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Query: UNIPROT:Q92565 (GFR)
 4,179 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

In patients with primary hypertension, intravenous administration of 150 mug Clonidin caused a decrease in arterial pressure, renin activity, RPF, GFR and electrolyte excretion. Activation of intracerebral adrenergic alpha-receptors and diminished sympathetic outflow seem to be responsible for the decrease of renin release.
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PMID:[The effect of clonidine on renin-release (author's transl)]. 126 3

The offspring of essential hypertensive parents have been found to exhibit abnormalities in renal hemodynamics and sodium handling before the eventual occurrence of hypertension. The reported abnormalities represent a wide spectrum of changes including increased GFR, normal or decreased RPF, slight increase in blood pressure (although within the normal range), and an exaggerated natriuresis response to a sodium load. The heterogeneity of these abnormalities may reflect the specific conditions of the studies, the lability of the changes, or different subgroups of subjects with genetic predisposition to essential hypertension. Several lines of evidence have suggested a relationship between hypertension and the development of diabetic nephropathy in insulin-dependent diabetics. This laboratory has found that recent-onset insulin-dependent diabetics can exhibit renal hemodynamics abnormalities very early in the course of diabetes according to a positive or negative family history of essential hypertension. These changes include increased GFR and mean arterial pressure, but no differences in renal sodium and lithium handling in diabetics with a genetic predisposition to essential hypertension. In addition, diabetics with a positive family history of essential hypertension exhibited a more-marked vasodilative response to an acute interruption of the renin-angiotensin system, further suggesting inadequate angiotensin modulation of renal vascular tone. The significance of these abnormalities in relation to the development of diabetic nephropathy requires further investigation.
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PMID:Predisposition to essential hypertension and renal hemodynamics in recent-onset insulin-dependent diabetic patients. 145 59

To test the hypothesis that hyperfiltration in essential hypertension is linked to alterations in calcium metabolism, we studied the relationship between urinary calcium excretion and glomerular filtration rate (GFR, creatinine clearance) in 38 untreated essential hypertensives on a free diet. We also studied the influence of changes in calcium intake on GFR in 30 essential hypertensives (15 with well-defined hypercalciuria and 15 with normal urinary calcium excretion) and in 11 normotensive healthy subjects. In the patients on a free diet, urinary calcium excretion was directly and independently related to GFR (r = 0.56, P less than .001), while serum calcium showed an opposite trend (r = -0.27, P = .12). In patients on fixed calcium diets, GFR was significantly higher (P = .008) at low calcium intake (115 +/- 31 mL/min/1.73 m2) than at high calcium intake (98 +/- 22 mL/min/1.73 m2). Further analysis showed that the hyperfiltering effect of low calcium almost exclusively occurred in hypercalciuric patients and in hypertensive women. In hypercalciuric hypertensives there was a highly significant inverse correlation between GFR and serum calcium (r = -0.51, P = .004) and a similar correlation between GFR and plasma renin activity (r = -0.70, P = .003) in the high calcium phase of the study. Changes in calcium intake had no influence on GFR in normal subjects (Low Ca 103 +/- 22 mL/min/1.73 M2, High Ca 110 +/- 23 mL/min/1.73 m2). The data indicate that alterations in calcium metabolism interfere to an important extent with mechanism(s) regulating GFR in essential hypertension.
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PMID:Hyperfiltration and calcium metabolism in essential hypertension. 181 51

In this study, the measurement of blood pressure values, glomerular filtration rate (GFR, inulin clearance), renal plasma flow (RPF, PAH clearance), the filtration fraction (GFR/RPF), natiuresis and proximal sodium resorption (measured by lithium clearance), was performed at rest and during a computerised psychological stress test (Stroop word color conflict test) in 12 normotensive and 10 hypertensive subjects. The stress induced in the normotensives induced a significant increase of the filtration fraction and proximal tubule sodium resorption. The hypertensive kidney, submitted to a basal vasoconstriction greater than that of the normotensive kidney, does not react to stress. In the hypertensives, proximal sodium resorption occurs but is not significantly greater than at rest. In the long-term, the increased sodium resorption during stress could contribute to the development and the persistence of essential hypertension.
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PMID:[Renal function during stress in hypertensive patients]. 195 68

