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Query: UMLS:C0920646 (renal ischemia)
 2,515 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The ability of prostaglandins to protect the kidney against ischemic and toxic renal injury was evaluated by in vivo and in vitro models of renal ischemia. The prostaglandin E1 analogue, misoprostol, was found to provide significant protection against ischemia-induced renal dysfunction in rats subjected to 40 minutes of renal artery occlusion. Misoprostol-treated rats had glomerular filtration rates almost threefold greater than control animals, although renal blood flow and renal vascular resistance were not significantly different. Improved tubular function was reflected in a lower fractional excretion of sodium and a higher urine-to-plasma creatinine ratio. Misoprostol also provided similar protection in a model of toxic renal injury produced by mercuric chloride. In an in vitro model employing primary cultures of proximal tubule epithelial cells subjected to hypoxia and reoxygenation, misoprostol limited cell death. Posthypoxic cells had apical membrane disruption and loss of microvilli when examined by transmission electron microscopy. These changes were not seen in misoprostol-treated cells. The "cytoprotective" effect was also produced by prostaglandin E2 and prostacyclin. The ability of prostaglandin E to protect against toxic and ischemic renal injury did not appear to be due to an antioxidant effect because misoprostol did not limit lipid peroxidation in vivo and did not protect against oxidant injury by tert-butyl hydroperoxide in vitro. Although the exact mechanism of prostaglandin protection was not revealed, these studies demonstrate that prostaglandins protect renal tubule epithelial cells from hypoxic injury at the cellular level independent of hemodynamic factors or inflammatory responses. Such a "cytoprotective" effect of prostaglandins may be a generalized phenomenon since it has also been demonstrated in gastrointestinal epithelium.
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PMID:Prostaglandins protect kidneys against ischemic and toxic injury by a cellular effect. 147 66

The hypothesis that dietary fish oil would protect dogs from ischemic acute renal failure was tested. Fish oil (eicosapentaenoic acid, 55 mg/kg per day, and docosahexaenoic acid, 40 mg/kg per day was given to eight instrumented, female, beagle dogs for 6 wk, while seven control dogs received vehicle. After 3 wk, unilateral nephrectomy was performed and a pneumatic cuff with flow probe was placed around the remaining renal artery of each dog. Three weeks thereafter, the cuff was inflated for 120 min. Renal function, RBF, and prostanoid excretion were measured 24 and 72 h after ischemia. In dogs receiving fish oil, blood pressure, GFR, RBF, renal vascular resistance (RVR), cholesterol, triglycerides, and prostanoid excretion were measured weekly for 6 wk. Further, cytosolic calcium was measured before and five times after fish oil. Blood pressure decreased, serum cholesterol and triglycerides decreased, and the cytosolic calcium within platelets decreased. The urinary excretion (expressed as picograms per milligram of creatinine) of the thromboxane (TX) metabolite TXB2 and the excretion of prostaglandin (PG)E2, as well as the excretion of the PGI2 metabolite 6-keto PGF1 alpha were decreased. GFR, RBF (Cl inulin and Cl para-aminohippuric acid), and RVR were not influenced by fish oil. Unilateral nephrectomy decreased GFR and RBF and increased RVR as expected, whereas it further decreased prostanoid excretion. Acute renal ischemia caused a significant, reversible decrease in GFR and urine volume in vehicle-treated animals, whereas no significant effect on renal function or urine volume was observed in animals pretreated with fish oil.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Amelioration of ischemic acute renal failure by dietary fish oil administration in conscious dogs. 147 27

Renal cortical necrosis, renal medullary necrosis, and combined renal cortical-medullary necrosis result from renal ischemia without vascular occlusion. Renal hypoperfusion and ischemic injury in infants have been ascribed to massive blood loss, hemolytic disease, septicemia, and severe hypoxemia. In a postmortem study we identified 82 cases among 1,638 autopsies during the 20 years between 1970 and 1989 in infants 3 months old or less at the time of death. The frequency of renal necrosis in autopsy cases increased significantly during the last 6 years of the study. The distribution of the renal lesion was cortical in 28, medullary in 23, and combined in 31. Forty infants carried diagnoses of congenital heart disease, 17 of asphyxial shock, 9 of sepsis, 3 of infectious myocarditis, 9 of major malformations, 4 of anemic shock, 1 of vascular malformation, and 1 of gastroenteritis and dehydration. A significantly higher proportion of babies with congenital heart disease had cortical involvement. Comparison of clinical characteristics revealed a significantly higher frequency of prematurity, respiratory distress syndrome, bleeding diathesis, and possibly sepsis in the children with congenital heart disease, suggesting that these factors are important in the pathogenesis of the renal lesion. Fourteen infants underwent cardiac catheterization; there was no demonstrable association between the renal lesions and the use of radiographic contrast medium. We conclude that severe congenital heart disease itself is a risk factor for life-threatening renal cortical and medullary necrosis.
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PMID:Renal cortical and renal medullary necrosis in the first 3 months of life. 148 35

