Biocompatibility of the Vascugraft: evaluation of a novel polyester urethane vascular substitute by an organotypic culture technique.

ABSTRACT

To evaluate the biocompatibility of chemically and structurally modified polyurethane elastomers for use as blood vessel replacements, small squares of vascular prostheses were cultured in direct contact with endothelium from chick embryo aorta using an organotypic culture assay. The polyurethane materials tested were Vascugraft (fibrous, open pore structure); commercial Hydrophilic Mitrathane prosthesis (high porosity, smooth surface, non-permeable, closed pore structure); experimental hydrophobic Mitrathane (less porosity but a fibrous, open pore structure, similar to Vascugraft). The commercial expanded polytetrafluoroethylene prostheses Impra and reinforced GORETEX were included as controls on account of their extensive clinical application in the femoropopliteal position. After 5 d incubation at 37 degrees C biocompatibility was assessed in terms of average area of migrating cells on the biomaterial, total number of cells surrounding the explant and level of adhesion between the cells and the biomaterial. The Vascugraft prosthesis promoted the growth of a continuous monolayer of cells on its surface. This behaviour was equivalent to Impra and reinforced GORETEX materials in terms of cell density and area of cell migration but appeared to be superior for cell adhesion. From a second series of cell culture tests, in which the extractables leached from the biomaterials were added to the nutrient medium, it was concluded that none of the biomaterials tested released cytotoxic contaminants.