Colonisation of prosthetic grafts by immunocompetent cells in a sheep model

The present study examined the distribution of immunocompetent cells in synthetic vascular grafts in an experimental sheep model. Sixty-two adult Merino sheep underwent synthetic patch closure of a longitudinal arteriotomy in the left common carotid artery. The synthetic patch materials used were gelatin sealed Dacron (n=10), fluoropassivated Dacron (n=10), Fluoropassiv (n=12), polyurethane (n=10), expanded polytetrafluoroethylene (n=10) and carbon-lined expanded polytetrafluoroethylene (n=10). The sheep were sacrificed after four weeks when the prosthetic patches were harvested and fixed in 10% neutral buffered formalin. Transverse sections were taken along the graft and paraffin embedded. Serial sections were stained with cell type specific antibodies to identify T-lymphocytes (CD3(+)), dendritic cells (S-100(+)), endothelial cells (von Willebrand factor(+)) and smooth muscle cells (smooth muscle alpha-actin(+)). All six graft types contained CD3(+) and S-100(+) cells in the neointima, within the synthetic matrix and in the perigraft layer. Three different tissue responses to synthetic materials were observed and the grafts were classified accordingly into three groups: (1) gelatin sealed Dacron, fluoropassivated Dacron and Fluoropassiv; (2) expanded polytetrafluoroethylene and carbon-lined expanded polytetrafluoroethylene; (3) polyurethane. The three synthetic materials in Group 1 showed almost identical reactions with least accumulation of immunocompetent cells within the synthetic material but greater accumulation of immuno-inflammatory infiltrates in the perigraft vascular tissue. In this group, new vessels penetrated into the synthetic material and there was prominent formation of foreign body (giant) cells. Group 2 showed greater accumulation of immunocompetent cells within the synthetic material itself but only sparse immuno-inflammatory infiltrates in the perigraft tissue. Group 3 showed a high degree of inflammatory response within both the synthetic material and the perigraft vascular tissue. These observations demonstrate that immunocompetent cells colonise the synthetic matrix of grafts and accumulate in the perigraft tissue, but inflammatory responses vary in different graft types.