Nephron. Physiology
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Nephron. Physiology · Jan 1992
Letter Case ReportsMultiple European wasp stings and acute renal failure.
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Nephron. Physiology · Jan 1992
Case ReportsMarked eosinophilia induced by nafamostat mesilate, an anticoagulant in a hemodialysis patient.
A 61-year-old Japanese female on hemodialysis developed marked eosinophilia induced by nafamostat mesilate as an anticoagulant for hemodialysis. This is the first case of hypereosinophilic syndrome induced by nafamostat mesilate in a hemodialysis patient. ⋯ This eosinophilia was eliminated after cessation of nafamostat mesilate. We confirmed that the cause of this eosinophilia was nafamostat mesilate by using the challenge test.
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Nephron. Physiology · Jan 1991
Hyperlactataemia and metabolic acidosis during haemofiltration using lactate-buffered fluids.
We have investigated the effect of an exogenous lactate load given during machine haemofiltration treatment in 22 patients with acute renal failure and 12 patients with chronic renal failure, without any overt evidence of liver disease. Hyperlactataemia occurred in all patients, but the expected changes in acid base status, an increase in bicarbonate and a reduction in arterial hydrogen ions were observed in less than 40% of the treatments in the acute renal failure group. ⋯ Lactate accumulation in patients at, or close to, their threshold for lactate utilisation may result in further depression of cardiac function and peripheral lactate utilisation. Hyperlactataemia due to use of lactate-based dialysis/haemofiltration solutions in critically ill patients may result in a worsening of the acid-base status, and arterial pH should be monitored so that bicarbonate solutions can be substituted if the changes are progressive.
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Nephron. Physiology · Jan 1991
Bicarbonate and calcium kinetics in postdilutional hemodiafiltration.
Hemodiafiltration (HDF) is a very effective blood treatment resulting from the coupling of dialysis and hemofiltration and leading to reduction of dialysis time. The aim of this study was to evaluate the balance of bicarbonate and calcium through the filter during postdilutional HDF (with an ultrafiltration flow rate of 70 ml/min) and to verify the effect of ultrafiltration on the kinetics of these two solutes. The study was performed by simultaneously collecting three blood samples (at filter inlet and outlet and after reinfusion) at different ultrafiltration flow rates (12.5-90 ml/min), to measure blood pH, pCO2, plasma total CO2(TCO2), total calcium, ionized calcium and plasma protein concentration. ⋯ In particular, in postdilutional HDF both bicarbonate and calcium balances through the filter were negative at ultrafiltration flow rates greater than 40 and 55 ml/min, respectively. The negative bicarbonate balance, however, was corrected by reinfusing a substituting solution containing bicarbonate (40 mmol/l). By contrast, the negative calcium balance cannot be corrected by reinfusion and requires a greater calcium concentration in the dialysate and oral calcium supplements.
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This article reviews the local and systemic effects of crush injury. Within minutes to hours after extrication of survivors trapped under fallen masonry (and immediately following decompression of limbs), a massive volume of extracellular fluid is lost into the injured muscles, leading to circulatory failure. Solutes leaking out of damaged muscles cause a spectrum of metabolic disturbances. ⋯ If urine flow is established, this regimen should be followed by a forced solute-alkaline diuresis for the prevention of myoglobinuric and uricosuric acute renal failure, which is a common and ominous late complication of crush injury. Preparation for future catastrophes occurring particularly in remote regions where an 'epidemic' of crush syndrome may be forecast, should include the setting up of a radio communications network to coordinate rescue and salvage operations and the forwarding of intravenous fluid bags and lines to the disaster site. Also, it is advisable to prepare artificial kidney devices which do not require pumps and electricity and which utilize a low dialysate volume for emergency temporary use, until conventional definitive medical facilities and services have been reestablished.