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Query: UMLS:C0022672 (acute tubular necrosis)
 2,175 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The mechanism by which amino acid infusion stimulates membrane physpholipid biosynthesis during renal regeneration after mercuric-chloride-induced acute tubular necrosis was studied in the rat. Amino acids can act directly on regenerating renal tissue to enhance net phospholipid synthesis because preincubation of cortical slices with amino acids induced an increase in [14C]-choline incorporation into phospholipid without altering the rate of breakdown. This amino acid stimulation of phospholipid biosynthesis was studied further by measuring [14C]-choline accumulation and its sequential conversion to phosphorylcholine, cytidine diphosphocholine (CDP-choline), and phosphatidylcholine via the Kennedy pathway in regenerating renal tissue. [14C]-Choline accumulation was increased after amino acid infusion, compared to glucose infusion. There were also increments in the Vmax of the choline kinase reaction, which converts entering [14C]-choline into [14C]-phosphorylcholine, and of the cholinephosphotransferase reaction in which [14C]-CDP-choline is incorporated into [14C]-phosphatidylcholine, whereas the apparent Km of each reaction was unchanged. Thus, amino acids infused after tubular necrosis can act directly on regenerating renal cells to increase precursor availability and augment two reactions of the phospholipid biosynthetic pathway.
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PMID:Amino acid-mediated stimulation of renal phospholipid biosynthesis after acute tubular necrosis. 48 Jul 86

Acute renal failure due to intravascular hemolysis is a common clinical problem in North Indian patients. It constituted 21.5 percent of 325 patients dialyzed for acute renal failure over an 11-year period at Chandigarh. Thirty patients had developed acute intravascular hemolysis in association with erythrocyte glucose-6 phosphate dehydrogenase (G-6PD) deficiency, 17 due to copper sulphate intoxication and 8 due to envenomation by snakes. Less frequent causes were insect stings, incompatible blood transfusion, intake of anti-leprosy drug--dapsone in non-G-6PD-deficient patients, and mercuric chloride toxicity in two patients each; naphthalene poisoning in one; and uncertain causes in six patients. Renal histology was available in 55 patients. Acute tubular necrosis was seen in 54 and bilateral diffuse cortical necrosis in one patient. Fifty patients (71.43 percent) survived and 20(28.6 percent) diet. G-6PD erythrocyte deficiency, which is present in 4.5 percent of the North Indian population, was the most frequent cause of acute renal failure in this group.
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PMID:Acute renal failure due to intravascular hemolysis in the North Indian patients. 60 54

Gram-negative bacterial infections were documented in 6 neonatal New World camelids (5 Ilamas and 1 alpaca). The organisms isolated from blood before death or from multiple organs after death were Escherichia coli (n = 3), Actinobacillus sp (n = 1), and Klebsiella pneumoniae (n = 1). Only 2 crias survived, and 1 became blind secondary to retinal detachment and ocular inflammation, which developed after treatment for bacterial infection. Abnormal events during the perinatal period (prematurity, dystocia, cesarean section, weak at birth) were reported in all 6 crias. Signs of depression, convulsions, and/or coma were observed in all animals. Diarrhea and respiratory distress were also noticed in the 3 crias that died shortly after admission. Serum immunoglobulins were assessed, but without the benefit of a stall-side test specific for Ilama immunoglobulins. All crias were suspected to have poor transfer of maternal immunoglobulins. Hemograms and serum biochemical values prior to the initiation of treatment were obtained on 5 of the 6 crias. Total nucleated cells ranged from 1,400 to 23,100 cells/microliter. Four of the 5 crias has a left shift, and 2 crias had toxic neutrophils. Serum glucose concentrations, measured in 5 of 6 crias, ranged from 83 to 293 mg/dl. Serum creatinine values were high in 2 of 5 crias, 1 of which had acute tubular necrosis. Three crias with high serum electrolyte (sodium, chloride, or potassium) values subsequently died. Arterial blood gas values were assessed in 3 crias, 1 of which had respiratory alkalosis and mild hypoxemia.
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PMID:Gram-negative bacterial infection in neonatal New World camelids: six cases (1985-1991). 142 94

Male adult Sprague-Dawley rats were treated for 14 days with either rapamycin (RAP, 1.5 mg/kg/d i.p.) in carboxymethylcellulose (RAP/CMC) or polyethyleneglycol (RAP/PEG), cyclosporine (CsA, 15 mg/kg/d by gavage) or with the appropriate drug vehicles. Biochemical indices of renal function and integrity were determined throughout the experimental period, at the end of which the rats were killed and kidneys examined histologically. All animals gained weight at a similar rate to untreated animals except those treated with RAP; RAP/PEG animals were lighter on day 14 compared with day 0 values, whilst RAP/CMC animals were lighter only in comparison with CMC-only controls on day 14. Significant increases in urinary flow rate (UFR) were found in each drug treatment group. RAP/CMC, RAP/PEG and CsA caused mild renal functional impairment, but only with CsA was there a significant reduction in 51Cr-EDTA clearance. Significant enzymuria, resulting from drug but not vehicle administration, was observed only in the CsA-treatment group. Increased plasma and urinary glucose levels, elevated in all drug-treatment groups, were related to increased UFR. Kidneys of RAP-treated rats appeared normal, whereas mild, focal, acute tubular necrosis was evident in all CsA-tested animals. Pancreases of all drug-treated animals were histologically normal.
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PMID:The effect of rapamycin on renal function in the rat: a comparative study with cyclosporine. 168 33

