Chronic hypertension causes

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Etiology

Salt sensitivity

Sodium is the environmental factor that has received the greatest attention. Approximately 60% of the essential hypertension population is responsive to sodium intake. This is due to the fact that increasing amounts of salt in a person's bloodstream causes the body to draw more water, increasing the pressure on the blood vessel walls.In addition to sodium,choride plays an important role as it causes volume expansion increasing blood pressure as sodium with combined iwth other anions does not increase blood pressure.^[1] Also salt sensitivity is known to be increased in increasing age,obesity,African americans and metabolic syndrome.^[2]

Mechanisms

The known mechanisms for salt-sensitvity is incraesed salt intake over a long period of time leads to impaired excretion of salt which causes hypertension.But there are several other pathways involved in the pathophysiology of salt-sensitivity leading to hypertension.A recent study showed that salt-sensitive patients are known to have a dysregulated Renin-Angiotensin pathway and patients show an abnormal vascular response to Angiotensin II.^[3] Increased sodium re absorption, though not well understood is mostly related abnormalities across Na-H proximal tubule channels,Na-K-Cl co-transporter across the thick ascending limb,Na-Cl distal tubule co-transporter and epithelial Na channels.Dietary deficiency in potassium is also known to trigger increased sodium sensitivity in patients in particular African-Americans, but the mechanism is still not clearly determined.

Role of renin

Renin is a hormone secreted by the juxtaglomerular cells of the kidney and linked with aldosterone in a negative feedback loop. The range of renin activity observed in hypertensive subjects tends to be broader than in normotensive individuals. In consequence, some hypertensive patients have been defined as having low-renin and others as having essential hypertension. Low-renin hypertension is more common in African Americans than Caucasians and may explain why they tend to respond better to diuretic therapy than drugs that interfere with the renin-angiotensin system.

High Renin levels predispose to Hypertension: Increased Renin --> Increased Angiotensin II --> Increased Vasoconstriction, Thirst/ADH and Aldosterone --> Increased Sodium Reabsorption in the Kidneys (DCT and CD) --> Increased Blood Pressure.

Insulin resistance

Insulin is a polypeptide hormone secreted by the pancreas. Its main purpose is to regulate the levels of glucose in the body antagonistically with glucagon through negative feedback loops. Insulin also exhibits vasodilatory properties. In normotensive individuals, insulin may stimulate sympathetic activity without elevating mean arterial pressure. However, in more extreme conditions such as that of the metabolic syndrome, the increased sympathetic neural activity may over-ride the vasodilatory effects of insulin. Insulin resistance and/or hyperinsulinemia have been suggested as being responsible for the increased arterial pressure in some patients with hypertension. This feature is now widely recognized as part of syndrome X, or the metabolic syndrome.

Sleep apnea

Sleep apnea is a common, under-recognized cause of hypertension.^[4] It is best treated with UPPP, tonsilectomy, adenoidectomy, sinus surgery, or weight loss, nocturnal nasal positive airway pressure, or the Mandibular advancement splint (MAS).

Genetics

Hypertension is one of the most common complex disorders, with genetic heritability averaging 30%. Data supporting this view emerge from animal studies as well as in population studies in humans. Most of these studies support the concept that the inheritance is probably multifactorial or that a number of different genetic defects each have an elevated blood pressure as one of their phenotypic expressions.

More than 50 genes have been examined in association studies with hypertension, and the number is constantly growing.

Other etiologies

There are some anecdotal or transient causes of high blood pressure. These are not to be confused with the disease called hypertension in which there is an intrinsic physiopathological mechanism as described below.

Etiology of secondary hypertension

Only in a small minority of patients with elevated arterial pressure, can a specific cause be identified. These individuals will probably have an endocrine or renal defect that, if corrected, could bring blood pressure back to normal values.

Renal hypertension: Hypertension produced by diseases of the kidney. This includes diseases such as polycystic kidney disease or chronic glomerulonephritis. Hypertension can also be produced by diseases of the renal arteries supplying the kidney. This is known as renovascular hypertension; it is thought that decreased perfusion of renal tissue due to stenosis of a main or branch renal artery activates the renin-angiotensin system.

