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)

The incidence of in-hospital acute renal failure (ARF) due to drugs is estimated at 20% of all patients hospitalized for ARF. According to recent surveys, analgesic and non-steroidal anti-inflammatory drugs are now more frequently involved than antibiotics. The incidence of ARF in patients taking angiotensin-converting enzyme inhibitors is increasing. More than half of the patients have a non-oliguric course. Acute tubular necrosis and acute interstitial nephritis are found in most biopsied cases. The mortality rate ranges between 6% and 12%. Most patients recover but 15% to 20% have some degree of residual renal impairment, particularly older and oliguric patients, those with previous chronic renal insufficiency and whose ARF period is prolonged. The long-term renal effects of NSAIDs is a concern. ARF due to drugs is a preventable disease since two-thirds of patients received inappropriately high or prolonged doses of the offending drug and or were patients at risk to develop ARF.
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PMID:[Acute kidney failure induced by drugs or contrast media]. 756 90

Although malaria has been largely eradicated from temperate countries, it is on the increase in the tropics. Infection with Plasmodium falciparum affects a vast number of people and kills over a million annually. Severe malaria is a multisystem disease affecting particularly the central nervous system (causing coma and convulsions), the kidneys (resulting in acute tubular necrosis), and the liver (contributing to lactic acidosis and hypoglycaemia). Acute pulmonary oedema (acute respiratory distress syndrome) may occur in adults particularly in association with renal impairment. In children these symptoms are rare, whereas hypoglycaemia, lactic acidosis and severe anaemia are more common. Malaria should be suspected in any febrile patient living in or returning from the tropics, and a blood smear examined. Chloroquine has been the mainstay of antimalarial treatment for the past 40 years, but resistance in P. falciparum is now widespread throughout the tropics and has recently been recognised in P. vivax from Oceania. Sulfadoxine-pyrimethamine resistance is also common. Fortunately, quinine, and the newly introduced compounds, halofantrine and mefloquine, can be relied upon nearly everywhere. The most rapidly acting and effective of all antimalarial drugs, artemisinin and its derivatives, have come from China. They offer a genuine prospect of reducing mortality from malaria in the tropics.
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PMID:Clinical malaria in the tropics. 833 22

A 76-year-old man had biopsy-proven acute tubular necrosis (ATN) after intravenous administration of 3 doses of 60 mg of pamidronate (Aredia) over a 2-week period. Pamidronate was given to treat hypercalcemia of unknown etiology. Other potential causes of acute renal failure were excluded with appropriate investigations. The patient's preexisting renal impairment in the context of high-doses of pamidronate might have been a potentiating factor for nephrotoxicity. The ATN encountered in this patient resolved; however, short-term hemodialysis was needed. To the best of our knowledge, this is the first reported case of short-term, high-dose pamidronate-induced ATN in the absence of concomitant nephrotoxins. Although necrotic and apoptotic cell death after bisphosphonate administration has been seen in a variety of cells, the exact mechanism of nephrotoxicity is unknown. This report presents a case of pamidronate-induced ATN and discusses the potential mechanisms of bisphosphonate-induced nephrotoxicity.
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PMID:Short-term, high-dose pamidronate-induced acute tubular necrosis: the postulated mechanisms of bisphosphonate nephrotoxicity. 1277 36

NSAIDs are commonly used drugs. Even with the advent of selective COX-2 inhibitors, nephrotoxicity still remains a concern. The adverse effects of NSAIDs are mediated via inhibition of prostaglandin synthesis from arachidonic acid by non-specific blocking of the enzyme cyclooxygenase leading to vasoconstriction and reversible mild renal impairment in volume contracted states. When unopposed, this may lead to acute tubular necrosis and acute renal failure. NSAIDs also produce interstitial nephritis with or without nephrotic syndrome secondary to minimal change disease. Although this presents as acute renal failure, it can progress in some cases to chronic renal failure. Papillary necrosis has been incriminated in the development of chronic renal failure secondary to NSAIDs. In patients on long term NSAIDs without acute or chronic renal failure, subclinical renal dysfunction such as reduced creatinine clearance and impaired urine concentrating ability has been shown to be present. Although this sub-clinical dysfunction is reversible on withdrawal of NSAIDs, some reports have suggested a persistent residual dysfunction. Even with a wide range of NSAIDs at our disposal, a renal safe NSAID is yet to be discovered.
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PMID:NSAIDs and kidney. 1584 59