Sprague-Dawley rats were treated for 14 days with rapamycin (RAP; 1.5 mg/kg/day i.p.), cyclosporine (15 mg/kg/day by gavage), both drugs in combination, or appropriate drug vehicles. Hematological parameters and biochemical indices of renal and hepatic function were determined throughout the experimental period, at the end of which the rats were killed and tissues examined histologically. There was a significant reduction in weight gain in RAP- but not CsA-treated animals, while rats given both drugs showed a reduction in body weight over the 14-day experimental period. There were no significant alterations in absolute or differential white blood cell counts or in T or B cell numbers, except in the drug combination group, in which an absolute lymphopenia was detected on day 14. Small but significant increases in urinary flow rate (UFR) were found with either drug alone, and there was a marked (4-fold) increase in UFR in response to drug combination. Both RAP and CsA caused a small elevation in serum creatinine concentrations, but only with CsA was there a significant elevation in urinary enzyme activity and reduction in 51Cr. EDTA clearance. The drug combination exacerbated renal impairment, the extent of which was greater than the additive effect of either drug alone. Hyperbilirubinemia of similar magnitude was observed in rats receiving either CsA alone or in combination with RAP. In contrast to its effect on renal function, however, the CsA+RAP combination was without additional effect on liver function compared with the minor changes seen with either drug alone. Plasma and urinary glucose levels were elevated in all drug treatment groups and especially in animals given both drugs. RAP administration did not significantly affect whole-blood CsA concentrations, although the possibility of a pharmacokinetic interaction cannot be totally excluded. Histological studies revealed striking thymic medullary atrophy in all drug-treated animals. In addition, all rats given RAP showed focal myocardial necrosis of overall mild-moderate severity. Kidneys of RAP-treated rats appeared normal, whereas mild, focal, acute tubular necrosis was evident in all CsA-treated animals. Pancreases of all drug-treated animals were normal.
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PMID:Toxicity of rapamycin--a comparative and combination study with cyclosporine at immunotherapeutic dosage in the rat. 187 90

Both chromate and citrinin have been shown to produce acute renal damage. Although both substrates act on the proximal tubule in the rat, they affect different parts of that nephron segment. As with most nephrotoxicants, the mechanism(s) or subcellular target(s) for citrinin or chromate is unknown. The availability of methodology for isolation of functional membrane vesicles has afforded the opportunity to study the plasma membrane as a target for the effects of citrinin and chromate. Whether studied solely with in vitro conditions or after administration to the rat, chromate exhibited its primary action on the basolateral (BL) membrane vesicles. This was exhibited by a reduction in the p-aminohippurate (PAH) overshoot. At both 3 and 16 hr after treatment (40 mg/kg, sc) there was a significant, but relatively modest, effect on glucose transport by brush border (BB) vesicles. Citrinin, when studied in vitro, inhibited PAH transport (BL vesicles), but had only equivocal effects on BB glucose transport. However, after pretreatment of the rats with citrinin (60 mg/kg, ip), both BL and BB membrane vesicle function was reduced markedly at 3 hr. By 16 hr, an overshoot had returned for both transport substrates, although the glucose overshoot was still significantly below control. These data demonstrate that both citrinin and chromate alter proximal tubular cell membrane function and do so relatively early after administration to the rat. This effect suggests that alteration of membrane function by these nephrotoxicants is an early, if not initiating, event in the production of acute tubular necrosis.
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PMID:The effects of potassium chromate and citrinin on rat renal membrane transport. 188 11

