UMLS:C0022116 - FACTA Search

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Query: UMLS:C0022116 (ischemia)
91,303 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

We studied the effect of different chronic (3-4 weeks) dietary salt intakes on intrarenal hemodynamics of normal and mercury-intoxicated rats. Cardiac output (CO), total renal blood flow (RBF), and the zonal perfusion rate in the outer cortex (OC) and inner cortex (IC) were measured by the radioactive microsphere method. The distribution of cortical blood flow was calculated as the distribution index (DI), which reflects the ratio OC/IC. Rats were placed on a high salt diet (group I), intermediate salt diet (group II), or low salt diet (group III). For each group control rats (subgroup A) and mercury-intoxicated rats (subgroup B) were studied. No effect of the different salt intakes on the DI could be detected. The DI in group IA was 2.35 +/- 0.14; in IIA, 2.40 +/- 0.16; and in IIIA, 2.38 +/- 0.09 (P greater than 0.05). After mercury injection RBF changed from 5.32 +/- 0.36 ml/g.min(-1) (IIA) to 3.31 +/- 0.20 ml/g.min(-1), IIB and from 4.32 +/- 0.11ml/g.min(-1) (IIIA) to 1.98 +/- 0.10 ml/g.min(-1) (IIIB) P less than 0.01). The DI was lowered to 1.53 +/- 0.06 (IIB) (P less than 0.05) and to 1.16 +/- 0.10 (IIIB) (P less than 0.01). In both IIB and IIIB a marked elevation of the blood urea was noted (IIB = 97 +/- 9 MG/100 ML AND IIIB = 182 +/- 25 mg/100 ml). In group IB no effect on RBF, OC, IC, or DI could be observed (for all values, P greater than 0.05) despite similar histological renal lesions. Group IB rats also had normal blood urea levels (31 +/- 6 mg/100 ml;P greater than 0.05). We conclude (1) that variations in dietary salt intake appear to have no detectable effect on the intracortical blood flow distribution; and furthermore (2) that the mercury-induced acute renal failure (ARF) is characterized hemodynamically by a total renal and preferential outer cortical ischemia and that chronic salt loading prevents the ARF while preserving normal renal perfusion.
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PMID:Effect of variation in dietary NaCl intake on total and fractional renal blood flow in the normal and mercury-intoxicated rat. 96 34

An acute circulatory renal failure (ARF) was induced in 18 rabbits by temporary ischemia of the remaining kidney 8 days after unilateral nephrectomy and subcuteaneous autotransplantation of renomedullary tissue.--Mortality in the postischemic course was 50% in treated animals but 100% in the control group (n = 18) without autotransplantation. In the postischemic period plasma urea concentration was significantly lower (p smaller than 0.005) in the surviving transplanted animals and excretion of sodium and water significantly higher (p smaller than 0.005) as compared with the control group. Plasma renin values which were significantly lower than thos of the control(p smaller than 0.005) had decreased significantly even as compared with the initial values. These results indicate that hormonal substances are produced in interstitial cells of renomedullary autotransplants exerting a distinct protective effect against experimental acute renal failure. Decreased plasma renin activity may point to an inhibition of circulating and/or intrarenal renin by lipids originating from the transplants. Changes in sodium and water excretion indicate effects of circulating prostaglandins
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PMID:Experimental oliguric acute renal failure: protective effects of renomedullary autotransplants. 109 74

In this study, we characterized the sequence of several intrarenal events and evaluated their relative importance in the pathogenesis of unilateral oliguric acute renal failure induced experimentally in rats by complete occlusion of a renal artery for 1 hour. Kidneys were studied prior to occlusion and 1-3 hours and 22-26 hours after release of the temporary occlusion. Renal blood flow measured by an electromagnetic flow transducer was reduced to 40-50% of control during both postocclusion periods. Flow of tubular fluid was markedly reduced, and the damaged kidneys were oliguric. Proximal and distal convolutions were filled with fluid and dilated 1-3 hours after occlusion; their pressures were greatly heterogeneous and were elevated, on the average, to 31 and 16 mm Hg, respectively. Glomerular capillary pressure at this time was normal or slightly increased. Histological sections showed extensive tubular obstruction. We conclude that initially the oliguria is primarily due to intraluminal obstruction in the absence of predominant increases in preglomerular vascular resistance. Observations at 22-26 hours after occlusion indicated acute tubular necrosis. Moreover, the combined involvement of preglomerular vasoconstriction, presisting tubular obstruction, and passive backflow of tubular fluid appeared to be important in the maintenance of the oliguria. Glomerular capillary, proximal intratubular, and peritubular capillary hydrostatic pressures were reduced below control values. After acute volume expansion, the reduced pressures and renal blood flow were reversed, yet the experimental kidneys remained oliguric. Thus, it is clear that tubular obstruction is a significant factor responsible for both the genesis and the maintenance of oliguria in this experimental model of ischemia-induced acute renal failure.
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PMID:Pathogenesis of acute renal failure following temporary renal ischemia in the rat. 119 55