Toxic nephropathy is an important cause of reversible renal injury. This article focuses on the nephrotoxicity of several new therapeutic compounds. Selective cyclooxygenase-2 inhibitor is associated with sodium retention, hypertension, ankle edema, and acute renal failure. The incidence of renal complication is similar to conventional nonsteroidal anti-inflammatory drugs. Bisphosphonates, especially when used in high dose for prolonged duration, can cause toxic acute tubular necrosis and renal failure. Pamidronate is also associated with a specific form of collapsing focal segmental glomerulosclerosis similar to one found in patients with human immunodeficiency virus (HIV) infection. Acyclic nucleoside phosphonate, a new group of antiviral agents, can cause Fanconi-like syndrome and progressive renal impairment. On the other hand, indinavir, a potent protease inhibitor for the treatment of HIV infection, can cause crystalluria, renal stone, acute tubular obstruction and chronic interstitial nephritis. Intravenous immune globulin and hydroxyethyl starch, a new plasma expander, are associated with acute renal failure with characteristic renal histology known as osmotic nephrosis. In short, physicians should be cautious about possible renal toxicity during the use of any new therapeutic agents.
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PMID:Nephrotoxicity related to new therapeutic compounds. 1595 51

IgA nephropathy (IgAN) is an important cause of progressive kidney disease with 25-30% of patients developing end-stage renal disease within 20 years of diagnosis. There is still no treatment to modify mesangial IgA deposition and available treatments are those extrapolated from the management of other patterns of chronic glomerulonephritis. There remains no consensus on the use of immunosuppressive agents for treatment of progressive IgAN and this is compounded by the relative lack in IgAN of randomized controlled trials relevant to current clinical practice. Patients with recurrent macroscopic hematuria or isolated microscopic hematuria and proteinuria <1 g/24 h require no specific treatment. Those with nephrotic syndrome and minimal change on renal biopsy should be managed as for minimal change nephropathy. There is no evidence to support the use of corticosteroids for nephrotic IgAN outside this group of patients. Patients presenting with acute renal failure require evaluation to distinguish acute tubular necrosis, which requires supportive therapy only, from crescentic IgAN, for which treatment with cyclophosphamide and corticosteroids in a regimen similar to that for renal small vessel vasculitis is indicated in the absence of significant chronic histologic injury. Patients at greatest risk of progressive renal impairment are those with hypertension, proteinuria >1 g/24 h, and reduced glomerular filtration rate at diagnosis. All such patients should be treated to a blood pressure of 125/75 mm Hg with dual blockade of the renin-angiotensin system with angiotensin-converting enzyme inhibition and angiotensin receptor blockade. At present, there is insufficient evidence for the additional use of immunosuppressive agents, antiplatelet agents, or anticoagulants.
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PMID:Treatment of IgA nephropathy. 1705 Dec 61

Malaria is an infectious disease caused by plasmodium, which lives and breeds in human blood cells, and is transmitted through the bites of Anopheles mosquitoes. Renal impairment, often caused by malaria, is acute renal failure (ARF) due to acute tubular necrosis (ATN). Dengue virus is transmitted from human to human through Aedes aegypti mosquito bites. Dengue hemorrhagic fever (DHF), the most severe stage of infection, is characterized by bleeding and shock tendencies (dengue shock syndrome, DSS). ARF is a less common complication in patients with DHF, with an incidence of less than 10%. Mixed infections of two infectious agents may cause overlapping symptoms and have been reported in Africa and India. We report here a patient with ARF due to mixed infection of severe malaria and DSS. The patient presented with fever and had a history of repeated malaria infection. Physical examination revealed stable vital signs and hepatosplenomegaly. Laboratory data showed hemoconcentration, thrombocytopenia and increased serum aminotransferase. Chest X-ray showed pleural effusion. A malarial antigen and thick smear examination showed the trophozoite stage of P. falciparum. On Day 3, blood pressure dropped to 80/60 mmHg, pulse was 120 beats/minute, weak, and body temperature 36.8 C, with icterus. Other tests revealed an increase of serum urea nitrogen and creatinine levels, and serologically anti-dengue IgG antibody (+) and anti-dengue IgM antibody (-). Based on these findings, we diagnosed the patient as having both malaria and DDS. We treated the patient with the parenteral anti-malarial agent, artemisinin. Supportive treatment and treatment of complications were also performed simultaneously for DSS. The patient experienced an oliguria episode but responded well to a diuretic. The patient was discharged after clinical and laboratory examinations showed positive progress.
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PMID:Acute renal failure in a patient with severe malaria and dengue shock syndrome. 1900 May 45

