Angiopolarity of cell carriers: directional angiogenesis in resorbable liver cell transplantation devices.

The purpose of this study was to obtain directional angiogenesis of small blood vessels and capillaries to an implant made from a resorbable polymer for hepatocyte transplantation. It was intended to mimic the native acinar structure of the liver in order to facilitate replication of the cells and organ growth. The implant device structure was designed for injection to minimize surgical trauma. Hollow microspheres with an open porous wall structure and one large central opening were made from poly(d,l-lactic-co-glycolic acid) (85:15 lactic:glycolic). This polymeric scaffold was seeded with hepatocytes and implanted into the abdominal wall muscle of syngeneic Fisher rats. Specimens explanted up to 56 days p.o. showed hepatocyte survival and the development of a directional blood supply. This phenomenon is coined "angiopolarity". The study should help in addressing the issue as to whether avascular cell implants with post-transplantation organ growth should be attempted. Processing options in applying heat to the polymer solution allow manufacturing of larger microspheres with different diameters of central openings. This would allow the use of the scaffold for other cell transplantations than hepatocytes.