Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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

This review concerns the present state of accomplishments in the study of SEM of human and experimental renal disease. Critical techniques of specimen preparation reviewed include perfusion fixation, razor tissue sectioning, alcohol cryofracture, microtome sectioning of paraffin or styrene embedded tissue, ultraplaning with glass knives of hard carbowax embedded tissues and glomerular isolation. Gold-palladium coating and heavy metal impregnation with osmium, uranium, and silver are discussed. A compendium of SEM observations of human glomerular, vascular and tubular disease is presented. Techniques for SEM of experimental renal disease are reviewed. These include latex vascular injection, freeze drying, x-ray microanalysis and use of backscattered electron imaging. Experimental models previously investigated by SEM are puromycin aminonucleoside nephrosis, daunomycin nephrosis, and N,N1-Diacetylbenzedine glomerulopathy, nephrotoxic serum nephritis, and protamine perfusion glomerulopathy. Reviewed are acute tubular necrosis caused either by angiotensin, hypotension, norepinephrine, glycerol, mercury, and unilateral renal artery occlusion, also potassium depletion nephropathy, alloxan diabetes and diphenylamine-induced polycystic disease.
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PMID:SEM of human and experimental renal disease. 52 33

An 18-year-old girl developed acute renal failure 24 hr after ingestion of potassium dichromate. Laboratory data revealed associated intravascular haemolysis. Renal histology showed features suggestive of acute tubular necrosis. She went into diuretic phase after 11 days of oliguria and subsequently regained normal renal function. Both direct toxic damage by dichromate and intravascular haemolysis may have contributed to the development of acute tubular necrosis and acute renal failure.
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PMID:Intravascular haemolysis and acute renal failure following potassium dichromate poisoning. 68 12

Renal function was evaluated in 40 patients with fulminant hepatic failure, They were divided into two groups on the basis of glomerular filtration rates greater than 40 ml/min or less than 25 ml/min. A number of patients in group 1 had markedly abnormal renal retention of sodium together with a reduced free water clearance and low potassium excretion which could be explained by increased proximal tubular reabsorption of sodium. The patients in group 2 had evidence that renal tubular integrity was maintained when the glomerular filtration rate was greater than or equal ml/min (functional renal failure), but evidence of tubular damage was present when this was less than 3 ml/min (acute tubular necrosis).
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PMID:Abnormalities of sodium excretion and other disorders of renal function in fulminant hepatic failure. 96 82

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

Kidney disease is often cited as one of the adverse effects of chromium, yet chronic renal disease due to occupational or environmental exposure to chromium has not yet been reported. Occasional cases of acute tubular necrosis (ATN) following massive absorption of chromate have been described. Chromate-induced ATN has been extensively studied in experimental animals following parenteral administration of large doses of potassium chromate (hexavalent) (15 mg/kg body weight). The chromate is selectively accumulated in the convoluted proximal tubule where necrosis occurs. An adverse long-term effect of low-dose chromium exposure on the kidneys is suggested by reports of low molecular weight (LMW) proteinuria in chromium workers. Excessive urinary excretion of beta 2-microglobulin, a specific proximal tubule brush border protein, and retinol-binding protein has been reported among chrome platers and welders. However, LMW proteinuria occurs after a variety of physiologic stresses, is usually reversible, and cannot by itself be considered evidence of chronic renal disease. Chromate-induced ATN and LMW proteinuria in chromium workers, nevertheless, raise the possibility that low-level, long-term exposure may produce persistent renal injury. The absence of evidence of chromate-induced exposure may produce persistent renal injury. The absence of evidence of chromate-induced chronic renal disease cannot be interpreted as evidence of the absence of such injury. Rather, it must be recognized that no prospective cohort or case-control study of the delayed renal effects of low-level, long-term exposure to chromium has been published.
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PMID:Chromium-induced kidney disease. 193 54

We experienced a case of a 44 year old man who had ingested potassium bromate solution for suicide attempt. Soon after the ingestion, nausea, vomiting, abdominal pain and diarrhea developed in him. Several hours later, he began to complain of auditory disturbance and, in addition, anuric acute renal failure occurred. Direct hemoperfusion and hemodialysis was performed on the patient for the treatment purpose. Five weeks later, he was released from hemodialysis procedure. Gradually, on the other hand, progressing anemia was observed until 90th hospital day, which slowly improved thereafter. Further, pruritus, lower leg pain, headache, tinnitus and loss of sense of taste, etc. were observed in the clinical course. Renal biopsy was performed on the 119th hospital day and the specimen showed the regenerative stage of acute tubular necrosis. In our case, acute renal failure was reversible and, many other clinical manifestations were observed. However slight anemia and irreversible severe auditory disturbance remained unimproved.
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PMID:[A case of acute potassium bromate intoxication]. 222 63

