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)

Nephrotoxicity of sodium arsenate was evaluated in dogs to determine the pathophysiologic basis for renal lesions caused by this heavy metal. Examination of biopsy specimens indicated that the low dose of the As salt (0.73 mg/kg of body weight) produced histologic changes consisting of mild degeneration and vacuolation of renal tubular epithelium. Vacuolation involved mainly the ascending thick portion of the nephron. Clinical pathologic changes were not demonstrable at this dosage level according to glomerular filtration rate (creatinine clearance), fractional reabsorption of sodium, potassium, and chloride; plasma osmolar and free water clearance; and urinalysis. The medium dose (7.33 mg/kg) resulted in alterations determined by urinalysis, but did not markedly affect other clinical pathologic measurements. Histopathologic changes were equal to or greater than those seen with the low dose. Tubular necrosis was observed in the cortical portion of the nephron and the ascending thick limb. The high dose (14.66 mg/kg) consistently produced marked changes in all parameters evaluated. Clinical pathologic alterations were compatible with acute tubular necrosis involving all segments of the nephron. Histologically, moderate glomerular sclerosis and severe tubular necrosis were observed. During recovery from the high dose of As, a gradual compensatory healing process was observed that was evident in all clinical pathologic parameters and was confirmed from sequential renal biopsy specimens.
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PMID:Nephrotoxicity of sodium arsenate in dogs. 668 17

Sprague-Dawley rats given gentamicin from 10 to 70 mg/kg/day for 9 days showed a linear decrease in glomerular filtration rate with increasing dose, paralleled by histologic changes of acute tubular necrosis and cast formation only at the higher doses. Nephrotoxicity was correlated with the peak, rather than trough, serum gentamicin levels in this study, suggesting that it is the mean level of gentamicin over time that determines renal injury. The polyuria caused by gentamicin resulted mainly from a tubular concentrating defect rather than enhanced sodium or osmolal excretion and may be explained by the finding of a predominance of casts in the medullary thin limbs of the loops of Henle. No effect of gentamicin on the activity of cortical or medullary sodium-potassium adenosine triphosphatase was found to account for the modest sodium wasting. Concurrent administration of sodium cephalothin decreased the renal toxicity of gentamicin at high doses, an effect not explained by the added sodium or nonreabsorbable anion.
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PMID:Features of gentamicin nephrotoxicity and effect of concurrent cephalothin in the rat. 687 60

There are specific clinical settings in which each of the urine electrolytes may be diagnostically useful. The urine sodium alone is not efficient in differentiating prerenal azotemia from acute tubular necrosis, but if urine sodium is coupled with some measure of the renal concentrating ability, e.g., the urine:plasma creatinine ratio. discrimination between these two conditions is much improved. Usefulness of the urine sodium in other settings (evaluation of hyponatremia, prediction of acute rejection in renal transplant recipients, index of salt balance) is controversial. Urine potassium may be useful in the evaluation of hypokalemia of obscure etiology and, occasionally, in the form of the urinary Na/K ratio, as a guide to diuretic therapy. Urine chloride is assuming importance in the differential diagnosis of metabolic alkalosis, particularly when Bartter's syndrome is a consideration.
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PMID:Measurement of urine electrolytes: clinical significance and methods. 702 36

Acquired insensitivity to the nephrotoxic effects of gentamicin develops in Fischer 344 rats after 10 to 14 days' treatment after development of histologic acute tubular necrosis in a setting of extensive histologic regeneration. To determine the relative importance of aminoglycoside exposure, necrosis, and regeneration in the induction of insensitivity, we examined the effect on gentamicin toxicity of prior non-aminoglycoside-mediated tubular necrosis, antecedent nonnecrotizing aminoglycoside exposure, and unilateral Nx-induced renal tubular hyperplasia. Pretreatment with potassium dichromate, which causes tubular necrosis in the same part of the renal cortex as gentamicin, reduced gentamicin-mediated elevation of Scr but had little effect on gentamicin-related tubular dysfunction or structural damage. Pretreatment with netilmicin, which does not cause tubular necrosis, increased the sensitivity of the kidney to gentamicin; toxicity occurred earlier and was more severe. Antecedent unilateral Nx had no demonstrable effect on susceptibility to gentamicin-associated dysfunction, but histologic renal tubular epithelial regeneration and recovery from dysfunction occurred earlier, These results suggest that necrosis and/or regeneration is the major prerequisite for development of gentamicin insensitivity and that the onset of insensitivity is temporally related to the appearance of necrosis and regeneration. However, non-aminoglycoside-mediated necrosis and regeneration fail to fully-re-create insensitivity, suggesting that exposure to gentamicin is also necessary.
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PMID:Gentamicin nephrotoxicity. II. Definition of conditions necessary to induce acquired insensitivity. 711 52

