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Query: UMLS:C0085580 (essential hypertension)
 14,686 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Information defining the renin-angiotension-aldosterone axis as a control system concurrently regulating salt balance and blood pressure has been applied to reexamine the role of renin in experimental and clinical forms of renovascular and renal hypertension, and thence to develop criteria for differentiating these entities. Experimentally, there are two models of renovascular hypertension; one is characterized by excess renin with reduced sodium (vasoconstrictor form) and the other by excess sodium with reduced renin (volume form). But with sodium depletion, the volume form converts to a vasoconstrictor form illustrating how the two factors coordinate to maintain blood pressure. In man, renovascular and renal hypertensions appear to be sustained by the same two mechanisms. Studies in man show that, in the absence of unilateral disease, the supine renal venous renin level in each kidney is consistently 24 percent higher than the peripheral level. Because of this constant relationship, the peripheral renin level is a measure of the renal secretion rate. Our studies indicate the curable unilateral renovascular hypertension is, in fact, renin-dependent vasoconstrictor hypertension. Three criteria, derived from four renin measurements, identify this situation: (1) Hypersecretion of renin is reflected by a high peripheral level when indexed against sodium excretion. (2) Lateralization of renin secretion with contralateral suppression rules out occult bilateral disease. It is indicated by V-A equal 0 from the uninvolved kidney. (3) (V-A)/A greater than 48 per cent from the ipsilateral kidney supports unilateralization. With data derived from patients with essential hypertension as a reference, the degree to which (V-A)/A is greater than 0.48 can be used to estimate the degree of renal ischemia, using Fick's principle. Corroborative evidence to support these three criteria can be developed from the blood pressure response to angiotensin blocking drugs or to antirenin therapy with propranolol. Clinical analysis validates these criteria to identify curable hypertension from unilateral renovascular or parenchymal disease. In patients with either occult or overt bilateral renal disease, the volume factor often predominates and is expressed by some suppression of plasma renin levels. Continued
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PMID:The renin axis and vasoconstriction volume analysis for understanding and treating renovascular and renal hypertension. 23 77

The biochemical processes which transform baroreceptor, beta-adrenergic and macula densa signals into an increase or a decrease of renin secretion are unknown. Evidence is presented that the renal PG system is intimately involved in the mechanisms regulating the release of renin. In vivo stimulation of renal PG synthesis by arachidonic acid (C20:4) or furosemide increases renin release. PG synthesis inhibitors decrease basal renin release and reduce the renin release following stimulation with C20:4, furosemide and renal ischemia. In vitro, C20:4 and the PG-endoperoxides stimulate renin release from the rabbit kidney cortex whereas PGF2alpha inhibits it. This suggests an intrinsic role in the renin release mechanism of PGs, synthesized at or near the juxtaglomerular apparatus. The operation of this PG effect on renin release may depend upon a salt intake related control of PG synthesis and of conversion of PGE2 to PGF2alpha. Increased or decreased renal PG synthesis may also be the primary event leading to elevated or reduced renin levels in some clinical disorders. In Bartter's syndrome, the elevated renin levels may result from an increase in PG synthesis or a decrease of PGF2alpha formation. In benign, uncomplicated essential hypertension, decreased renal PG synthesis or increased PGS2alpha formation may be the primary mechanism which reduces renin release and renal blood flow.
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PMID:Renal prostaglandins in the control of renin. 69 7

It is apparent that the split function study and renal vein renin determination are complementary and afford valuable information for selecting patients with potentially curable renovascular hypertension. The split function study, when interpreted with the recently defined split function ratio, offers the clinician a highly accurate means of diagnosing significant renal ischemia. Because the split function ratio shows the disparity between the ischemic and contralateral kidney to a greater degree, the chance of misdiagnosis due to laboratory or physician error is minimized. The split function study, however, is of limited value in patients with pyelonephritis since the water- and salt-losing characteristics of the pyelonephritic kidney may mask significant renal ischemia. In these patients, as well as those with a nonfunctioning kidney or hydronephrosis, the renal vein renin determination is the test of choice. In addition, the added morbidity of the split function study is not warranted in a patient with an elevated peripheral renin which, for interpretation, requires an accurate 24 hour urine for sodium, a renal vein renin ratio outside the range of patients with essential hypertension (renal vein renin ratio greater than 1.7) and evidence of suppression of renin secretion from the contralateral kidney. If, however, the renin determination does not afford convincing evidence of significant renal ischemia in a patient with radiographic evidence of renal arterial stenosis, a split function ratio definitely should be determined to more completely define the pathology. The attendant morbidity of a carefully performed split renal function study does not approach the morbidity and mortality associated with unnecessary surgery or inadequately treated hypertension.
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PMID:Ureteral catheterization studies. 115 55

