Superior Dialytic Removal of Bilirubin and Bile Acids by Free Fatty Acid Displacement and Its Synergy With Albumin-Based Dialysis.

Abstract

One of the cardinal features of any liver replacement therapy is the ability to remove accumulated metabolites. However, an unsolved problem is the low dialyzability of lipophilic toxins. This study aimed to explore whether bilirubin and bile acids removal can be increased by free fatty acid (FFA) displacement and its synergy with albumin dialysis. First, we found that the protein binding of both bilirubin and bile acids decreased significantly with increasing FFA concentrations when co-incubated directly. Then, in vitro dialysis showed that fatty acid mixtures infusion prefilter effectively increased the fractional removals of bilirubin and bile acids, showing higher efficiency compared with albumin-based hemodialysis (HD); in vivo dialysis in liver failure rats showed that lipid emulsion administration resulted in higher reduction ratios and more total solute removals for bilirubin and bile acids after 4 h HD compared with control, which were also superior to albumin-based HD. Finally, the highest dialysis efficacy was always observed by their synergy whether in vitro or in vivo . These findings highlight that FFA displacement-based HD could efficiently improve the dialytic removal of bilirubin and bile acids, which might even be more efficient than albumin-based HD. Their synergy may represent a promising strategy to maximize the removal of circulating bilirubin and bile acids accumulated in liver failure.