BACKGROUND: Clinical in vitro endothelialization was assessed for its ability to improve the long-term patency of prosthetic femoropopliteal bypass grafts. METHODS:Between June 1989 and May 1998, 100 patients received 113 invitro endothelialized expanded polytetrafluoroethylene grafts (ePTFE). Bilateral implantations were performed in 13 patients. In phase 1 of the study, 24 patients received 27 endothelialized grafts and 16 patients received 17 untreated grafts. In phase 2, endothelialization was offered to all patients who did not have a suitable saphenous vein available. Phase 2 began in June 1993 and included 76 patients who received 86endotheliazed ePTFE grafts. In all, 100 patients had autologous endothelial cells harvested from 4- to 5-cm segments of a subcutaneous vein. In phase 1, the external jugular vein was used. In phase 2, the cephalic vein was used. These cells were grown to first-passage mass cultures and were lined confluently onto 6-mm ePTFE grafts, pre-coated with fibrin glue. Patency assessment for Kaplan-Meier survivorship analysis was determined by using duplex sonography and angiography. RESULTS: In phase 1, the Kaplan-Meier method revealed a primary 9-year patency rate for 65% for the endothelialized group, versus 16% for the control group (log-rank test, P = .002; Wilcoxon test, P = .003). In phase 2, the 5-year primary patency rate for all in vitro endothelialized infrainguinal reconstructions was 68% (66% for above-the-knee grafts and 76% for below-the-knee grafts). CONCLUSIONS: Nine years of clinical in vitro endothelialization provided strong evidence that autologous endothelial cell lining improves the patency of small-diameter vascular grafts and that a cell culture-dependent procedure can be used in a clinical routine.
RCT Entities:
BACKGROUND: Clinical in vitro endothelialization was assessed for its ability to improve the long-term patency of prosthetic femoropopliteal bypass grafts. METHODS: Between June 1989 and May 1998, 100 patients received 113 in vitro endothelialized expanded polytetrafluoroethylene grafts (ePTFE). Bilateral implantations were performed in 13 patients. In phase 1 of the study, 24 patients received 27 endothelialized grafts and 16 patients received 17 untreated grafts. In phase 2, endothelialization was offered to all patients who did not have a suitable saphenous vein available. Phase 2 began in June 1993 and included 76 patients who received 86 endotheliazed ePTFE grafts. In all, 100 patients had autologous endothelial cells harvested from 4- to 5-cm segments of a subcutaneous vein. In phase 1, the external jugular vein was used. In phase 2, the cephalic vein was used. These cells were grown to first-passage mass cultures and were lined confluently onto 6-mm ePTFE grafts, pre-coated with fibrin glue. Patency assessment for Kaplan-Meier survivorship analysis was determined by using duplex sonography and angiography. RESULTS: In phase 1, the Kaplan-Meier method revealed a primary 9-year patency rate for 65% for the endothelialized group, versus 16% for the control group (log-rank test, P = .002; Wilcoxon test, P = .003). In phase 2, the 5-year primary patency rate for all in vitro endothelialized infrainguinal reconstructions was 68% (66% for above-the-knee grafts and 76% for below-the-knee grafts). CONCLUSIONS: Nine years of clinical in vitro endothelialization provided strong evidence that autologous endothelial cell lining improves the patency of small-diameter vascular grafts and that a cell culture-dependent procedure can be used in a clinical routine.
Authors: Hardean E Achneck; Ryan M Jamiolkowski; Alexandra E Jantzen; Justin M Haseltine; Whitney O Lane; Jessica K Huang; Lauren J Galinat; Michael J Serpe; Fu-Hsiung Lin; Madison Li; Amar Parikh; Liqiao Ma; Tao Chen; Bantayehu Sileshi; Carmelo A Milano; Charles S Wallace; Thomas V Stabler; Jason D Allen; George A Truskey; Jeffrey H Lawson Journal: Biomaterials Date: 2010-11-05 Impact factor: 12.479