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:C0035078 (renal failure)
31,970 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Extensive muscle crush injury culminating in the crush syndrome (CS) is often lethal unless promptly and vigorously treated. The causes of death in the CS are extreme hypovolemic shock, hyperkalemia, hypocalcemia, metabolic acidosis, acute myoglobinuric renal failure, and the compartment syndrome. Treatment consists of early massive volume replacement, preferably administered in the field, followed by forced alkaline solute (mannitol) diuresis. With this regimen, it is possible to increase substantially the survival of lives and limbs and to prevent acute myoglobinuric renal failure in patients suffering from the CS. Preliminary experience suggests that intravenous hypertonic mannitol is protective also to the injured muscle and can be used as a noninvasive adjunct in the management of compartment syndrome in humans. Moreover, by preserving muscular integrity, mannitol can conceivably reduce sarcolemmal leakage of the nephrotoxic myoglobin urate and phosphate and thus further defend kidney function. Furthermore, mannitol reduces the plasma pool of these nephrotoxic metabolites by increasing urinary elimination.
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PMID:Rescue and salvage of casualties suffering from the crush syndrome after mass disasters. 1033 79

Two patients with rhabdomyolysis-induced acute renal failure due to influenza A virus infection are presented. Both had influenza symptoms, with high fever and severe muscular pain leading to walking problems. In addition, they were dehydrated due to vomiting and diarrhoea. Both had evidence of an ongoing influenza infection according to serological tests. Muscle injury due to the viral infection gave rise to rhabdomyolysis with efflux of myoglobin from the muscles, causing renal failure. In conclusion, influenza A virus infection can cause rhabdomyolysis accompanied by reversible acute renal failure.
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PMID:Rhabdomyolysis and acute renal failure associated with influenza virus type A. 1051 90

Myoglobin has a relatively high molecular weight of 17,000 Da and is poorly cleared by dialysis (diffusion). However, elimination of myoglobin might be enhanced by an epuration modality based on convection for solute clearances. We present a single case of myoglobin-induced renal failure (peak creatine kinase level: 313,500 IU/l) treated by continuous venovenous hemofiltration (CVVH). Our purpose was to evaluate the efficiency of such a modality using an ultrafiltration rate of 2 to 3 l/h for myoglobin removal and clearance. The hemofilter was a 0.9 m(2) polyacrylonitrile (AN69) membrane Multiflow-100 (Hospal-Gambro, St-Leonard, Canada) and the blood flow rate was maintained at 150 ml/min by an AK-10 pump (Hospal-Gambro, St-Leonard, Canada). The ultrafiltration bag was placed 60 cm below the hemofilter and was free of pump control or suction device. Serum myoglobin concentration was 92,000 microg/l at CVVH initiation and dropped to 28,600 microg/l after 18 h of the continuous modality. The mean sieving coefficient for myoglobin was 0.6 during the first 9 h of therapy and this decreased to 0.4 during the following 7 h. Mean clearance of myoglobin was 22 ml/min, decreasing to 14 ml/min during corresponding periods, while the mean ultrafiltration rates were relatively stable at 2,153 +/- 148 ml/h and 2,074 +/- 85 ml/h, respectively. In contrast to myoglobin, the sieving coefficeint for urea, creatinine, and phosphorus remained stable at 1.0 during the first 16 h of CVVH. More than 700 mg of myoglobin were removed by CVVH during the entire treatment. In conclusion, considerable amounts of myoglobin can be removed by an extracorporeal modality allowing important convective fluxes and middle molecule clearances, such as CVVH at a rate of 2 to 3 l/h using an AN69 hemofilter. If myoglobin clearance had been maintained at 22 ml/min, 32 l of serum would have been cleared per day. However, the sieving coefficient of myoglobin decreased over time, probably as a consequence of protein coating and/or blood clotting of the hemofilter. Whereas myoglobin can be removed by CVVH, it remains unknown at this point if such a modality, applied early, can alter or shorten the course of myoglobinuric acute renal failure.
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PMID:Myoglobin clearance and removal during continuous venovenous hemofiltration. 1055 78

