Contaminants from the transplant contribute to intimal hyperplasia associated with microvascular endothelial cell seeding

Arts C., Joosten P., Blankensteijn J., Staal F., Ng P., Heijnen-Snyder G., ...Daha Fazla

EUROPEAN JOURNAL OF VASCULAR AND ENDOVASCULAR SURGERY, cilt.23, sa.1, ss.29-38, 2002 (SCI-Expanded, Scopus)

Özet

Objectives: seeding prosthetic grafts with fat-derived microvascular endothelial cells (MVEC) results not only in a non-thrombogenic EC layer, Nit also in intimal hyperplasia. Here we investigated incidence, composition, progression, and cause of this intimal hyperplasia. Design: EPTFE grafts with MVEC were implanted as carotid interpositions in six dogs with 1 month, and in three dogs with 4, 8 and 12 months follow-up. Grafts seeded without cells, implanted in the contralateral carotid, served as a control. In another three dogs labelled cells et,ere seeded to investigate the contribution of the seeded cells (2-3 weeks). Materials anti methods: MVEC were isolated frolic the falciform ligament. Cells were pressure seeded on ePTFE grafts. Labelling was performed using retroviral gene transduction. The grafts were analysed with immunohistochemical techniques. Results: after 1 month, all patent non-seeded grafts (5/6) showed fibrin and platelet deposition, and all patent seeded grafts (5/6) were covered with a confluent endothelial monolayer on top of a multilayer of myofibroblasts, elastin and collagen. After long term follow-up, all non-seeded grafts were occluded, all patent seeded grafts (4 and 12 months) were covered with an EC-layer with intimal hyperplasia underneath. The thickness of the intima did not progress after 1 Month. Transduced cells were found in the endothelial monolayer, hyperplastic intima and luminal part of the prosthesis. Conclusions: MVEC seeding in dogs results in intimal hyperplasia in all patent grafts, which contains myofibroblasts. Contaminants from the transplant contribute to this intimal hyperplasia.