1.
Hypersensitivity reactions to bicarbonate dialysate containing acetate: a case report with literature review.
Nishiuchi, Y, Shima, H, Fukata, Y, Tao, T, Okamoto, T, Takamatsu, N, Okada, K, Minakuchi, J
CEN case reports. 2020;(3):243-246
Abstract
Although hemodialysis-hypersensitivity reactions have various causes, only a few cases of hypersensitivity to acetate dialysate accompanied by fever have been reported. We present the case of a 69-year-old hemodialysis patient who was admitted due to fever after dialysis. He had undergone online hemodiafiltration using acetate-free citrate-containing dialysate. After admission, we switched to acetate-containing bicarbonate dialysate. He was diagnosed with pneumonia and treated with ceftriaxone. However, fever that occurred post dialysis persisted, displaying a gradual elevation in CRP level and eosinophils (up to 9.7 mg/dL and 3774 cells/μL, respectively). After a series of negative workups for infection and dialysis membrane allergy, we suspected that acetate-containing bicarbonate dialysate to be the cause of the allergic reaction and switched to acetate-free bicarbonate dialysate. Consequently, eosinophil count decreased and the fever abated. The drug-induced lymphocyte stimulation test finding (for acetate dialysate) was positive, and he was diagnosed with acetate dialysate-induced hypersensitivity reactions. The condition was not detected earlier due to the complications associated with pneumonia.
2.
Icodextrin-induced acute pancreatitis in a peritoneal dialysis patient: a case report and literature review
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Rubinstein, S, Franjul, R, Surana, S, Fogel, J
Clinical nephrology. 2016;(11):283-286
Abstract
The 7.5% icodextrin solution is widely used for long-dwell in peritoneal dialysis (PD) regimens as an alternative osmotic agent to glucose. It has been defined as a biocompatible agent because of its iso-osmolarity and is generally safe and well tolerated. Icodextrin and its hydrolyzed metabolites are found in systemic circulation. In serum, icodextrin interferes with amylase determination causing a significantly decreased plasma amylase level making it unreliable for the diagnosis of acute pancreatitis. Lipase measurement provides an alternative and accurate method for diagnosing acute pancreatitis (AP) in patients using icodextrin. Icodextrin-induced acute pancreatitis is not well described. The literature appears limited to two case reports. We describe a case of a man with end-stage renal disease (ESRD) on PD who developed acute pancreatitis following icodextrin use. We also provide a novel possible mechanism for understanding how icodextrin causes AP.
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3.
Dialysate-induced hypocalcemia presenting as acute intradialytic hypotension: A case report, safety review, and recommendations.
Thurlow, JS, Yuan, CM
Hemodialysis international. International Symposium on Home Hemodialysis. 2016;(2):E8-E11
Abstract
Intradialytic hypotension is the most common complication associated with hemodialysis. We describe a case of severe intradialytic hypotension during routine chronic dialysis, the presenting symptom of hypocalcemia due to a procedural error involving a zero calcium liquid acid dialysate concentrate. Although human factors were the root cause of this event, we discuss physical and procedural controls that may help to minimize the risk of human error. Citrate anticoagulation for renal replacement therapy is increasingly used, particularly in acute kidney injury. Thus, zero calcium liquid acid dialysate is more likely to be stocked by dialysis units that serve both inpatients and outpatients. Providers in such units must maintain the utmost vigilance for human error involving these concentrates, as it is likely that the reported literature does not accurately reflect the frequency of such adverse events occurring during dialysis. Structured and universal reporting of errors to allow systematic analysis of hemodialysis device related hazards would allow identification of engineering controls that could prevent such potentially catastrophic clinical errors.