Perfusion culture of fetal human hepatocytes in microfluidic environments

Various types of bioreactors composed of microstructured PDMS (Polydimethylsiloxane) layers have recently been fabricated for perfusion culture of mammalian cells such as adult rat hepatocytes. As a new feature of those bioreactors, in this study, cultivation of fetal human hepatocytes (FHHs) was attempted, because they have high possibility to mature in vitro with preserving their normality, which is suitable for inplantation of liver tissue equivalents reconstituted in vitro. During the perfusion culture in the PDMS bioreactors for 1 week, cells showed good attachment, spreading and reached their confluence over the channels. In addition, their albumin production was significantly enhanced in the perfusion culture using the PDMS bioreactors up to about four times during the FHH perfusion culture when compared in dish-level static culture. Hep G2 cell cultures were also performed and have also shown under perfusion conditions an enhanced cell activity multiplied by 2 compared to static conditions. Although, the cellular activities of FHH cells are still low even compared to those of the Hep G2 cells, the conclusions of this work is encouraging toward future liver tissue engineering based on in vitro propagation and maturation of hepatocyte progenitors combined with microfabrication technologies. (C) 2003 Elsevier B.V. All rights reserved.