Background: Although it is generally considered that livers with moderate steatosis can be safely used in the setting of living-donor liver transplantation, the effect of the regenerative process of such a graft on postoperative liver function is incompletely understood. We assessed the morphologic and functional alterations during the regeneration of fatty liver, with special reference to the biliary system.
Methods: Wistar rats with normal or fatty livers induced by a choline-deficient diet were subjected to 70% partial hepatectomy (PH). The regenerated liver weight and serum parameters were compared. Furthermore, to assess the spatial alterations of bile canalicular networks, the distribution of AGp110, a fibronectin receptor that localizes on the apical (bile canalicular) membrane of the hepatocytes, was analyzed immunohistochemically.
Results: The serum albumin levels of the fatty-liver rats decreased significantly after 24 hours, and this continued until day 7. The increase in the total bile acid levels of the fatty-liver group was higher and more prolonged compared with that of the normal-liver group. At 24 hours after PH, discontinuity of the AGp110-positive canalicular network was evident in both groups. At 7 days after PH, the typical AGp110-positive canalicular network was almost restored in the normal-liver group. In contrast, the fatty-liver group showed sustained discontinuity of canalicular networks at the same time point.
Conclusions: The livers with moderate steatosis are associated with prolonged cholestasis after 70% PH, and this was caused, in part, by sustained spatial disturbance of bile canalicular networks during the regenerative process.