Dolph Houben

29 Introduction and Outline of the Thesis 1 144. Mathes, D.W., M.A. Randolph, J.L. Bourget, et al., Recipient bone marrow engraftment in donor tissue after long-term tolerance to a composite tissue allograft. Transplantation, 2002. 73 (12): p. 1880-5. 145. Ren, X., M.V. Shirbacheh, E.T. Ustuner, et al., Osteomyocutaneous flap as a preclinical composite tissue allograft: swine model. Microsurgery, 2000. 20 (3): p. 143-9. 146. Ustuner, E.T., M. Zdichavsky, X. Ren, et al., Long-term composite tissue allograft survival in a porcine model with cyclosporine/mycophenolate mofetil therapy. Transplantation, 1998. 66 (12): p. 1581-7. 147. Vossen, M., J. Edelstein, R.K. Majzoub, et al., Bone quality and healing in a swine vascularized bone allotransplantation model using cyclosporine-based immunosuppression therapy. Plastic & Reconstructive Surgery, 2005. 115 (2): p. 529-38. 148. Zdichavsky, M., J.W. Jones, E.T. Ustuner, et al., Scoring of skin rejection in a swine composite tissue allograft model. J Surg Res, 1999. 85 (1): p. 1-8. 149. Kotsougiani, D., C.A. Hundepool, J.I. Willems, et al., Surgical Angiogenesis in Porcine Tibial Allotransplantation: A New Large Animal Bone Vascularized Composite Allotransplantation Model. J Vis Exp., 2017. (126). (doi): p. 10.3791/55238. 150. Kotsougiani, D., J.I. Willems, A.Y. Shin, et al., A new porcine vascularized tibial bone allotransplantation model. Anatomy and surgical technique. Microsurgery., 2018. 38 (2): p. 195-202. doi: 10.1002/micr.30255. Epub 2017 Nov 13. 151. Kotsougiani, D., C.A. Hundepool, L.F. Bulstra, et al., Recipient-derived angiogenesis with short term immunosuppression increases bone remodeling in bone vascularized composite allotransplantation: A pilot study in a swine tibial defect model. J Orthop Res., 2017. 35 (6): p. 1242-1249. doi: 10.1002/jor.23378. Epub 2016 Aug 12.