UNLABELLED: This study was undertaken to help define how one episode of renal ischemia, insufficient to cause acute renal failure, influences the susceptibility of the kidney to a second more severe ischemic event. Female Sprague-Dawley rats underwent either 15 min of bilateral renal artery occlusion (RAO) or sham RAO. They were subjected 30 min, 3.5 h, or 24 h later to 25 min of RAO. Renal function (GFR, BUN, creatinine), histology, and adenine nucleotide concentrations were compared before and after the 25-min ischemic event. Only the rats with a 30-min hiatus between the 15- and 25-min bouts of RAO had significantly worse renal failure than controls subjected to a single 25-min ischemic event. Three findings were noted only in the rats with increased susceptibility: tubular cell swelling and luminal membrane injury prior to 25 min of RAO and a relative failure of ATP formation immediately following 25 min of RAO. Susceptibility to 25 min of RAO did not correlate with preischemia ATP content. CONCLUSION: prior mild ischemic injury transiently lowers renal resistance to a second ischemic event. Normal resistance is rapidly restored once improvements in prior cell membrane injury, cell volume regulation, and cellular energetics occur. However, resistance to additional ischemia can be normal despite persisting depressions in renal ATP content.
UNLABELLED: This study was undertaken to help define how one episode of renal ischemia, insufficient to cause acute renal failure, influences the susceptibility of the kidney to a second more severe ischemic event. Female Sprague-Dawley rats underwent either 15 min of bilateral renal artery occlusion (RAO) or sham RAO. They were subjected 30 min, 3.5 h, or 24 h later to 25 min of RAO. Renal function (GFR, BUN, creatinine), histology, and adenine nucleotide concentrations were compared before and after the 25-min ischemic event. Only the rats with a 30-min hiatus between the 15- and 25-min bouts of RAO had significantly worse renal failure than controls subjected to a single 25-min ischemic event. Three findings were noted only in the rats with increased susceptibility: tubular cell swelling and luminal membrane injury prior to 25 min of RAO and a relative failure of ATP formation immediately following 25 min of RAO. Susceptibility to 25 min of RAO did not correlate with preischemia ATP content. CONCLUSION: prior mild ischemic injury transiently lowers renal resistance to a second ischemic event. Normal resistance is rapidly restored once improvements in prior cell membrane injury, cell volume regulation, and cellular energetics occur. However, resistance to additional ischemia can be normal despite persisting depressions in renal ATP content.
Authors: Karl A Nath; Joseph P Grande; Anthony J Croatt; Elena Frank; Noel M Caplice; Robert P Hebbel; Zvonimir S Katusic Journal: Am J Pathol Date: 2005-04 Impact factor: 4.307
Authors: M E Stromski; A van Waarde; M J Avison; G Thulin; K M Gaudio; M Kashgarian; R G Shulman; N J Siegel Journal: J Clin Invest Date: 1988-11 Impact factor: 14.808