A case of acute oliguric renal failure secondary to poisoning by acetic acid (AA) is described. The patient presents caustic damage in the mucous digestive, myoglobinuria, thrombopaenia, elevation of the enzymes of damage tissular and acute hepatic affectation. To the entrance, the patient show a good hemodynamic state and the hematologic study discarded the hemolysis presence, what allowed to establish the direct action of the AA on the kidney like cause of the oliguric failure renal next to the tubular toxic effect of the myoglobin. The oral ingesta of AA is an unusual fact and its relationship with the acute renal failure it has not been communicated previously in our country.
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PMID:[Acute oliguric kidney failure secondary to acetic acid poisoning]. 1060 59

Rhabdomyolysis causes renal dysfunction associated with renal vasoconstriction, tubular toxicity and luminal obstruction. There is now accumulating evidence that renal injury, caused by lipid peroxidation, is important in the pathogenesis of renal failure. The proposed central role of free iron in this process is examined. Current data have shown that the heme center of myoglobin can initiate lipid peroxidation and renal injury without invoking release of free iron, and this process is due to redox cycling of the heme group from ferrous to ferric and to ferryl oxidation states. Alkaline conditions prevent myoglobin-induced lipid peroxidation by stabilizing the reactive ferryl myoglobin complex. This review explores the evidence for each of these mechanisms.
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PMID:Pathogenesis of renal failure in rhabdomyolysis: the role of myoglobin. 1072 45

The enzyme activities of creatine kinase (CK), its isoenzyme MB (CK-MB) and of lactate dehydrogenase isoenzyme 1 (LD-1) have been used for years in diagnosing patients with chest pain in order to differentiate patients with acute myocardial infarction (AMI) from non-AMI patients. These methods are easy to perform as automated analyses, but they are not specific for cardiac muscle damage. During the early 90's the situation changed. First creatine kinase MB mass (CK-MB mass) replaced the measurement of CK-MB activity. Subsequently cardiac-specific proteins troponin T (cTnT) and troponin I (cTnI) appeared on the scene, displacing LD-1 analysis. However, troponin concentrations in blood increase only from four to six hours after onset of chest pain. Therefore a rapid marker such as myoglobin, fatty acid binding protein or glycogen phosphorylase BB could be used in early diagnosis of AMI. On the other hand, CK-MB isoforms alone may also be useful in rapid diagnosis of cardiac muscle damage. Myoglobin, CK-MB mass, cTnT and cTnI are nowadays widely used in diagnosing patients with acute chest pain. Myoglobin is not cardiac-specific and therefore requires supplementation with some other analyses such as troponins to support the myoglobin value. Troponins are very highly cardiac-specific. Only the sera of some patients with severe renal failure, which requires hemodialysis, have elevated cTnT and/or cTnI without there being any evidence of cardiac damage. On the other hand, the latest studies have shown that elevated troponin levels in sera of hemodialysis patients point to an increased risk of future cardiac events in a similar manner to the elevated troponin values in sera of patients with unstable angina pectoris. In addition, the bedside tests for cTnT and cTnI alone or together with myoglobin and CK-MB mass can be used instead of quantitative analyses in the diagnosis of patients with chest pain. These rapid tests are easy to perform and they do not require expensive instrumentation. For routine clinical laboratory practice we suggest that in diagnosis of patients with chest pain, myoglobin and CK-MB mass measurements should be performed whenever they are requested (24 h/day) and cTnT or cTnI on admission to the hospital and then 4-6 and 12 hours later.
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PMID:Laboratory diagnosis of patients with acute chest pain. 1090 53

