UMLS:C0020538 - FACTA Search

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Query: UMLS:C0020538 (hypertension)
170,190 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Glomerular hemodynamics were measured in male Sprague-Dawley rats, aged 4 to 5 months (young) or 20 to 22 months (old). Body weight (BW) and left kidney weights (KW) were higher in old rats than young (BW: 507 +/- 12 g v 342 +/- 11 g, P less than 0.001; KW: 2.0 +/- 0.1 g v 1.3 +/- 0.1 g, P less than 0.001). Arterial blood pressure (AP) was slightly higher in old rats, but within the normotensive range (106 +/- 4 mm Hg v 94 +/- 4 mm Hg, P less than 0.05). Glomerular filtration rate (GFR; factored for KW) was lower in old versus young rats (0.67 +/- 0.05 mL/min/gKW v 1.00 +/- 0.08 mL/min/gKW, P less than 0.02). The cortical surface of the kidney in old (but not young) rats showed marked heterogeneity and single-nephron (SN)GFR was measured only in filtering nephrons and was higher and more variable in old versus young rats. Glomerular blood pressure (PGC) was unchanged in old compared with young rats (53 +/- 4 mm Hg v 55 +/- 2 mm Hg). There was a significantly greater level of glomerular sclerosis (in outer cortical glomeruli) in old versus young rats, and glomerular volume was substantially greater in old rats. This study suggests that age-related glomerulopathy is not primarily mediated by glomerular capillary hypertension.
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PMID:The effect of aging on glomerular hemodynamics in the rat. 162 81

Tonic basal release of nitric oxide (NO) by vascular endothelial cells controls blood pressure (BP) in the basal state. In these studies we investigated the effects of chronic inhibition of basal NO synthesis in the rat for a 2-mo period. Significant systemic hypertension developed in chronically NO-blocked rats compared to controls. Marked renal vasoconstriction was also observed with elevations in glomerular blood pressure (PGC) and reductions in the glomerular capillary ultrafiltration coefficient (Kf). Chronically NO-blocked rats also develop proteinuria and glomerular sclerotic injury compared to controls. These studies therefore describe a new model of systemic hypertension with glomerular capillary hypertension and renal disease due to chronic blockade of endogenous NO synthesis. These observations highlight the importance of the endogenous NO system in control of normal vascular tone and suggest that hypertensive states may result from relative NO deficiency.
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PMID:Chronic blockade of nitric oxide synthesis in the rat produces systemic hypertension and glomerular damage. 163 15

Micropuncture and morphological studies were performed in four groups of rats that received subcutaneous infusions of saline or angiotensin II (ANG II) for 8 wk. Group 1 rats received saline; group 2 rats were subjected to uninephrectomy and then received saline; group 3 rats received ANG II (100 ng/min); and group 4 rats were subjected to uninephrectomy and then received ANG II (50 ng/min). In comparison with group 1 rats, group 2 rats exhibited no increase in mean arterial pressure (MAP) (group 2, 102 +/- 6 mmHg; group 1, 104 +/- 10 mmHg) or glomerular capillary pressure (PGC) (group 2, 56 +/- 3 mmHg; group 1, 55 +/- 4 mmHg). In the absence of glomerular hypertension, an increase in glomerular volume (VG) was not associated with glomerular sclerosis in group 2 rats. In contrast to group 2 rats, group 3 rats exhibited increases in MAP (161 +/- 13 mmHg) and PGC (70 +/- 7 mmHg) without any increase in VG. Glomerular hypertension was associated with development of increased albuminuria and glomerular sclerosis in group 3. Group 4 rats exhibited increases in MAP (157 +/- 18 mmHg), PGC (69 +/- 6 mmHg), and VG. These rats also developed glomerular sclerosis and significantly more albuminuria than would have been expected from simple combination of effects of uninephrectomy and ANG II infusion. Additional morphological studies were performed in two groups of rats that received ANG II for 12 wk. Over this period, uninephrectomized group 6 rats infused with ANG II (50 ng/min) developed markedly greater albuminuria and glomerular sclerosis than intact group 5 rats infused with ANG II (100 ng/min).(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Glomerular hypertrophy accelerates hypertensive glomerular injury in rats. 188 7