The term nephrosclerosis is customarily used to designate a pathological entity that tends to characterize subjects with high blood pressure; it refers to a condition of diffuse fibrous replacement of renal substance secondary to ischemia from hypertension-related vascular injury. The features of parenchymal fibrosis can be distinguished from those of vasculopathies in tissue sections, parenchymal fibrosis being measured by assessing the degree of interstitial fibrosis and by counting obsolete glomeruli, while vasculopathies are measured by determining arterial intimal fibroplasia and by counting hyalinized arterioles. A series of 166 autopsies in subjects aged 25 to 92 years, selected because ample documentation of blood pressure was available, was assessed. One form of vasculopathy, arterial fibroplasia, is a better correlate of high blood pressure than is parenchymal fibrosis in this body of data. Cases with much vasculopathy and little parenchymal fibrosis occurred frequently, and these subjects were usually hypertensive. Cases with little vasculopathy and much parenchymal fibrosis were also encountered, but these subjects were usually not hypertensive. The suggested conclusion is that blood pressure relates less to the renoprival state of nephron loss than it does to renal ischemia in patients with nephrosclerosis.
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PMID:Blood pressure related separately to parenchymal fibrosis and vasculopathy of the kidney. 149 64

Functionally similar ischemic acute renal failure (ARF), as estimated by glomerular filtration rates (GFR), was induced by renal artery clamping (RAC) or intrarenal norepinephrine (NE) in rats and renovascular reactivity was examined at 1 week. With RAC-ARF induction there was total renal ischemia followed by abrupt return of renal blood flow (RBF). With NE-ARF induction there was subtotal ischemia (10-15% of basal RBF) with RBF recovery over several hours. Renovascular resistance (RVR) did not change to renal perfusion pressure (RPP) reduction in the autoregulatory range in RAC-ARF but paradoxically increased in NE-ARF. There was an exaggerated response to renal nerve stimulation in NE-ARF but no response in RAC-ARF. There was a vasoconstrictor response to intrarenal norepinephrine in the former but a negligible response in the latter. There was no vasodilation to acetylcholine in either group, but there was a normal response to prostacyclin in NE-ARF. Smooth muscle necrosis was found in 46% of resistance arterial vessels in RAC- but in only 8% of NE-ARF (p less than .001). When mean arterial pressure was reduced to 90 mm Hg for 4 h at 1 week, recurrent azotemia and fresh ischemic injury were noted in NE- but not RAC-ARF. It is concluded that different models of ischemic ARF induction result in different patterns of abnormal postischemic vascular reactivity. Differences in vascular smooth muscle and endothelial injury are due to differences in initial ischemia or rates of postischemic reperfusion.
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PMID:Renal vasculature and ischemic injury. 150 62

Renal metabolism has been studied in eight dogs before and 48 hr after a 60-min period of renal ischemia induced by clamping the left renal artery with the simultaneous removal of the right kidney, and in 12 sham-operated animals. The study involved the measurement of renal uptake and production of lactate, glutamine, glutamate, alanine, ammonium, and oxygen, and the measurement of the tissue concentrations of ATP, glutamine, lactate, alpha-ketoglutarate, aspartate, and alanine in the renal cortex. Two days after a temporary renal ischemia, the remaining kidney showed a 22% decrease in glomerular filtration rate (GFR) and a 25% decrease in renal plasma flow. Fractional sodium and potassium excretions were similar to those of control dogs. Renal production or extraction of glutamine, glutamate, alanine, ammonium, and oxygen (all expressed by 100 ml of GFR) was not significantly different in basal conditions or 2 days after ischemia, but lactate extraction was reduced in postischemic kidneys (-101 +/- 29 vs -204 +/- 38 mumol/100 ml GFR in control dogs). The cortical concentrations of glutamine and glutamate were lower in postischemic than in control kidneys. No differences were found in cortical concentration of alpha-ketoglutarate, aspartate, lactate, pyruvate, or ATP, but total nucleotides and inorganic phosphate were decreased in postischemic kidneys. It is concluded that in the recovery phase of the ischemia, a decreased lactate uptake is the main metabolic change, and total ATP production is adapted to the decrease of GFR and sodium reabsorption.
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PMID:Renal cortical intermediary metabolism in the recovery phase of postischemic acute renal failure in the dog. 153 34

Aortic and renal vascular reconstruction often involve significant renal ischemia. Profound hypothermia during renal ischemia preserves renal tissue. However, in the clinical setting of vascular reconstruction specific attempts at cooling the kidney are often impractical, and renal ischemia frequently occurs at physiologic temperatures. This study demonstrates that minimal temperature changes during renal ischemia alter the functional and morphologic outcome. Rats anesthetized with halothane underwent a right nephrectomy and placement of a snare around the left renal pedicle for 45 minutes to produce renal ischemia. Seventy-five adult male Sprague-Dawley rats, weighing 250 to 350 gm were divided into three groups based on the body temperature maintained during renal ischemia (35 degrees C, 37 degrees C, 39 degrees C). Body temperature was continuously monitored with a rectal thermistor and maintained by adjustment of a heating pad and lamp. Two postischemic protocols were followed including a creatinine assessment protocol with blood samples collected at 24, 48, and 72 hours and a histologic assessment protocol with biopsy of the kidney at 30 hours. At 24 hours after ischemia plasma creatinine concentrations were increased in rats with elevated body temperatures (35 degrees C vs 37 degrees C; [p = 0.001], 37 degrees C vs 39 degrees C; [p = 0.150]). The 30-hour histologic assessment indicated a difference in morphologic outcome (35 degrees C vs 37 degrees C; [p = 0.063], 37 degrees C vs 39 degrees C; [p = 0.016]), with proximal tubular morphology being better maintained at lower temperatures.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Minimal physiologic temperature variations during renal ischemia alter functional and morphologic outcome. 156 May 50