Severe muscular injury sometimes causes renal failure, and myoglobin in skeletal muscle is known to induce toxic free oxygen radicals in the kidneys. The relationship between the immunohistochemical expression of myoglobin and the scavenger copper/zinc superoxide dismutase (Cu/Zn-SOD) was investigated in kidneys taken from two autopsy groups, a group with tourniquet shock (n = 4), and a group with severely injured skeletal muscle (n = 18). Paraffin-embedded kidney sections were used for immunohistochemical staining by the avidin-biotin-complex (ABC) method using antibodies against myoglobin and Cu/Zn-SOD. Detection of the two antigens was analyzed qualitatively. In most cases of tourniquet shock in which the survival time was considered to be relatively long, myoglobin staining was positive and Cu/Zn-SOD was negative. Among the seven cases of severely injured skeletal muscle in which the survival period was considered to be relatively short, positive staining was detected immunohistochemically for both myoglobin and Cu/Zn-SOD. Moreover, in most of the cases in this group that showed acute tubular necrosis, immunohistochemical staining was negative for both markers, whereas positive staining was found for most of the cases in which the kidneys were revealed to be normal by HE staining. These findings suggest that when myoglobin enters the kidneys via the circulation, Cu/Zn-SOD reacts to eliminate free radicals, but is depleted by consumption in the long run, and that there might be a relationship between these histological findings and immunohistochemical expression.
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PMID:Immunohistochemical study of the kidneys after severe muscular injury. 1135 1

A non-fatal case of strychnine poisoning through dermal exposure is described. About 24 h after cleaning up a strychnine spill, a 50-year-old woman presented to the emergency department with classical signs of strychnine poisoning, consisting of marked pain in the muscles of her lower limbs, dermal sensitivity, and stiffness in her jaw. Her treatment was intravenous fluid replacement and alkalinization in anticipation of potential renal failure due to rhabdomyolysis. Her plasma creatine kinase was elevated to 677 U/L with no rise in the heart specific MB fraction. Serum myoglobin level obtained retrospectively was 195 microg/L. Biological samples were taken approximately 28 h after her exposure. Strychnine was measured in plasma (196 ng/mL) and urine (6,850 ng/mL) by gas chromatography-mass spectrometry. The small amount of pheniramine in the plasma (35 ng/mL) and urine (1,255 ng/mL) is considered an inconsequential finding.
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PMID:Dermal exposure to strychnine. 1149 89

Myoglobinuria or rhabdomyolysis occurs when myoglobin escapes into the blood and then into the urine after acute muscle necrosis. It can be a serious medical condition leading to renal failure and death. There are many causes including exertion, crush syndromes, ischaemia, metabolic disorders, exogenous toxins and drugs, heat stroke and hereditary disorders such as malignant hyperthermia. We report the case of a 17 year-old boy who developed myoglobinuria, renal failure and death 11 days after ingesting sodium monensin, possibly with the intention of developing muscles. Sodium monensin, the active principle of Rumensin(R), is a dietary additive used as a growth promoter for confined cattle. There are no previous reports of human intoxication. Accidental or experimental sodium monensin intoxication in animals produces similar findings to those seen in this case.
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PMID:Fatal rhabdomyolysis after acute sodium monensin (Rumensin) toxicity: case report. 1158 43

Cardiac markers are more likely to be elevated in dialysis patients than in patients with renal failure not on dialysis. In this study, 31 patients (20 males, 11 females) undergoing chronic haemodialysis were enrolled. The effect of haemodialysis on cardiac troponin T (cTnT), I (cTnI), creatine kinase MB (CKMB) mass, CKMB activity and myoglobin assays was assessed by comparing pre- and post-haemodialysis determinations. After correcting for haemoconcentration, significant differences were observed (mean +/- SEM, pre- vs post-dialysis) for myoglobin (178.9 +/- 19.3 vs 225.0 +/- 28.4 ng/ml; p=0.006) for cTnT (0.111 +/- 0.028 vs 0.148 +/- 0.037 ng/ml; p=0.004), for CKMB mass (2.75 +/- 0.37 vs 2.59 +/- 0.37 ng/ml; p=0.000) and CKMB activity (14.8 +/- 0.9 vs 13.1 +/- 0.9 U/l; p=0.000) assays. Our study questions the reliability of cardiac markers in dialysis patients and suggests that the clinical threshold value and diagnostic efficiency of each assay needs to be validated. Although these differences exceeded clinical threshold values in only a few patients, serum markers of myocardial damage in dialysis patients should be interpreted with caution.
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PMID:Acute effect of haemodialysis on serum markers of myocardial damage. 1213 38


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