Renovascular hypertension is caused by two distinct conditions with different causes, fibromuscular dysplasia and atheroma. Diagnosis of the former is both simpler and more rewarding, whereas atheromatous lesions of the renal artery may be secondary to essential hypertension. It is therefore important to establish existence of functional renal ischemia as well as an anatomical lesion. Universal screening of all hypertensive patients is not recommended because of the relatively low prevalence of the disease and insufficient accuracy of available screening tests. When renovascular hypertension is clinically suspected, an oral captopril test is the most reliable office screening test. After this, digital subtraction angiography with renal vein renins or captopril renography are appropriate steps. However, the latter procedure, while promising, requires further evaluation. Duplex scanning of the renal arteries also comes into this category. Arteriography is done last, so that if renal ischemia is indicated, angioplasty can be attempted at the same time as arteriography.
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PMID:Diagnosis and evaluation of renovascular hypertension. Indications for therapy. 199 96

Dynamic I-123 Hippuran renal studies to measure furosemide response (FR) were performed in three groups of patients: 1) 57 patients with renovascular hypertension due to a poststenotic, ischemic kidney; 2) 23 patients with essential hypertension; and 3) 50 nonhypertensive patients with healthy kidneys (control group). FR was observed as renal parenchymal tracer washout within 10 minutes after the injection of 40 mg of furosemide. The retention index (RI) took into consideration the renal parenchymal tracer content before and 10 minutes after furosemide injection. In the control group, the FR was greater than 50% and the RI was less than 20. Patients with essential hypertension revealed no differences in the amounts of FR and RI compared with the control group. In renovascular hypertension, the FR was diminished and the RI was raised significantly. The values of FR and RI showed a good correlation to the degree of the renal artery stenosis before and after percutaneous transluminal angioplasty. It is concluded that the stimulation of diuresis with furosemide and its quantification represent an important additional step in the evaluation of dynamic I-123 Hippuran studies to detect renal ischemia.
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PMID:Diminished response to furosemide in I-123 Hippuran renal studies of renovascular hypertension caused by unilateral renal artery stenosis. 220 82

The hemodynamic profile of essential hypertension affects renal function. Renal hemodynamics tend to deteriorate as systemic circulation changes from hyper- to hypokinetic type, mainly due to increased renal vascular resistance and reduced minute blood volume. Under hypokinetic circulation, transition to the next stage of essential hypertension takes form: renal ischemia develops during the formative stage of the disease (stage I), glomerular filtration decreases during its stabilization (stage II) in the presence of renal circulatory insufficiency. Renal hemodynamic changes due to reduced cardiac output take root and are manifested during the next stages of essential hypertension irrespective of systemic circulation variant, thus determining a new level of renal functioning.
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PMID:[Systemic and renal hemodynamics in hypertension]. 686 85

In human essential hypertension, and in all forms of experimental hypertension studied thus far, volume regulation and the relationship between blood pressure (BP) and sodium excretion (pressure natriuresis) are abnormal. Considerable evidence indicates that resetting of pressure natriuresis plays a key role in causing hypertension, rather than merely occurring as a consequence of increased BP. In patients with essential hypertension, resetting of pressure natriuresis is characterized either by a parallel shift to higher BPs and salt-insensitive hypertension, or by a decreased slope of pressure natriuresis and salt-sensitive hypertension. This clearly indicates that essential hypertension cannot be ascribed to a single abnormality of kidney function. Multiple physiological studies have shown that salt-sensitive hypertension can be elicited by renal abnormalities that cause either loss of functional kidney mass or an inability to modulate the renin-angiotensin-aldosterone (RAA) system appropriately; these abnormalities include loss of functional nephrons, decreased glomerular capillary filtration coefficient, patchy renal ischemia, and increased distal and collecting tubular reabsorption. Renal abnormalities that cause salt-insensitive hypertension are characterized by normal functional kidney mass, and the ability to appropriately modulate the renin-angiotensin system during changes in sodium intake; important causes of salt-insensitive hypertension include widespread increases in preglomerular resistance and increased reabsorption in the proximal tubules and loops of Henle. By comparing the characteristics of pressure natriuresis in essential hypertensive subjects with those found in experimental hypertension of known origin, we can gain considerable insight into the etiology of human hypertension.
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PMID:Central role of the kidney and abnormal fluid volume control in hypertension. 900 86