This report describes light and transmission electron microscopy (LM and EM, respectively) studies of kidneys from five cases of hepatorenal syndrome. The kidneys were removed and fixed for LM and EM between 30 and 120 min after death. All patients had progressive renal failure after admission to the hospital. All cases were jaundiced, had ascites, and exhibited features of hepatic encephalopathy. LM study revealed severe acute tubular lesions (ATL) or, more conventionally, acute tubular necrosis (ATN). EM study demonstrated necrosis of the proximal tubules characterized by swelling, disorganization of the cristae and appearance of dark bodies in the mitochondria, coalescence, fragmentation or displacement of the microvilli, loss of plasma membranes, rupture of the basement membranes, and separation of the cells from the basement membranes. Rupture of tubular basement membranes (tubulorrhexis) and mitochondrial dark bodies suggest an ATN due to ischemia or induced by vasoconstrictor substance(s). Glomerular lesions were infrequent (one in five) and therefore, do not seem to have contributed to renal failure. All cases terminally had extremely low urinary sodium (11 mEq/liter), high urinary potassium (50 mEq/liter), a remarkably low urinary sodium/potassium ratio (0.26, normal = 4.27), and a low urinary osmolality (less than 400 mOsm/kg). From this study we conclude that an ATN of variable severity may be associated with the hepatorenal syndrome. Since this ATN developed without preceding shock, sepsis, or hypotension it is possible that this ATN like that in ischemic acute renal failure may be due to reduced renal blood flow and intense cortical vasoconstriction which has been reported in hepatorenal syndrome. Finally, our data imply that low urinary sodium is consistent with this pathologic lesion in this clinical setting.
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PMID:Acute tubular necrosis in hepatorenal syndrome: an electron microscopy study. 714 28

Hypokalemia in leptospirosis acute renal failure (ARF) was studied in nine patients with severe leptospirosis ARF and five patients with moderate leptospirosis ARF and compared with five patients with severe acute tubular necrosis (ATN) and eight healthy individuals. Urinary volumes of both the severe and moderate leptospirosis groups were higher than those of the severe ATN group. Leptospirosis groups had serum potassium levels lower than those found in the healthy and severe ATN groups. Serum sodium levels were lower in the severe leptospirosis group than in the moderate leptospirosis, the severe ATN, and the healthy groups. There was a positive correlation between the fractional excretion of sodium and potassium in the severe leptospirosis group as well as between serum creatinine and potassium levels in the pooled leptospirosis groups. Urinary pH in the severe and moderate leptospirosis groups was lower than in the severe ATN group. Aldosterone levels were higher in the severe leptospirosis group than in the healthy individuals. Cortisol levels were higher in the leptospirosis groups than in the healthy subjects. These results strongly suggest that hypokalemia in leptospirosis ARF is due to renal potassium wasting potentialized by aldosterone and cortisol, requiring that special attention is given to potassium replacement as well as to volume repletion in the treatment of leptospirosis ARF.
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PMID:Peculiar electrolytic and hormonal abnormalities in acute renal failure due to leptospirosis. 865 60

There are conflicting reports on the ability of aspirin as a single agent to cause acute or chronic renal failure in experimental animals. Chronic administration of aspirin alone over 18 to 68 weeks in doses of 120 to 500 mg/kg/d has been reported to cause renal papillary necrosis in rats. However, some investigators have been unable to produce renal papillary necrosis in other species or in rats given lower divided doses comparable to therapeutic doses used in humans. In a variety of rat strains, aspirin administered as a single high dose intravenously or by oral gavage produces acute tubular necrosis of proximal tubules, rarely accompanied by renal papillary necrosis in susceptible strains. Several human studies have addressed the chronic nephrotoxicity of aspirin alone or relative risk of end-stage renal disease in association with aspirin use after correction for other analgesics. With the exception of one case control study demonstrating a low, but statistically significant risk of end-stage renal disease in association with aspirin use, all other case control studies and several prospective studies have been unable to identify a significant risk of chronic renal failure in patients using aspirin alone in therapeutic doses. In healthy adults, short-term aspirin administration in therapeutic doses has no effect on creatinine clearance, urine volume, osmolar clearance, or sodium and potassium excretion. However, in predisposed individuals with glomerulonephritis, cirrhosis, and chronic renal insufficiency, and in children with congestive heart failure, short-term aspirin use in therapeutic doses may precipitate reversible acute renal failure. Acute aspirin intoxication (>300 mg/kg) frequently causes acute renal failure and doses of 500 mg/kg may be lethal. Chronic salicylate intoxication has been reported to cause reversible or irreversible acute renal failure in association with a pseudosepsis syndrome.
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PMID:Does aspirin cause acute or chronic renal failure in experimental animals and in humans? 866 25