Rats were injected intraperitoneally with HgCl2 at doses of 2.5, 5, 7.5, and 10 mumol of Hg/kg. Urine was collected over a 24-hr period. At this time, plasma samples were taken and kidney damage was assessed by histological examination. Urinary gamma-glutamyltransferase levels were significantly elevated at Hg2+ doses of 7.5 and 10 mumol/kg, consistent with the detection of acute tubular necrosis by light microscopy. Resonances for a large number of low molecular weight metabolites were assigned in high resolution 1H NMR spectra of rat urine. Spectra from small volumes of urine (about 0.5 ml) were obtained in less than 5 min with no pretreatment. Significant Hg2+ dose-related decreases in the excretion of creatinine and citrate and increases of glucose, glycine, alanine, alpha-ketoglutarate, succinate, and acetate were detected. Elevated levels of lactate and creatinine in plasma of rats receiving the two highest doses were found by 1H NMR. There was a good correspondence between the histopathology, enzyme excretion, and 1H NMR urinary metabolite fingerprints in the assessment of Hg2+-induced renal damage. 1H NMR provided a sensitive measure of mercury-induced nephrotoxic lesions, and information on the molecular basis of mercury cytotoxicity was derived from the abnormal patterns of metabolite excretion. These suggested that primary metabolic effects of mercury were upon mitochondrial metabolism, in particular inhibition of certain citric acid cycle enzymes leading to decreased utilization of alpha-ketoglutarate and succinate by the renal tubular cells. The decrease in urinary citrate associated with Hg2+ dosing was attributed to intracellular, tubular acidosis with concomitant enhanced citrate reabsorption. The acidosis was assumed to arise from a combination of the inhibition of tubular carbonic anhydrase and a mild metabolic lactic acidosis due to increased activity of anaerobic pathways in the kidney. The possible extension of the 1H NMR techniques to the investigation of the nephrotoxic potential of other compounds and drugs is discussed.
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PMID:Proton NMR spectra of urine as indicators of renal damage. Mercury-induced nephrotoxicity in rats. 286 May 59

The pathogenetic factors leading to acute renal failure (ARF) in 223 children between the ages of 20 days and 14 years were studied. Diarrhoeal diseases were responsible for ARF in 49.8%, acute glomerulonephritis in 34.1%, drug induced intravascular hemolysis in glucose -6-phosphate dehydrogenase deficiency in 4.5%, snake bite in 4%, hemolytic uremic syndrome in 2.2%, and miscellaneous causes in 5.4%. Dialysis was instituted in 178 children and the others were treated conservatively. Renal histology in 39 out of 76 children who presented with an acute nephritic illness revealed acute endocapillary proliferative glomerulonephritis in 27 and crescentic glomerulonephritis in 12. The histology in 79 out of 147 remaining patients showed acute tubular necrosis in 64, acute cortical necrosis in 13, and acute interstitial nephritis in 2. Overall mortality was 27.4%. This high incidence of ARF due to infective diarrhoeas and dysentery reflects poor socio-economic and hygienic conditions, inadequate facilities in rural areas, delays in seeking medical advice, and lack of knowledge about fluid and electrolyte therapy amongst the staff.
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PMID:Acute renal failure amongst children in a tropical environment. 358 35

Male Fischer 344 rats classified as young (2-4 months), middle-aged (12-14 months) and aged (22-25 months) received 300, 600 or 800 mg/kg acetaminophen (APAP) intraperitoneally and were sacrificed 24 hr later. Blood urea nitrogen (BUN) concentration and urinary glucose and osmolality were determined. In addition, kidneys were evaluated for histopathological changes. APAP did not affect osmolality or BUN concentrations and failed to produce lesions after any dose in young rats. Osmolality was decreased 40% and 50% in middle-aged and aged rats, respectively, after 800 mg/kg APAP. Glucosuria was prominent in aged rats after the 600 and 800 mg/kg doses were administered, while middle-aged rats showed little glucosuria after these doses. BUN concentrations were elevated 89% and 183% in middle-aged and aged rats, respectively, given 600 mg/kg APAP; after 800 mg/kg, BUN concentrations were elevated approximately four-fold in both age groups. Pathological evaluations showed a greater incidence of acute tubular necrosis (ATN) in aged kidneys compared to kidneys of middle-aged rats after 600 mg/kg, while the two older groups exhibited similar, more severe ATN after 800 mg/kg APAP. These data suggest an age-related increased susceptibility of male Fisher 344 rats to APAP nephrotoxicity.
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PMID:Age-related increased susceptibility of male Fischer 344 rats to acetaminophen nephrotoxicity. 379 97

Immunological events in the acute, recovery and convalescent stages of typhoid fever were correlated with the occurrence of renal disease in 24 consecutively selected patients. Serum complement levels (C3) were significantly reduced in patients with renal disease during the acute state (p less than 0.01) and increased to normal levels in the recovery phase. IgG and IgM immunoglobulin levels were significantly lower than control values in all three stages (p less than 0.05). While IgA levels were elevated to above control levels in patients with and without renal disease in all three stages, IgA levels were lower in patients with renal disease compared to those without renal involvement in the acute stage (p less than 0.025). The percentage of T cells was increased significantly in all three stages (p less than 0.01). Seven patients showed renal abnormalities. All of them had glomerular disease demonstrated by proteinuria of 1.0 g or greater per 24 h, associated with significant haematuria. Almost all of these patients were glucose-six-phosphate-dehydrogenase (G.6.P.D.) deficient. Serum blood urea nitrogen was elevated in five of these patients who were G.6.P.D. deficient, and two of them developed classical acute tubular necrosis. It appears that renal involvement in typhoid fever commonly occurs as transient glomerular or tubular disease in G.6.P.D. deficient individuals. Glomerular disease is associated with a decrease in serum complement (C3) level in acute stage.
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PMID:Immunological and clinical aspects of kidney disease in endemic typhoid fever in Iran. 660 45


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