Hepatocyte Aggregates: Methods of Preparation in the Microgravity Simulating Bioreactor Use in Tissue Engineering

TL;DR

This paper introduces a novel method using a microgravity simulating bioreactor to prepare hepatocyte aggregates for tissue engineering, aiming to better replicate liver microenvironments in vitro.

Contribution

It presents a new bioreactor system and methodology for creating hepatocyte aggregates, advancing tissue engineering techniques for liver tissue simulation.

Findings

Successful preparation of hepatocyte aggregates in the microgravity simulating bioreactor.

Use of microcontact printing to create patterned surfaces for cell studies.

Potential for improved understanding of cell heterogeneity in liver tissue models.

Abstract

Tissue Engineering concerns the three-dimensional cell growth so that bio-artificial tissues could be created and used for transplantation. The recently expressed concerns from the Tissue Engineering research community for a re-direction of the research activities necessitate the proposition of new methodologies. We propose a methodology that has to do with the simulation in bioreactor systems of liver structures as are described in liver anatomy. I this way the hepatocyte microenvironments that determine their function could be re-created in vitro. The approach needs the use of hepatocyte aggregates as entities to load the bioreactor systems. A new bioreactor, the microgravity simulating rotation bioreactor, has been used for the preparation of cell aggregates. Microcontact printing has been used to produce a patterned surfaces. They were tested adsorbing BSA proteins, and will be used in future for the mmobilization of cell aggregates in order to gain further understanding of the role of cell heterogeneity in the cooperative behaviour of cells in vitro.