Vascular nephropathies are a steadily increasing cause of end-stage renal failure. Arterionephrosclerosis and arteriolonephrosclerosis are common features in the hypertensive patient. This is especially true for blacks of African descent, in whom hypertension and nephrovasculopathies are a major cause of renal insufficiency. That primary hypertension leads to renal vascular lesions, glomerular obsolescence and interstitial fibrosis has long been established. It should not, however, obscure the fact that renal vascular lesions can be observed in animal models as well as in some humans, especially young blacks, in the absence of, or anticipating the onset of hypertension. This leads to considering the hypothesis that nephroangiosclerosis might stem from a genetic defect in the renal vascular bed and that this defect is strongly associated with the hypertensive trait. Atherosclerotic renal disease is a major, potentially treatable cause of chronic renal disease is a major, potentially treatable cause of chronic renal failure, especially in whites. It leads to renal atrophy, but the ischemic kidney retains a vigorous potential for tubular cell regeneration, which pleads for early recognition and treatment. Recent data suggest that renal ischemia, be it due to renal artery stenosis or to cholesterol crystal embolism, ranks among the multiple causes of secondary focal segmental glomerulosclerosis. Irrespective of its initial mechanism, ischemia induces renal fibrosis, the pathophysiology of which is centered on increased generation of angiotensin II. Finally, renal vascular lesions are commonly observed in the course of various nephropathies, even in the absence of hypertension, and the relationship between these lesions and the unfavorable prognosis of glomerulopathies, especially primary focal-segmental glomerulosclerosis, membranous glomerulopathy and IgA glomerulonephritis, remains to be elucidated. Expanding knowledge of the spectrum of nephrovasculopathies opens perspectives for investigating, understanding and treating a major mechanism of progressive renal insufficiency.
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PMID:Ischemic renal diseases: new insights into old entities. 964 58

The essential arterial hypertension is the second (after diabetes mellitus) cause of chronic renal failure which means a great social and economic burden to the society. It is well known that hypertension is a metabolic syndrome resulting in tissue injury. We tried to investigate the possible influence of some metabolic disturbances on renal function in nontreated essential hypertension. We have compared 25 patients with nontreated essential hypertension (11 women, 14 men) with 14 healthy volunteers (7 women, 7 men) matched for age. The patients' group was characterized by significantly higher urine excretion of NAG (N-acetyl-beta-D-glucosaminidase) (2.75 +/- 1.69 vs 1.82 +/- 1.46 p < 0.05) and a tendency to significantly higher urine fractional sodium excretion without significant difference in albumin excretion. These findings suggest that the tubular damage is present. We noticed the negative linear correlation between mean arterial pressure and (MAP) and NAG urine excretion in the group of hypertensive patients which may reflect the renal ischemia in tubulo-interstitial pathology. Our data suggests that in nontreated arterial hypertension the renal blood flow disturbances are the important cause of the deterioration of tubular function (which are earlier to glomerular damage).
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PMID:[Does any relationship exist between metabolic disturbances and some markers of renal damage in patients with untreated essential hypertension?]. 1139 62

The existence of a clear relationship between renal ischemia and hypertension has been widely documented by Harry Goldblatt and his colleagues. In their original papers they showed that gross and persistent elevation of systolic blood pressure could be produced in dogs by clamping both renal artery, or one if the other kidney had been removed. If renal arteries constriction was not too severe, a stable hypertension unaccompanied by more than mild renal impairment was produced. Subsequently, Goldblatt showed that, with severe constriction, retinal changes, arteriolar impairment and left ventricular hypertension could occur. Goldblatt has remained steadily of the opinion that essential hypertension in man is similarly due to renal ischemia occasioned either by stenosis of a main artery, or by organic changes in the smaller renal arteries down to the size of the different glomerular arteries. At first sight, it might seem like a simple matter to correctly identify the chain of events that begins with renal artery constriction and ends with persistent hypertension. Observing that a link was missing in this chain of events, Goldblatt hypothesised that the link was a humoral mechanism. Tigersted and Bergman showed that renin was the missing link. Renal ischemia as cause of hypertension in dogs opened a new chapter in the connection between kidney circulation and blood pressure elevation. This quite unexpected connection is one of the most challenging issues today and clearly demonstrates that the development of Goldblatt's ideas on renal circulation is still important and has by no means ended. Goldblatt, in his epistemologic approach to hypertension scientific challenges, realised that ideas are the building blocks of science: not flights of fancy, not notions sculpted in snow, but enduring concepts. Goldblatt's lasting ideas are more than a function of time and place: they have inherent qualities that have survived up to the present day.
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PMID:[Historical Archives of Italian Nephrology. Goldblatt, kidney and hypertension: three steps in the history of nephrology]. 1463 67


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