Genetic predisposition to essential hypertension, as indicated by increased maximal velocity of Na+/Li+ countertransport in red cells, has been suggested as a marker for the risk of developing diabetic nephropathy. To evaluate the validity of this concept in non-insulin-dependent diabetics, we measured the maximal velocity of Na+/Li+ countertransport in red cells in 18 male diabetics suffering from proteinuria due to biopsy proven diabetic glomerulosclerosis (GFR: 51 [range 27 to 146] ml/min/1.73 m2), 17 male diabetics with normoalbuminuria, and in 18 sex-, age-, and body mass index-matched healthy control subjects. Na+/Li+ countertransport was identical in patients with and without diabetic nephropathy, 0.43 (0.24 to 0.92) versus 0.44 (0.20 to 0.83) mmol/(liter cells x hr), but was elevated compared to control subjects, 0.32 (0.09 to 0.73; P less than 0.05). Arterial blood pressure was elevated in patients with nephropathy (162/92 +/- 21/9 mm Hg) compared to normoalbuminuric patients (132/82 +/- 15/7) and control subjects (133/83 +/- 14/7 mm Hg; P less than 0.001). Our study does not support the hypothesis that the risk of diabetic nephropathy in non-insulin-dependent diabetes is associated with a genetic predisposition to hypertension. Diabetes per se seems to enhance Na+/Li+ countertransport activity.
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PMID:Red cell Na+/Li+ countertransport in non-insulin-dependent diabetics with diabetic nephropathy. 200 27

Much clinical evidence supports the use of angiotensin-converting enzyme inhibitors (ACE-I) as the first-step drugs in the treatment of essential hypertension. The acute and chronic effects of ACE-I on renal function are reviewed in this paper. The kidney is an important target organ of essential hypertension and some antihypertensive drugs have been shown to decrease renal haemodynamic parameters. In hypertensives with normal renal function, ACE-I were demonstrated to be safe drugs: after acute and chronic administration of these drugs, the drop in blood pressure was accompanied by unchanged or increased GFR and RPF, with decreased renal vascular resistance. Only in patients with renovascular hypertension, with bilateral stenosis or solitary kidney, was there a deterioration in renal function.
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PMID:ACE inhibitors: antihypertensive treatment and renal function. 270 Mar 23

The effects of oral dilevalol (an R, R-isomer of labetalol), a new beta-adrenoceptor blocker with beta 2-receptor stimulating and alpha-recepter blocking properties on blood pressure, renal function, plasma renin activity (PRA) and plasma aldosterone have been studied in 15 patients with mild-to-moderate essential hypertension treated with it for 6 weeks. Two patients with apparent treatment failure and one patient who developed muscle pain and cramps, and had an elevated creatine phosphokinase level, were excluded from the study. Dilevalol monotherapy 100 mg once daily for 6 weeks significantly lowered both the systolic and diastolic blood pressure compared to placebo. Total renal vascular resistance was significantly reduced, and RBF and GFR remained unchanged. Dilevalol significantly decreased PRA. The results suggest that prolonged daily treatment with dilevalol preserves renal function and produces a concomitant hypotensive action in patients with mild-to-moderate essential hypertension. The ancillary pharmacological properties of dilevalol rather than PRA suppression may be relevant to its renal effects.
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PMID:Effects of dilevalol, an R, R-isomer of labetalol, on blood pressure and renal function in patients with mild-to-moderate essential hypertension. 290 92