Acute kidney failure was produced in the anesthetized rat by 1 h of complete renal artery occlusion. Kidney function was studied either immediately after release of the occlusion or 1 day later using clearance, micropuncture, histological, and nephron dissection techniques. Polyfructosan clearance was decreased to 5% of normal after temporary occlusion. Proximal tubular pressure (PTP) averaged 13-14 mmHg in normal kidneys, 39 mmHg immediately after release of unilateral occlusion, 19 mmHg 1 day after unilateral occlusion, and 25 mmHg 1 day after bilateral occlusion. The increased PTP reduces the glomerular filtration rate (GFR). Glomerular capillary pressure, estimated from the sum of the stop-flow and arterial plasma colloid osmotic pressures, was not decreased after temporary ischemia. Single-nephron GFR, measured without intratubular pressure control, was only slightly below normal 1 day after bilateral occlusion. Most distal tubules from ischemia-damaged kidneys contained hyaline casts. Tubular obstruction is a major factor in this model of acute kidney failure.
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PMID:Kidney pressures after temporary renal artery occlusion in the rat. 126 15

It is well accepted that postischemic reperfusion promotes functional and morphological impairment which may be related to oxygen free-radical-mediated membrane damage. A new purified bioactive compound, calcitonin-gene-related peptide (CGRP), is known to be not only a potent vasodilator but also a cytoprotective agent. This study was designed to observe whether CGRP has a protective effect on the ischemic kidney. Male Sprague-Dawley rats were subjected to a 45-min period of renal ischemia followed by 60 min of reperfusion. At the beginning of the reperfusion, 12 rats were given intravenous saline and served as controls whereas 5 rats were given CGRP, 10 micrograms/kg intravenously. After reperfusion the kidneys were removed for light- and electronmicroscopy, and the lipid peroxidation product malonaldehyde (MDA) was assayed by thiobarbituric acid (TBA) colorimetry. The results demonstrated that the serum creatinine (Scr) and renal MDA content in the CGRP group were significantly lower than those in the control group. The mean values for Scr were 0.75 +/- 0.09 vs 0.93 +/- 0.05 mg/dL or 62.8 +/- 9.7 vs 82.2 +/- 4.4 mumol/L (p less than 0.05), respectively; while the mean values for MDA were 18.71 +/- 2.13 vs 30.32 +/- 1.78 nmol/100 mg (ww) (p greater than 0.05), respectively. The same signals of free radicals in the ischemic-reperfused kidney with or without CGRP were found by electron spin resonance. Morphological studies demonstrated that the treatment with CGRP ameliorated the ischemic-reperfusion injury to both renal brush borders and mitochondria. The results showed that CGRP has a protective action on ischemia-reperfusion renal injury by decreasing lipid peroxidation of membranes and suggest that it may be a beneficial agent for therapy of acute renal failure.
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PMID:The effect of calcitonin-gene-related peptide on acute ischemia-reperfusion renal injury: ultrastructural and membrane lipid peroxidation studies. 131 86

The purpose of this study was to assess whether proximal renal tubules generate excess hydroxyl radical (.OH) during hypoxia/reoxygenation or ischemia/reperfusion injury, thereby supporting the hypothesis that reactive oxygen species contribute to the pathogenesis of postischemic acute renal failure. In the first phase of the study, rat isolated proximal tubular segments (PTS) were subjected to hypoxia (95% N2- 5% CO2) for 15, 30, or 45 min, followed by 15 to 30 min of reoxygenation in the presence of sodium salicylate, a stable .OH trap. Cellular injury after hypoxia and reoxygenation was assessed by lactate dehydrogenase release; .OH production was gauged by hydroxylated salicylate by-product generation (2,3-, 2,5-dihydroxybenzoic acids (DHBA); quantified by HPLC/electrochemical detection). Continuously oxygenated PTS served as controls. Despite substantial lactate dehydrogenase release during hypoxia (8 to 46%) and reoxygenation (8 to 11%), DHBA production did not exceed that of the coincubated, continuously oxygenated control PTS. In the second phase of the study, salicylate-treated rats were subjected to 25 or 40 min of renal arterial occlusion +/- 15 min of reperfusion. No increase in renal DHBA concentrations occurred during ischemia or reperfusion, compared with that in sham-operated controls. To validate the salicylate trap method, PTS were incubated with a known .OH-generating system (Fe2+/Fe3+); in addition, rats were treated with antioxidant interventions (oxypurinol plus dimethylthiourea). Fe caused marked DHBA production, and the antioxidants halved in vivo DHBA generation. In conclusion, these results suggest that exaggerated .OH production is not a consequence of O2 deprivation/reoxygenation tubular injury.
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PMID:Evidence against increased hydroxyl radical production during oxygen deprivation-reoxygenation proximal tubular injury. 131 20