Spontaneously hypertensive rats (SHR) that underwent uninephrectomy (UNX) at six weeks of age were randomly assigned to receive no treatment, the calcium channel blocker, nifedipine, or the angiotensin converting enzyme inhibitor, enalapril. Both drugs reduced systemic blood pressure, however, blood pressure tended to be greater in rats given nifedipine than in those on enalapril. After six months, proteinuria and the relevance of glomerula sclerosis were significantly reduced in the two treated groups compared to values observed in untreated SHR. Kidney weight was also reduced by therapy, suggesting that both enalapril and nifedipine inhibited compensatory kidney growth. Micropuncture studies performed in similarly treated groups of rats, but at 11 weeks of age, revealed that PGC was elevated in untreated UNX SHR and reduced by both nifedipine and enalapril. These findings support the hypothesis that glomerular hypertension and renal hypertrophy are important risk factors for glomerular injury. They suggest that calcium blockers are as effective as angiotensin converting enzyme inhibitors in preventing progressive kidney damage.
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PMID:Effects of nifedipine and enalapril on glomerular structure and function in uninephrectomized SHR. 189 65

Rats are an excellent animal model in which to study the changes in renal hemodynamics associated with normal pregnancy. Midterm pregnant rats exhibit a maximal renal vasodilation leading to increases in glomerular filtration rate (GFR) and renal plasma flow (RPF). Micropuncture studies in midterm pregnant Munich-Wistar rats have shown that single-nephron GFR (SNGFR) increases, due entirely to increases in plasma flow and, importantly, glomerular capillary blood pressure (PGC) remains unchanged in normotensive pregnancy, due to parallel and proportionally similar reductions in preglomerular (RA) and efferent (RE) arteriolar resistance. Despite the chronic gestational renal vasodilation, pregnancy in normotensive rats with either normal kidneys or a variety of underlying diseases, causes no adverse changes in renal function, perhaps because the glomeruli are protected from damaging high PGC. In the presence of systemic hypertension, the renal vasodilation of pregnancy could put the maternal kidney at risk of injury due to increases in PGC. There are few renal functional studies in preexisting, essential hypertension, but micropuncture studies in spontaneously hypertensive rats (SHRs) have shown that repetitive pregnancies in SHRs cause no functional impairment. Surprisingly, SHRs demonstrated no gestational renal vasodilation, although gestational decreases in peripheral resistance certainly occur in the SHR. This absence of gestational renal vasodilation may be a protective mechanism; it remains to be determined whether hypertensive states in which renal vasodilation does occur are associated with increased risk to the maternal kidney.
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PMID:Renal hemodynamics in normal and hypertensive pregnancy: lessons from micropuncture. 199 73

The RK, DS, and UNX SHR rats are related models of progressive renal disease characterized by the presence of severe systemic hypertension and reduction in renal mass. In these models, glomerular injury is related to increased glomerular pressure and to kidney and glomerular hypertrophy. As summarized in Table 1, administration of a calcium antagonist reduces the prevalence of glomerular sclerosis in all three models. Calcium antagonists have many effects that might tend to reduce renal injury. Similar to the ACE inhibitors, they may reduce PGC, although a protective effect has been observed in some models despite persistence of marked glomerular capillary hypertension. Calcium antagonists also appear to inhibit compensatory renal growth. The observation that these drugs lessen injury in experimental hypertension has important implications for the treatment of patients with hypertension and renal disease. However, widespread use of calcium antagonists specifically to prevent kidney damage should await the results of controlled clinical trials.
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PMID:Effects of calcium antagonists on glomerular hemodynamics and structure in experimental hypertension. 202 83

Severe reduction in renal mass (greater than 50%) in the rat uniformly results in progressive glomerular injury and loss of remnant nephrons postulated to be due to increases in glomerular function (hyperfiltration) and/or size (hypertrophy). Reduction in renal mass in the rat also leads to the development of systemic and/or glomerular hypertension. To examine the independent contributions of systemic hypertension and glomerular hyperfiltration and/or hypertrophy to progressive glomerular injury, a normotensive rat remnant kidney model was developed in the Wistar-Kyoto (WKY) strain. Of the 34 WKY rats that underwent 5/6 nephrectomy, 25 remained normotensive and without evidence of morphologic glomerular injury and/or nephron loss for up to 14 to 16 weeks, despite glomerular hyperfiltration and hypertrophy comparable to that previously observed in other rat strains. Micropuncture studies at approximately six weeks after reduction in renal mass demonstrated markedly increased SNGFR in remnant nephrons of normotensive rats as compared to controls (66 +/- 7 vs. 25 +/- 4 nl/min, P less than 0.01), but glomerular capillary pressures (PGC) estimated from stop flow pressures were only slightly increased (52.7 +/- 1 vs. 47.3 +/- 1 mm Hg, P less than 0.01). These data indicate that compensatory glomerular hyperfiltration and hypertrophy after 5/6 nephrectomy may not lead to progressive glomerular injury provided hypertension does not develop. These data further suggest that in the absence of systemic hypertension, increases in PGC required for adaptive hyperfiltration, may not be sufficient to initiate progressive glomerular injury and nephron loss.
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PMID:Absence of glomerular injury or nephron loss in a normotensive rat remnant kidney model. 238 84