We propose herein that there are two functionally abnormal nephron populations in essential hypertension: (1) a group of ischemic nephrons with impaired sodium excretion which chronically hypersecrete renin. Numerically, these ischemic nephrons comprise a minor subgroup since most patients with essential hypertension exhibit no overt evidence of renal insufficiency. (2) In reaction to this, a more numerous group of normal nephrons appears in adaptive hypernatriuresis. They have an increased distal sodium supply and consequently, a chronically suppressed renin secretion. One difference between patients with renovascular hypertension and those with essential hypertension is the intermingling of these two populations of nephrons. In our hypothesis, the adapting hyperfiltering normal nephrons accomplish the hypernatriuresis in response to saline infusion, that is characteristic of all essential hypertension. However, the unsuppressed secretion of renin, that arises from the ischemic nephron population attenuates this compensatory natriuresis in the following ways: (1) by inappropriately acting on the hyperfiltering nephrons to enhance proximal tubular sodium reabsorption; (2) by activating TGF-mediated afferent constriction in these nephrons, and (3) simultaneously, the reactive secretion of renin from ischemic nephrons is diluted by non-participation of the adapting hypernatriuretic nephrons so that plasma renin settles at a level which is insufficient to fully compensate GFR in the ischemic nephrons. These adaptive responses provide a basis for the observation that the inhibition of renin activity with converting enzyme inhibitors in essential hypertension increases renal blood flow and sodium excretion. They also explain why converting enzyme inhibitors can effectively reduce blood pressure, even when renin levels are not absolutely elevated, since any circulating renin imposed upon the adapting hypernatriuretic nephrons inappropriately impairs their sodium excretion. In addition, the theory explains why basal renin secretion is either not suppressed or inadequately suppressed in patients with essential hypertension. As a result, whole kidney homeostatic function is compromised because individual nephrons are responding to their individual stimuli to fulfil their individual need, rather than acting in concert with other nephrons. The net effect of this uncoordinated response is to shift total renal function so that systemic arterial hypertension is sustained by abnormal sodium retention for the inappropriately high plasma renin level, or vice versa.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:On the renal basis for essential hypertension: nephron heterogeneity with discordant renin secretion and sodium excretion causing a hypertensive vasoconstriction-volume relationship. 305 95

Prostaglandins PGE2, PGD2, PGI2, and PGF2 alpha, as well as thromboxanes and leukotrienes, are synthesized by the fetal and neonatal kidney. The major prostaglandin, PGE2, PGD2, and PGI2, increase RBF, free water clearance, urine flow, and natriuresis. Alterations in the synthetic and catabolic activity of renal prostaglandins with advancing gestational and postnatal age occur along with concomitant alterations in RBF, GFR, and water and electrolyte excretion, suggesting that the prostaglandins play an important role in renal functional development. Indomethacin treatment may affect both fetal and neonatal renal function. Long-term maternal indomethacin treatment may decrease fetal urine output enough to alter amniotic fluid volume. Neonatal indomethacin therapy may cause transient dose-related renal dysfunction characterized by a decrease in urine output, but this renal dysfunction also depends in part on dosage, timing of therapy, and the cardiovascular and renal status of the infant prior to treatment. New areas of research interest include urinary prostaglandins as a marker for development of essential hypertension, and the possible interaction between antenatal steroids and renal function in the newborn.
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PMID:Prostaglandins and the developing kidney. 310 70

The renal kallikrein-kinin system may participate in the diuretic, natriuretic and antihypertensive effect of diuretics. This possibility was investigated by studying the influence of hydrochlorothiazide on blood pressure and urinary kallikrein excretion in patients with essential hypertension. Furthermore, the effect of kallikrein-blockade and prostaglandin-synthesis inhibition on the acute furosemide-induced changes of diuresis, natriuresis, GFR and renal plasma flow were studied in normotensive subjects. Thiazide treatment normalized the reduced kallikrein excretion of the hypertensive patients. The fall in mean arterial blood pressure was significantly correlated with the increase in urinary kallikrein excretion. In the normotensive subjects aprotinin-induced kallikrein inhibition failed to alter the acute response to furosemide, whereas indomethacin attenuated the diuretic and natriuretic effect of furosemide. The combination of indomethacin and aprotinin had a greater suppressive effect on plasma renin activity than indomethacin alone, suggesting a participation of kallikrein in renin release. An increase in the activity of the renal kallikrein-kinin system may contribute to the long-term antihypertensive effect of thiazide diuretics but it does not seem to be involved in the acute renal responses to furosemide.
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PMID:Interactions of diuretics with the renal kallikrein-kinin and prostaglandin systems. 618 82


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