHD. |
| CHD indicates congenital heart disease; CT, computed tomography; GGT, γ-glutamyltransferase; INR, international normalized ratio; and MRI, magnetic resonance imaging. |
Genetic Syndromes With Cardiac Disorders and Associated Endocrinopathies
| Syndrome | CHD Association | Endocrine Associations | Recommendations |
|---|---|---|---|
| Alagille | TOF, peripheral PS | Short stature
Osteoporosis |
Tests: consider DEXA scan
Treatment: calcium and vitamin D supplementation |
| DiGeorge
(22q11.2 deletion) |
Conotruncal abnormalities (TOF, IAA, DORV), AVC, VSD, PDA, PS, vascular ring | Hypothyroidism (25%)
Hyperthyroidism (5%) Hypoparathyroidism (80%) Normal reproductive fitness |
Tests: CBC, BMP, TSH, Ca, Mg, PTH, LFT, lipids, HbA1c annually
Treatment: calcium and vitamin D supplementation |
| Down | AVC, TOF, VSD, PDA | DM (3- to 10-fold increased risk)
Obesity Hypothyroidism (up to 25%) Hyperthyroidism (<5%) Hyperlipidemia Osteoporosis |
Tests: lipids and TSH every 5 y FPG/HbA1c every 3 y if >45 y of age or sooner if risk factors are present DEXA scan every 2 year or if any risk factors are present |
| Kabuki | Coarctation of the aorta, ASD, VSD | Congenital hypothyroidism
Growth hormone deficiency |
Tests: consider TSH |
| Marfan | Dilated aortic root, mitral valve prolapse | Possible osteoporosis | Tests: consider DEXA scan |
| Noonan | Pulmonic stenosis, hypertrophic cardiomyopathy | Delayed puberty
Reduced fertility in male patients Short stature |
Tests: no specific endocrine screening |
| Turner | Bicuspid aortic valve, CoA, dilated aorta | Hypogonadism
Hypothyroidism (24%) Hyperthyroidism (2.5%) Hyperlipidemia Impaired glucose tolerance and DM (50%) Osteopenia and osteoporosis Short stature |
Tests: DEXA scan every 3–5 year; TSH, LFTs, lipids, OGTT/HbA1c annually
Treatment: discuss risk/bene t of oestrogen replacement |
| Williams-Beuren | Supravalvular aortic stenosis, supravalvular PS, peripheral PS, coronary artery abnormalities, midaortic syndrome, renal artery stenosis | Impaired glucose tolerance and DM (75%); Osteopenia and osteoporosis (45%); Subclinical hypothyroidism (15%–30%); Hypercalcemia | Tests: BMP, Ca every 1–2 y; spot urine Ca/ Cr ratio annually; TSH every 3 year; OGTT/ HbA1c every 5 year; DEXA every 5 year
Treatment: care with calcium supplementation given predisposition to hypercalcemia |
| AVC indicates atrioventricular canal; BMP, basic metabolic panel; CBC, complete blood count; CHD, congenital heart disease; CoA, coarctation of the aorta; Cr, creatinine; DEXA, dual-energy x-ray absorptiometry; DM, diabetes mellitus; DORV, double-outlet right ventricle; FPG, fasting plasma glucose; HbA1c, hemoglobin A1c; IAA, interrupted aortic arch; LFT, liver function test; OGTT, oral glucose tolerance test; PDA, patent ductus arteriosus; PS, pulmonic stenosis; PTH, parathyroid hormone; TOF, tetralogy of Fallot; TSH, thyroid-stimulating hormone; and VSD, ventricular septal defect. | |||
Screening for Atherosclerotic Cardiovascular Risk Factors in Adults With Congenital Heart Disease
| Testing | Frequency | |
|---|---|---|
| Diet and physical activity | NA | Yearly |
| Tobacco | NA | Yearly |
| Hypertension | Office blood pressure measurement and/or ambulatory/home blood pressure monitor | Yearly |
| Obesity | Weight, height, and BMI | Yearly |
| Dyslipidemia | Fasting lipid panel | Every 5 year |
| DM | Fasting plasma glucose, oral glucose tolerance test, or hemoglobin A1c | Every 3 y in adults ≥45 y of age or ≤45 y of age with BMI ≥25 kg/m2 and risk factors for DM |
| PAD | Ankle-brachial index | Insufficient evidence but can consider in patients with DM or an additional cardiovascular risk factor |
| BMI indicates body mass index; CHD, congenital heart disease; DM, diabetes mellitus; NA, not available; and PAD, peripheral artery disease. | ||