Dolph Houben

182 CHAPTER 9 19. Ohno, T., M. Pelzer, M. Larsen, et al., Host-derived angiogenesis maintains bone blood flow after withdrawal of immunosuppression. Microsurgery, 2007. 27 (8): p. 657-63. 20. 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. 21. 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. 22. 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. 23. Enneking, W.F., J.L. Gady, and H. Burchardt, Autogenous cortical bone grafts in the reconstruction of segmental skeletal defects. J Bone Joint Surg, 1980. 62A : p. 1039-1058. 24. Enneking, W.F. and E.R. Mindell, Observations on massive retrieved human allografts. J Bone Joint Surg Am, 1991. 73 (8): p. 1123-42. 25. Burchardt, H., G.A. Busbee, 3rd, and W.F. Enneking, Repair of experimental autologous grafts of cortical bone. J Bone Joint Surg Am, 1975. 57 (6): p. 814-9. 26. Taylor, G.I., The current status of free vascularized bone grafts. Clinics in Plastic Surgery, 1983. 10 (1): p. 185- 209. 27. Taylor, G.I., G.D.H. Miller, and F.J. Ham, The free vascularized bone graft. A clinical extension of microvascular techniques. Plast Reconstr Surg, 1975. 55 : p. 533-34. 28. Weiland, A.J., Vascularized bone transfers. AAOS Instructional Course Lectures, 1984. 33 : p. 446-60. 29. 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. 30. Wood, M.B., Free vascularized fibular grafting-25 years' experience: tips, techniques, and pearls. Orthopedic Clinics of North America, 2007. 38 (1): p. 1-12, v. 31. Lazar, E., D.I. Rosenthal, and J. Jupiter, Free vascularized fibular grafts: radiographic evidence of remodeling and hypertrophy. AJR Am J Roentgenol, 1993. 161 (3): p. 613-5. 32. Ozaki, T., A. Hillmann, P. Wuisman, et al., Reconstruction of tibia by ipsilateral vascularized fibula and allograft. 12 cases with malignant bone tumors. Acta Orthop Scand, 1997. 68 (3): p. 298-301. 33. Goodman, S. and P. Aspenberg, Effects of mechanical stimulation on the differentiation of hard tissues. Biomaterials, 1993. 14 (8): p. 563-9. 34. Ceruso, M., F. Taddei, P. Bigazzi, et al., Vascularised fibula graft inlaid in a massive bone allograft: considerations on the bio-mechanical behaviour of the combined graft in segmental bone reconstructions after sarcoma resection. Injury, 2008. 39 (3). 35. Hert, J., E. Pribylova, and M. Liskova, Reaction of bone to mechanical stimuli. 3. Microstructure of compact bone of rabbit tibia after intermittent loading. Acta Anat (Basel), 1972. 82 (2): p. 218-30. 36. Haw, C.S., B.M. O'Brien, and T. Kurata, The microsurgical revascularisation of resected segments of tibia in the dog. J Bone Joint Surg Br., 1978. 60 (2): p. J Bone Joint Surg Br. 37. Berrey, B.H., Jr., C.F. Lord, M.C. Gebhardt, et al., Fractures of allografts. Frequency, treatment, and end- results. J Bone Joint Surg Am, 1990. 72 (6): p. 825-33. 38. Weiland, A.J., T.W. Phillips, and M.A. Randolph, Bone grafts: a radiologic, histologic, and biomechanical model comparing autografts, allografts, and free vascularized bone grafts. Plastic & Reconstructive Surgery, 1984. 74 (3): p. 368-79.