The two most widely used experimental models of advanced liver disease are the administration of carbon tetrachloride, and common bile duct ligation (BDL), however, neither has been systematically evaluated as a model of hepatorenal syndrome (HRS). The BDL model in rats, studied at diverse time points, induced a progressive renal dysfunction without structural changes in the kidney. The authors concluded that BDL is a good model for further studies of HRS and its treatment. However, the renal impairment observed at the acute phase of the BDL model is based on a different pathophysiology than that of HRS. Specifically, in acute obstructive jaundice, cholemia predominates over parenchymal liver disease (reversible at this stage without portal hypertension or cirrhosis) and independently induces negative inotropic and chronotropic effects on the heart, impaired sympathetic vasoconstriction response and profound natriuresis and diuresis that might lead to volume depletion. In addition, systemic endotoxemia contributes to the prerenal etiology of renal impairment and promotes direct nephrotoxicity and acute tubular necrosis. On the other hand, the renal failure observed in the chronic BDL model (with development of biliary cirrhosis, portal hypertension and ascites) shares pathophysiological similarities with HRS, but the accordance of the chronic BDL model to the diagnostic criteria of HRS (e.g. absence of spontaneous bacterial peritonitis, no renal function improvement after plasma volume expansion) should have been confirmed. In conclusion, we think that the BDL model is not suitable for the study of the natural history of HRS, but the chronic BDL model might be valid for the study of established HRS and its potential therapies.
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PMID:Bile duct ligation in rats: a reliable model of hepatorenal syndrome? 1868 Feb 30

The preoperative evaluation of patients with renal disease does not begin with the anaesthesiologist's visit, but with the evaluation and care given by the primary physician. To decrease postoperative morbidity and mortality, an optimal preoperative preparation is essential. The kidney is highly sensitive to perioperative hypoperfusion. Basically the medullary oxygenation with its high rate of oxygen extraction (about 79% of the delivered oxygen) is vulnerable to hypoxia, which may lead to acute tubular necrosis. The main goal of perioperative care is to avoid hypoperfusion and therefore hypoxia of the kidney. A perioperative equalized intravascular fluid balance (normovolaemia) seems to be the most effective strategy to prevent postoperative renal dysfunction. On the other side, the anaesthesia management depends on the renal function. The dosage of anaesthetics must be adapted to an impaired renal capacity. Accurate assessment of the renal function relies on laboratory determinations. The most useful laboratory tests are those related to the glomerular filtration rate (GFR), which represents the renal function. The measurement of the creatinine clearance is the most precise method available for clinically assessing overall renal function (really GFR). Measurement of creatinine clearance by 24-hour urine collection is uncomfortable and highly error-prone. For the estimation of GFR, the use of the Cockroft-Gault or the MDRD (Modification of Diet in Renal Disease) formula is recommended. The renal impairment is grouped according to the glomerular function, estimated by the named formula. Other important parameters to estimate the effects of an advanced renal dysfunction are the haemoglobin and the serum concentration of potassium and sodium. If possible, elective operative interventions should be carried out during a stable phase of the disease. Appropriate treatment of concomitant symptoms, such as hypertonia, is essential and contributes to a reduction of post operative renal dysfunction. Timely consultation with the responsible anaesthesist can prevent unnecessary delay of the intervention.
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PMID:[The preanaesthetic care of patients with renal disorder]. 1956 50

When patients develop acute kidney injury, a small fraction of them will develop end-stage renal disease later. The severity of renal impairment in the remaining patients is uncertain because studies have not carefully examined renal function over time or the precise timing of entry into a late stage of chronic kidney disease. To determine these factors, we used a United States Department of Veterans Affairs database to ascertain long-term renal function in 113,272 patients. Of these, 44,377 had established chronic kidney disease and were analyzed separately. A cohort of 63,491 patients was hospitalized for acute myocardial infarction or pneumonia and designated as controls. The remaining 5,404 patients had diagnostic codes indicating acute renal failure or acute tubular necrosis. Serum creatinine, estimated glomerular filtration rates, and dates of death over a 75-month period were followed. Renal function deteriorated over time in all groups, but with significantly greater severity in those who had acute renal failure and acute tubular necrosis compared to controls. Patients with acute kidney injury, especially those with acute tubular necrosis, were more likely than controls to enter stage 4 chronic kidney disease, but this entry time was similar to that of patients who initially had chronic kidney disease. The risk of death was elevated in those with acute kidney injury and chronic kidney disease compared to controls after accounting for covariates. We found that patients who had an episode of acute tubular necrosis were at high risk for the development of stage 4 disease and had a reduced survival time when compared to control patients.
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PMID:Outcomes following diagnosis of acute renal failure in U.S. veterans: focus on acute tubular necrosis. 1974 90


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