Effects of physiologic albumin and hespan levels on hepatocytes in vitro.

Abstract

Although albumin and hydroxyethyl starch (HES) are routinely used in critically ill, hypoalbuminemic patients, no studies have tested the effect of supplemental albumin and HES on hepatocyte function. In this study, the effects of these agents were evaluated by using stable, rat hepatocyte cultures in a collagen sandwich configuration. Hepatocyte synthesis of albumin, urea, and intracellular triglycerides was monitored in Dulbecco's modified Eagle medium (supplemented with fetal bovine serum, hydrocortisone, L-proline, gentamycin, and insulin) without supplemental colloid (control cultures) and with supplemental 2% bovine serum albumin (BSA), 4% BSA, 2% HES, or 4% HES. The albumin secretion in control cultures rose from 31.03 microg/day per 10(6) cells on day 3 to 154.17 microg/day per 10(6) cells by day 12 and remained constant. In contrast, the level of albumin synthesis in the 2% and 4% BSA groups rose from significantly higher initial values (p < 0.05) of 71.25 microg/day per 10(6) cells and 73.27 microg/day per 10(6) cells, respectively, to 127.61 microg/day per 10(6) cells and 107.95 microg/day per 10(6) cells by day 7, then declined rapidly to 58.98 microg/day per 10(6) cells and 41.28 microg/day per 10(6) cells by day 12 when cell disruption was present. HES also reduced albumin synthesis. The urea genesis in the control groups and in the treatment groups was found to be comparable throughout the study. The BSA supplemented groups accumulated large amounts of intracellular lipid droplets during the experiment. The intracellular triglycerides analysis found the 4% BSA group to be significantly (p < 0.05) higher than the 4% HES. BSA, added to a collagen sandwich hepatocyte preparation, causes reduced hepatocyte synthesis by day 8, probably a result of intracellular triglyceride accumulation, whereas HES reduces synthesis through unidentified mechanisms.