Renal levels of glutathione are markedly decreased during periods of renal ischemia due to catabolism to cysteine. We previously demonstrated that cysteine accumulates in the tissue as the thiol during ischemia, and resumption of blood flow causes a transient elevation of cysteine levels in the renal venous effluent and return of tissue cysteine levels to control values. In this study, the oxidation state of renal venous cyst(e)ine was determined. Although cysteine accumulated as the reduced thiol during ischemia, cysteine released into the renal vein upon blood reflow was found to be almost entirely in the disulfide form. To distinguish between oxidation of arterial cysteine and renal cysteine formed from ischemia-induced reduced glutathione (GSH) catabolism, a labeling procedure was developed to label kidney GSH with 35S without significant labeling of arterial plasma cyst(e)ine. With this procedure, the source of oxidized cysteine that appeared in the renal venous plasma after ischemia was identified as resulting from renal GSH catabolism. The data indicate that a rapid oxidative process occurs during the initial period of blood reflow to the postischemic kidney. After 35 min of ischemia, 3 mumol cysteine/g dry wt were released from the kidney and oxidized. Cysteine oxidation is also expected to generate oxygen-centered free radicals. Pretreatment of animals with deferoxamine, a iron chelator, was without effect on the relative amount of venous cysteine in the oxidized form, arguing against a role for free iron in this oxidative process.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Cysteine oxidation by the postischemic rat kidney. 159 Apr 23

Multiunit and single-unit recordings of afferent renal nerve activity (ARNA) were obtained in anesthetized spontaneously hypertensive rats (SHR) and Wistar-Kyoto (WKY) rats between 35 and 150 days of age. Intrapelvic backflow of urine at 20 mmHg excited ARNA at all ages in SHR (152 +/- 18% above control) and WKY rats (262 +/- 24%). In SHR, complete renal ischemia was more excitatory in rats older than 120 days (1,233 +/- 103%, n = 8) than in younger SHR (317 +/- 28%, n = 42). Single-unit recordings showed that this was related to the appearance of R1 chemoreceptors in older SHR and coincided with a decline in the proportion of R2 chemoreceptors in the renal nerves. Other chemoreceptive responses were identified in single units that did not show complete R1 or R2 characteristics, some of which showed responses consistent with a transformation process from R2 to R1 receptor type. R1 chemoreceptors were not present in WKY rats studied up to 150 days of age and, unlike SHR, the proportion of R2 chemoreceptors did not decline with age. Accordingly, complete renal ischemia in WKY rats caused a comparable excitation in multiunit ARNA at all ages (285 +/- 33%, n = 43). Oral enalapril from weaning to 100 days of age prevented hypertension in SHR but did not impair the responsiveness of ARNA to any stimulus. In WKY rats, enalapril treatment for the same period resulted in exaggerated ARNA response to renal ischemia (1,250 +/- 377% above control).(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Age-dependent changes in afferent renal nerve activity in genetically hypertensive rats. 159 Apr 77

The role of nucleoside uptake in the enhanced metabolic recovery seen with postischemic ATP.MgCl2 was assessed by determining the effect of S-(p-nitrobenzyl)-6-thioinosine (NBTI) on postischemic ATP recovery in rats given normal saline (NS), ATP.MgCl2, or adenosine after 45 min of bilateral renal ischemia. In NS-infused animals, postischemic administration of NBTI (250 nmol) had no significant effect on the pattern of ATP recovery. In animals given 50 mumol ATP.MgCl2, coinfusion of NBTI significantly reduced the renal ATP content 2 h after reperfusion but blocked only one-half of the enhancement in renal ATP content compared with animals given ATP.MgCl2 alone. In animals postischemically infused with [2,5,8-3H]ATP.MgCl2 (50 mumol) there was significant labeling of nucleotides, nucleosides, and bases after 2 h of reperfusion. The specific activity of the adenosine pool was consistent with significant label uptake in the form of adenosine. Coinfusion of NBTI led to a significant reduction in label incorporation into renal ATP and total adenine nucleotide pools. These data are consistent with an important role for an NBTI-sensitive nucleoside uptake mechanism in the enhanced metabolic and functional recovery observed in ischemically injured kidney treated by postischemic infusion of ATP.MgCl2.
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PMID:Role of nucleoside uptake in renal postischemic ATP synthesis. 162 13


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