Reduction in functioning nephron number leads to progressive renal disease. A haemodynamic basis for this process has been suggested by studies of partially nephrectomized rats. In this model compensatory hyperfiltration in the remnant nephrons due to increases in the glomerular capillary hydraulic pressure (-PGC) and plasma flow rate is associated with eventual glomerular sclerosis. Therapeutic attenuation of these haemodynamic adaptations protects against glomerular injury. One such therapy is angiotensin converting enzyme (ACE) inhibition, which lowers systemic blood pressure and -PGC and prevents sclerosis in rats with renal ablation, as well as in the hyperfiltering kidneys of normotensive rats with diabetes mellitus. Control of -PGC with ACE inhibitor is also protective even when therapy is delayed until systemic hypertension and glomerular injury are established. In contrast, the control of systemic hypertension but not -PGC affords no protection in remnant kidney rats. Thus, control of glomerular hypertension slows the progression of renal disease.
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PMID:The role of intraglomerular pressure in the initiation and progression of renal disease. 303 76

The development of glomerular structural abnormalities in remnant nephrons, after ablation of renal mass (subtotal nephrectomy), in rats is largely prevented by the daily injection of heparin. To investigate if this protective effect of heparin is due to attenuation of glomerular hyperperfusion, hypertension and hyperfiltration, which develop in remnant nephrons soon after subtotal nephrectomy, we measured various parameters of glomerular hemodynamics at two weeks (Group 1) and four weeks (Group 2) after removal of 1-3/4 of total kidney mass in heparin-treated (Groups 1A and 2A) and untreated (Groups 1B and 2B) Munich-Wistar rats. When compared to normal non-nephrectomized rats (Group 1C), the values for glomerular capillary hydraulic pressure (PGC), glomerular plasma flow rate (QA) and single nephron filtration rate (SNGFR) in remnant nephrons were found to be markedly and similarly elevated in both Groups 1A and 1B, averaging 71 +/- 4 and 73 +/- 4 mm Hg, 229 +/- 41 and 176 +/- 13 nl/min, 58.9 +/- 6.4 and 60.8 +/- 7.8 nl/min, respectively. Thus, glomerular hemodynamic parameters two weeks after subtotal nephrectomy did not differ between untreated and heparin-treated rats. Likewise, heparin treatment did not decrease the values of PGC and SNGFR assessed four weeks after subtotal nephrectomy, with the average values being 65 +/- 2 mm Hg and 83.8 +/- 7.1 nl/min in Group 2A versus 62 +/- 4 mm Hg and 63.7 +/- 6.5 nl/min in Group 2B.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Effect of heparin on the glomerular structure and function of remnant nephrons. 319 77

In summary, both the developing atherosclerotic and FSGS lesions seem to share certain postulated pathophysiologic mechanisms, including endothelial cell injury, macrophage infiltration, hyperlipoproteinemia, and hypertension. As depicted in Figure 1, any initial glomerular injury results in flux of macromolecular substances into the glomerular mesangium. As an adjunct to increased glomerular barrier dysfunction, hyperlipoproteinemia is believed to secondarily develop from the dramatic losses of albumin, stimulating increased hepatic lipoprotein synthesis and the loss of lipoprotein lipase-activating substance into the urine which would effectively produce a reduction in circulating chylomicra and triglyceride catabolism. Certain elevated circulating lipoproteins could, theoretically, pass through the damaged glomerular filter into the mesangium, thereby enhancing the flux of macromolecules. Also associated with certain experimental glomerular disorders is the development of glomerular hypertension, as manifested by an elevated glomerular capillary hydrostatic pressure (PGC), which can further augment macromolecular flux into the mesangium. Overloading of the glomerular mesangium by the above mechanisms is believed to be an injurious stimulus for MC to both proliferate and produce excess mesangial matrix substance. Both of these events are thought to be pathologic harbingers of glomerulosclerosis. Glomerular hypertension is also capable of damaging endothelial cells within the glomerular microcirculation, and this purportedly can activate platelets and result in glomerular thrombosis. At present, it is unclear how glomerular thrombosis produces increased mesangial cell injury; however, this process is believed to cause both systemic and glomerular hypertension which may serve as intermediary mechanisms producing the untoward effects of mesangial cell proliferation and matrix overproduction.
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PMID:Focal and segmental glomerulosclerosis: analogies to atherosclerosis. 329 16

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