Background: Heat stress and rhabdomyolysis are major risk factors for the occurrence of repeated acute kidney injury in workers exposed to heat and strenuous work. These episodes, in turn, may progress to chronic kidney disease.
Objective: The purpose of this study was to test the effect of allopurinol (AP) and sodium bicarbonate on the kidney injury induced by recurrent heat stress dehydration with concomitant repeated episodes of rhabdomyolysis.
Methods: The model consisted of heat stress exposure (1 h, 37°C) plus rhabdomyolysis (R) induced by repetitive IM injections of glycerol (7.5 mL/kg BW days) in the rat. In addition, to replicate the human situation, uricase was inhibited (oxonic acid [OA] 750 mg/K/d) to increase uric acid (UA) levels. Additional groups were treated either with AP 150 mg/L, n = 10, bicarbonate (BC; 160 mM, n = 10), or both (AP + BC, n = 10) in drinking water. We also included 2 control groups consisting of normal controls (N-Ref, n = 5) and uricase-inhibited rats (OA, n = 5) that were not exposed to heat or muscle injury. Groups were studied for 35 days.
Results: Uricase-inhibited rats exposed to heat and rhabdomyolysis developed pathway and increased intrarenal oxidative stress and inflammasome activation. Kidney injury could be largely prevented by AP, and also BC, although the treatments were not synergistic.
Conclusion: Increased levels of UA may play an important role in the renal alterations induced by heat stress and continuous episodes of rhabdomyolysis. Therefore, treatments aimed to reduce hyperuricemia may help to decrease the renal burden in these conditions. Clinical trials are suggested to test whether this is also true in humans.
Keywords: Allopurinol; Bicarbonate supplementation; Heat stress nephropathy; Hyperuricemia; Rhabdomyolysis.
© 2018 S. Karger AG, Basel.