The physical properties and chemical composition of urine are highly variable and are determined in large measure by the quantity and the type of food consumed. The specific gravity is the ratio of the density to that of water, and it is dependent on the number and weight of solute particles and on the temperature of the sample. The weight of solute particles is constituted mainly of urea (73%), chloride (5.4%), sodium (5.1%), potassium (2.4%), phosphate (2.0%), uric acid (1.7%), and sulfate (1.3%). Nevertheless, urine osmolality depends only on the number of solute particles. The renal production of maximally concentrated urine and formation of dilute urine may be reduced to two basic elements: (1) generation and maintenance of a renal medullary solute concentration hypertonic to plasma and (2) a mechanism for osmotic equilibration between the inner medulla and the collecting duct fluid. The interaction of the renal medullary countercurrent system, circulating levels of antidiuretic hormone, and thirst regulates water metabolism. Renin, aldosterone, prostaglandins, and kinins also play a role. Clinical estimation of the concentrating and diluting capacity can be performed by relatively simple provocative tests. However, urinary specific gravity after taking no fluids for 12 h overnight should be 1.025 or more, so that the second urine in the morning is a useful sample for screening purposes. Many preservation procedures affect specific gravity measurements. The concentration of solids (or water) in urine can be measured by weighing, hydrometer, refractometry, surface tension, osmolality, a reagent strip, or oscillations of a capillary tube. These measurements are interrelated, not identical. Urinary density measurement is useful to assess the disorders of water balance and to discriminate between prerenal azotemia and acute tubular necrosis. The water balance regulates the serum sodium concentration, therefore disorders are revealed by hypo- and hypernatremia. The disturbances are due to renal and nonrenal diseases, mainly liver, cardiovascular, intestinal, endocrine, and iatrogenic. Fluid management is an important topic of intensive care medicine. Moreover, the usefulness of specific gravity measurement of urine lies in interpreting other findings of urinalysis, both chemical and microscopical.
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PMID:Relative density of urine: methods and clinical significance. 307 30

In male Wistar rats, renal adenosine triphosphate (ATP), inorganic phosphate (Pi) and intracellular pH were measured by 31phosphorus nuclear magnetic resonance (31P NMR) and correlated with renal function before, during, and for one hour after a period of 30 to 40 minutes hemorrhagic hypotension. In animals which suffered no change in these metabolites during hypotension, retransfusion immediately restored normal renal function. When metabolite changes were observed during hypotension, they occurred suddenly with severe ATP depletion, Pi accumulation, and intracellular acidosis occurring almost concurrently. Metabolic changes of this magnitude were always associated with renal dysfunction in the post-hypotensive period, which occurred even when the period of biochemical change was only 10 to 15 minutes. The abnormalities in post-hypotensive renal function resemble the pattern of change seen in human acute tubular necrosis (ATN): depressed glomerular filtration rate (GFR), urine output varying from polyuria to oliguria, decreased urine to plasma inulin ratio, increased urinary sodium concentration, increased fractional excretion of sodium, and increased fractional excretion of potassium. It is postulated that changes in renal cellular energy status during hemorrhagic hypotension distinguish pre-renal failure from early or incipient ATN.
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PMID:Acute renal failure in hemorrhagic hypotension: cellular energetics and renal function. 378 80

Nutritional therapy can be impaired if imbalances in water and electrolyte status have led to gross disorders of the cardiovascular, pulmonary, renal, metabolic, and central nervous systems. Restauration and maintenance of the functional extracellular fluid volume is the primary therapeutic goal in water and electrolyte resuscitation. Hyper- and hypoosmolar disturbances are automatically corrected by intrinsic regulatory mechanisms. Potassium deficiency or overload, or potassium disequilibrium between the intracellular and extracellular space can lead to dangerous cardiac arrhythmias. Hyper- and hypokalemia usually develop within days or even weeks and should not be corrected within a few hours. If life threatening hyperkalemia develops during acute renal failure, 20 ml 10% calcium gluconate solution can be given intravenously in order to avoid ventricular fibrillation or cardiac arrest. The discrimination between prerenal disease, acute tubular necrosis and other causes of acute renal failure is based on special investigations, such as urinary osmolality, urinary sodium concentration, clearance of creatinine, osmolar solutes, free water, and fractional sodium excretion. The clinical examination of a patient should be the basis of assessing his water and electrolyte state. Laboratory findings which are in disagreement with the clinical state have to be repeated, critically interpreted, but not completely rejected. Third space losses make fluid balance difficult.
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PMID:[Imbalances of the water and electrolyte status]. 393 12

Phosphatidylcholine, the most abundant phospholipid in renal cellular membranes, is synthesized predominantly via the Kennedy pathway in normal and growing kidney tissue. Augmented biosynthesis of phosphatidylcholine is one of the earliest responses to growth signals in renal cells. During potassium depletion, regeneration after acute tubular necrosis, and compensatory growth after uninephrectomy increased membrane phosphatidylcholine biosynthesis precedes the appearance of new organelles and surface structures and the onset of cell division. The increment in phosphatidylcholine biosynthesis in the growing kidneys of potassium-depleted rats appears to be mediated by enhanced cellular uptake of the precursor choline and activation of the enzyme cytidine diphosphocholine:1,2-diacylglycerol cholinephosphotransferase. Specific amino acids, cations, and polyamines can modify the activity of this microsomal enzyme in normal and growing renal cells. Phospholipase A also plays a regulatory role in phosphatidylcholine metabolism because inhibition of this catabolic enzyme favors phospholipid accretion and kidney growth during potassium depletion, whereas stimulation of the enzyme leads to brisk phospholipid breakdown and a decrease in tissue mass during potassium repletion.
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PMID:Phosphatidylcholine metabolism during renal growth and regeneration. 636 86


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