Development of an artificial blood vessel [ 2001 - 2005 ]

Research Grant

Researchers: Prof Julie Campbell (Principal investigator) ,  Gordon Campbell

Brief description Atherosclerosis (hardening of the arteries) is the principal cause of heart attack, stroke and blockage of blood flow to the lower limbs. However, to date none of the biological or synthetic grafts used to bypass the narrowed regions of arteries is ideal. We have shown that lengths of silicone tubing placed into the peritoneal cavity of rats or rabbits becomes covered within 2 weeks by a capsule of granulation tissue (smooth-muscle-like cells and collagen) and mesothelial (endothelial-like) cells. The silicone tubing can be removed and the tissue turned inside out such that the endothelial-like cells now line the inside of the tube of living tissue, which resembles a blood vessel. These artificial blood vessels will be grown in the peritoneal cavity of rabbits, then grafted into the right carotid artery to replace a length of removed vessel. Their long-term (3,6,9 and 12 months) patency, reactivity, tensile strength and resistance to clot development will be assessed. Their susceptibility to atherosclerotic plaque development and blockage (as compared with natural carotid artery) will be examined in rabbits fed a cholesterol-enriched diet. Changes in gene expression as the artificial artery progressively develops will be examined, as will the potential to genetically manipulate the artificial artery to improve its functioning. Finally, attempts will be made to grow the vessels entirely in vitro. This novel vascular graft may open new options in the field of arterial reconstructive surgery for replacing or bypassing diseased vessels or as an access vessel for haemodialysis patients with end stage renal failure. This study will also provide new information on the biology of cells found in the peritoneal cavity and their alternative pathways for differentiation.

Funding Amount $AUD 512,443.44

Funding Scheme NHMRC Project Grants

Notes Standard Project with Research Fellowship