Adrenal hypertension: Hypertension is a feature of a variety of adrenal cortical abnormalities. In primary aldosteronism there is a clear relationship between the aldosterone-induced sodium retention and the hypertension.

In patients with pheochromocytoma increased secretion of catecholamines such as epinephrine and norepinephrine by a tumor (most often located in the adrenal medulla) causes excessive stimulation of [adrenergic receptors], which results in peripheral vasoconstriction and cardiac stimulation. This diagnosis is confirmed by demonstrating increased urinary excretion of epinephrine and norepinephrine and/or their metabolites (vanillylmandelic acid).

Coarctation of the aorta

Diet: The North American diet that is high in fat and salt has been proven to exacerbate hypertension. A study in the U.S. found that patients placed on a strict vegetarian diet showed a significant benefit to their condition over the one year. Certain medications, especially NSAIDS (Motrin/ibuprofen) and steroids can cause hypertension. Imported licorice (Glycyrrhiza glabra) inhibits the 11-hydroxysteroid hydrogenase enzyme (catalyzes the reaction of cortisol to cortison) which allows cortisol to stimulate the Mineralocorticoid Receptor (MR) which will lead to effects similar to hyperaldosteronism, which itself is a cause of hypertension. [Reference: Harrisons Internal Medicine, online edition (2007-04-14)]

Age: Over time, the number of collagen fibers in artery and arteriole walls increases, making blood vessels stiffer. With the reduced elasticity comes a smaller cross-sectional area in systole, and so a raised mean arterial blood pressure.

Acromegaly

References

↑ Kurtz TW, Al-Bander HA, Morris RC (1987). ""Salt-sensitive" essential hypertension in men. Is the sodium ion alone important?". N. Engl. J. Med. 317 (17): 1043–8. PMID 3309653. Unknown parameter |month= ignored (help)
↑ Obarzanek E, Proschan MA, Vollmer WM; et al. (2003). "Individual blood pressure responses to changes in salt intake: results from the DASH-Sodium trial". Hypertension. 42 (4): 459–67. doi:10.1161/01.HYP.0000091267.39066.72. PMID 12953018. Unknown parameter |month= ignored (help)
↑ Chamarthi B, Williams JS, Williams GH (2010). "A mechanism for salt-sensitive hypertension: abnormal dietary sodium-mediated vascular response to angiotensin-II". J. Hypertens. 28 (5): 1020–6. doi:10.1097/HJH.0b013e3283375974. PMID 20216091. Unknown parameter |month= ignored (help)
↑ Silverberg DS, Iaina A and Oksenberg A (2002). "Treating Obstructive Sleep Apnea Improves Essential Hypertension and Quality of Life". American Family Physicians. 65 (2): 229–36. PMID 11820487. Unknown parameter |month= ignored (help)

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[1] Kurtz TW, Al-Bander HA, Morris RC (1987). ""Salt-sensitive" essential hypertension in men. Is the sodium ion alone important?". N. Engl. J. Med. 317 (17): 1043–8. PMID 3309653. Unknown parameter |month= ignored (help)

[2] Obarzanek E, Proschan MA, Vollmer WM; et al. (2003). "Individual blood pressure responses to changes in salt intake: results from the DASH-Sodium trial". Hypertension. 42 (4): 459–67. doi:10.1161/01.HYP.0000091267.39066.72. PMID 12953018. Unknown parameter |month= ignored (help)

[3] Chamarthi B, Williams JS, Williams GH (2010). "A mechanism for salt-sensitive hypertension: abnormal dietary sodium-mediated vascular response to angiotensin-II". J. Hypertens. 28 (5): 1020–6. doi:10.1097/HJH.0b013e3283375974. PMID 20216091. Unknown parameter |month= ignored (help)

[Sleep_Apnea-4] Silverberg DS, Iaina A and Oksenberg A (2002). "Treating Obstructive Sleep Apnea Improves Essential Hypertension and Quality of Life". American Family Physicians. 65 (2): 229–36. PMID 11820487. Unknown parameter |month= ignored (help)

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