After transplantation the kidney is subjected to rejection and other deleterious factors including ischemic damage, acute tubular necrosis, rejection and the use of cyclosporine A (CsA) or FK506. As a result, kidney damage may be generalized with azotemia as its hallmark. These tubular syndromes may cause profound changes in the acid base balance and in the level of certain blood electrolytes and minerals. As a general rule, the renal tubular acidosis (RTA) that appears early following transplantation disappears spontaneously and is predominantly a sequela to acute renal failure. On the other hand, defects occurring in the late posttransplant period are often due to chronic rejection or CsA-induced nephrotoxicity. Secondary hyperparathyroidism, urinary tract infection and obstructive uropathy may also play a contributory urinary role in the pathogenesis of RTA. Chronic RTA following transplantation may interfere with bone metabolism and at times lead to nephrocalcinosis and nephrolithiasis. Therefore, if the condition is prolonged, a supplement of bicarbonate should be given if for no other reason that to protect the skeleton. As these patients may develop either hyperkalemia or hypokalemia, treatment with potassium supplements or potassium-sparing diuretics should be carried out with caution and under constant surveillance. Furthermore, magnesium replacement may be advisable if hypomagnesemia by decreased proximal reabsorption becomes clinically evident. Tubular dysfunction may occur following renal transplantation even in patients with maintained glomerular filtration rate and may induce a number of clinical problems including deterioration of renal graft function.
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PMID:Tubular dysfunction following kidney transplantation. 893 72

The incidence of ARF in pediatric population varies according to the definition of the syndrome. If the diagnosis is based on a decrease of glomerular filtration rate (GFR), possibly accompanied by a decrease of urinary output and the sudden change of renal function indexes, then the number of patients which can be considered affected by ARF in hospital practice is high, as it comprises all the cases with functional impairment of renal function. The availability of tables with normal values of serum creatinine for different gender and age and the knowledge of the minimal urine output compatible with the normality allows a precise diagnosis of ARF. The differential diagnosis of ARF must take into account prerenal, renal and postrenal causes. Prerenal and renal ARF may be sometimes difficult to differentiate. Indexes such as sodium fractional excretion, utilizing urinary to plasma ratios of sodium and creatinine, can be helpful: values less than 1 indicate prerenal ARF, more than 2 renal ARF. The management of ARF is dependent on the causes of ARF. Prerenal ARF is normally treated by measures of volume expansion and/or removal of the underlying cause. Renal ARF requires an accurate control of water and electrolyte balance and of nutritional status and the prevention or treatment of numerous complications, which may worsen the course of the syndrome. Indications to dialysis must be evaluated every day and an assessment of nutritional status performed. All the factors which may cause hypercatabolism, such as infections, hemorrhage, low calorie intake, must be recognized and treated. This approach allows a better control of serum urea, potassium, phosphate and acidosis. Nutrition must be implemented and an adequate protein and calorie intake must be obtained, through spontaneous oral route and, whenever required, enteral and parenteral nutrition. In conclusion, patients with mild-degree, mostly of prerenal origin, ARF represent a common finding in hospital practice. Identification and prompt treatment of the underlying cause is the best prevention of acute tubular necrosis. Patients with ARF of renal origin require, in particular, daily nutritional assessment and dietary treatment to delay the onset of dialysis.
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PMID:[Management of acute renal failure in hospital practice]. 928 Sep 5

Human envenomation caused by bee or wasp stings has been reported to cause acute renal failure (ARF), usually due to acute tubular necrosis (ATN), as a frequent complication. The pathogenetic mechanisms of ATN occurring in these accidents are still unclear. In the present study, female Wistar rats weighing 150-200 g were injected intravenously with Africanized bee venom at a dose of 0.4 microl/100 g body weight and used in functional and light microscopy studies. The animals were divided into two groups: the early group was studied 3-8 h after inoculation, and the late group was studied 24-30 h thereafter. The animals showed ARF characterized by reduction of glomerular filtration rate with increasing levels of plasma creatinine. They also showed increased fractional sodium and potassium excretions, suggesting changes in the proximal portion of the nephron. The water transport through collecting tubules was reduced, with consequent diuresis, indicating functional changes in the distal portion of the nephron. These functional changes were more marked in the early group, with recovery tending to occur after 24 h. Albuminuria was also observed in this group. Light microscopy showed ATN mainly in cortex and outer medulla, with isolated necrosis in cells or small groups of cells and cast formation in the distal and collecting tubules. After 24 h frequent mitotic figures were found in the tubular epithelium. The observed ARF was due to ATN which in turn was probably caused by multiple effects, mainly hemodynamic changes secondary to cardiotoxicity and systemic vasodilation caused by the venom, myohemoglobinuria, and the direct action of the venom on tubular cells.
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PMID:Renal changes induced by envenomation with Africanized bee venom in female Wistar rats. 939 34


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