Severity of renal injury and recovery of function in acute renal failure (ARF) are strongly related not only to the magnitude and nature of ARF insult but also to numerous factors in the host which govern renal susceptibility to the insult and repair of renal lesion. Prior ARF affords resistance to a rechallenge with the same or different ARF insult. The mechanisms for this acquired resistance to ARF have not been well established, but suggested mechanisms include (a) increased resistance of regenerated tubular epithelial cells to a rechallenge, (b) glomerular refractoriness to vasoactive substances, (c) failure of damaged kidney to concentrate the toxic substance, (d) enhanced antioxidant enzyme activity in glomeruli, and (e) increased Na(+)-K(+)-ATPase activity in regenerated tubular epithelial cells. Controversy still exists regarding roles of these factors in the resistance to renal failure. Functional and morphologic recovery of postischemic kidney is enhanced by antecedent unilateral nephrectomy but delayed in the presence of the contralateral kidney. The mechanisms for the effect of uninephrectomy remain unsettled. Recent studies suggest contributions of changes in preglomerular vascular resistance; alterations in the environment which follow ischemia to all functioning excretory renal tissues; and altered production and release of vasoactive substances such as angiotensin, endothelin, thromboxane, and atrial natriuretic peptide.
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PMID:Factors affecting severity of renal injury and recovery of function in acute renal failure. 132 11

We have recently reported that administration of the ANF analog A68828 improves renal function in an acute model of postischemic acute renal failure. The current investigation examined the question whether a short-term infusion of A68828 can attenuate the long-term decrement in renal function following an ischemic event. Acute renal failure was induced in male Sprague-Dawley rats (200-250 g) by complete occlusion of both renal arteries for 30 min. During the initial 60 min following ischemia, vehicle (0.1% BSA in saline), A68828 (10 micrograms/kg/min); dopamine (10 micrograms/kg/min); A68828 (10 micrograms/kg/min) plus dopamine (10 micrograms/kg/min); or ANF[1-28] (0.5 microgram/kg/min) were infused intravenously. In vehicle-treated animals, a very large increase in plasma creatinine was observed, with peak levels at 2 days postischemia (5.5 +/- 1.2 mg/dL). A68828 alone, A68828 with dopamine, or ANF[1-28] infusion attenuated the rise in plasma creatinine levels by approximately 50% on each day of the study; dopamine alone was no different from vehicle-treated controls. Gross histological examination of kidneys on the fourth day postischemia revealed that significantly less damage occurred only in the group treated with A68828 alone. These results indicate that infusion of a reduced-size analog of ANF for a brief period in the postischemic kidney improves renal function and lessens tissue damage as evaluated several days after the ischemic event. Furthermore, dopamine infusion provides no discernable beneficial effect.
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PMID:Beneficial effect of the ANF analog A68828 on recovery from ischemic acute renal failure. 138 56

The role of neutrophils (PMN) in acute renal failure (ARF) is controversial. Although the development of acute renal failure (ARF) frequently occurs in situations where there is partial activation of PMN (primed PMN) and mild renal ischemia, the interaction between primed PMN and ischemic organs has not been studied in any biological system. To define the interaction between primed PMN and mild renal ischemia, kidneys were made ischemic for 10 minutes in situ and reperfused by the isolated kidney technique with untreated PMN or PMN primed with low concentrations of lipopolysaccharide (LPS) or phorbol myristate acetate (PMA). We found that primed PMN had no effect on control (non-ischemic) kidneys and that untreated PMN did not cause injury to kidneys previously subjected to mild ischemia. However, addition of primed PMN to mildly ischemic kidneys caused severe injury. To determine the nature of renal injury, ischemic kidneys were reperfused with primed PMN and catalase (CAT) or the elastase inhibitor, Eglin C. In ischemic kidneys reperfused with LPS-primed PMN, Eglin C (but not CAT) was partially protective while in ischemic kidneys reperfused with PMA-primed PMN, CAT (but not Eglin C) was partially protective. Reperfusion with both CAT and Eglin C completely prevented the damaging effects of either LPS- or PMA-primed PMN. In conclusion, addition of primed but not untreated PMN causes ARF in mildly ischemic kidneys by PMN oxidant- and/or protease-mediated mechanisms. This synergism could account for the high frequency of ARF in conditions associated with prerenal azotemia and primed PMN.
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PMID:Mild renal ischemia activates primed neutrophils to cause acute renal failure. 140 39

Experimental ischemic acute renal failure results in disruption of proximal tubule apical membranes. Previous work utilizing immunofluorescence with an anti-actin antibody has demonstrated that the apical cytoskeleton of proximal tubule cells is disrupted during ischemic injury. In this study, using rhodamine-phalloidin which stains only filamentous actin, we demonstrate that graded durations of ischemia resulted in progressive disruption of proximal tubule apical microfilaments. Quantification using spectrofluorometry showed that 5, 15 and 50 minutes of ischemia resulted in 32.8 +/- 4%, 48.8 +/- 2.5%, and 58.4 +/- 2.6% decreases in apical F-actin relative to controls. Ischemia did not qualitatively affect either glomerular or distal tubule F-actin structure, though there were nonprogressive increases in glomerular fluorescence. In summary, rhodamine-phalloidin staining can be used to qualitatively and quantitatively assess proximal tubule microfilaments in vivo. We conclude that ischemia results in very early loss of proximal tubule apical microfilaments, with the majority of F-actin loss occurring within five minutes.
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PMID:Microfilament disruption occurs very early in ischemic proximal tubule cell injury. 145 83

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