Dolph Houben
112 CHAPTER 5 References 1. Larsen, M., M. Pelzer, P.F. Friedrich, et al., Living bone allotransplants survive by surgical angiogenesis alone: development of a novel method of composite tissue allotransplantation. Journal of Bone & Joint Surgery - American Volume, 2011. 93 (3): p. 261-73. 2. Pelzer, M., M. Larsen, Y.G. Chung, et al., Short-term immunosuppression and surgical neoangiogenesis with host vessels maintains long-term viability of vascularized bone allografts. Journal of Orthopaedic Research, 2007. 25 (3): p. 370-7. 3. Giessler, G.A., M. Zobitz, P.F. Friedrich, et al., Host-derived neoangiogenesis with short-term immunosuppression allows incorporation and remodeling of vascularized diaphyseal allogeneic rabbit femur transplants. Journal of Orthopaedic Research, 2009. 27 (6): p. 763-70. 4. 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. 5. Kotsougiani, D., C.A. Hundepool, J.I.Willems, et al., Surgical Angiogenesis inPorcineTibial Allotransplantation: A New Large Animal Bone Vascularized Composite Allotransplantation Model. J Vis Exp., 2017. (126). (doi): p. 10.3791/55238. 6. Li, J., Z. Wang, G.X. Pei, et al., Biological reconstruction using massive bone allograft with intramedullary vascularized fibular flap after intercalary resection of humeral malignancy. Journal of Surgical Oncology, 2011. 104 (3): p. 244-9. 7. Bishop, A.T., Vascularized bone grafting , in Green's operative hand surgery , D. Green, R. Hotchkiss, and W. Pederson, Editors. 1999, Churchill Livingstone: New York. 8. de Boer, H.H. and M.B. Wood, Bone changes in the vascularised fibular graft. J Bone Joint Surg Br, 1989. 71 (3): p. 374-8. 9. Han, C.S., M.B. Wood, A.T. Bishop, et al., Vascularized bone transfer. Journal of Bone & Joint Surgery - American Volume, 1992. 74 (10): p. 1441-9. 10. Kremer, T., G.A. Giessler, P.F. Friedrich, et al., Surgical angiogenesis with short-term immunosuppression maintains bone viability in rabbit allogenic knee joint transplantation. Plastic & Reconstructive Surgery, 2013. 131 (2): p. 148e-157e. 11. Larsen, M., M. Pelzer, P.F. Friedrich, et al., Survival Of Microvascular Femoral Allograft Transplants By Surgical Angiogenesis Following Withdrawal Of Short-Term Post-Operative Immunosuppression. Journal of Bone & Joint Surgery - American Volume, Submitted for publication. 12. Larsen, M., W.F. Willems, M. Pelzer, et al., Augmentation of surgical angiogenesis in vascularized bone allotransplants with host-derived a/v bundle implantation, fibroblast growth factor-2, and vascular endothelial growth factor administration. Journal of Orthopaedic Research, 2010. 28 (8): p. 1015-21. 13. 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. Journal of Visualized Experiments, 2017. 126 : p. 13. 14. Pfaffl, M.W., A new mathematical model for relative quantification in real-time RT-PCR. Nucleic Acids Res., 2001. 29 (9): p. e45. 15. O'Leary, N.A., M.W. Wright, J.R. Brister, et al., Reference sequence (RefSeq) database at NCBI: current status, taxonomic expansion, and functional annotation. Nucleic Acids Res., 2016. 44 (D1): p. D733-45. doi: 10.1093/nar/gkv1189. Epub 2015 Nov 8. 16. Kular, J., J. Tickner, S.M. Chim, et al., An overview of the regulation of bone remodelling at the cellular level. Clin Biochem., 2012. 45 (12): p. 863-73. doi: 10.1016/j.clinbiochem.2012.03.021. Epub 2012 Mar 23.
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