The Journal of surgical research
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Chronic allograft nephropathy (CAN) is the leading cause of late kidney allograft loss. Recent studies have suggested that atorvastatin (ATO) may interact with the acute inflammatory process in the renal interstitium and suppress the proliferation of mesangial cells. We hypothesized that ATO could also inhibit the chronic inflammatory process and prevent the progression of CAN. ⋯ Atorvastatin showed excellent favorable effects on blocking renal inflammation and fibrosis, and thus, efficiently inhibited the development and progression of CAN, which might improve the long-term survival rate of renal allografts.
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After extensive hepatectomy, excessive portal venous flow (PVF) and elevated portal venous pressure (PVP) may lead to postoperative liver damage. We have evaluated the use of portocaval shunt (PCS) to control PVF and PVP following partial hepatectomy (PH) to reduce the postoperative liver damage. ⋯ After 70% PH, extensive centrolobular necrosis and neutrophil aggregation were present and may have caused liver damage, manifested as hyperbilirubinemia and coagulopathy. The delayed liver regeneration with PCS may reduce the postoperative liver damages rather than the rapid liver hypertrophy. The diversion of PVF with PCS to maintain adequate PVP is a very effective procedure for avoiding the postoperative liver failure after extensive hepatectomy.
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Traditional models of shock classify severity based on the volume of hemorrhage. Clinically, hemorrhage occurs at a variable rate, usually slowing as blood pressure drops; however most animal experimental models use a constant rate of hemorrhage. Our hypothesis was that rapid bleeding followed by slower bleeding using a fixed total volume would result in a greater physiologic insult. ⋯ A more physiologic method of fixed volume hemorrhagic shock results in a significantly increased physiologic response as demonstrated by increased volume of fluid resuscitation. This differential physiologic response may represent an improved hemorrhagic shock model, and could have implications for future hemorrhagic shock studies.
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There are currently no reports in the literature regarding changes in end-tidal carbon dioxide (ETCO(2)) when the small bowel is deliberately or inadvertently perforated during laparoscopic surgery. The aim of this study was to assess the influence of small bowel perforation during laparoscopy on ETCO(2) in a rat model. ⋯ ETCO(2) increases when the small bowel is perforated during CO(2) pneumoperitoneum. This increase seems more substantial under higher pneumoperitoneal pressures. Small bowel injury may enable the diffusion of CO(2) through the bowel mucosa, causing ETCO(2) elevation. Therefore, an abrupt increase in ETCO(2) observed during laparoscopy may indicate small bowel injury.