Femke Mathot
Chapter 6 106 Gene 2019. 26. Zhao Z, Wang Y, Peng J, et al. Repair of nerve defect with acellular nerve graft supplemented by bone marrow stromal cells in mice. Microsurgery 2011: 31: 388-94. 27. Zhang Y, Luo H, Zhang Z, et al. A nerve graft constructed with xenogeneic acellular nerve matrix and autologous adipose-derived mesenchymal stem cells. Biomaterials 2010: 31: 5312-24. 28. Hundepool CA, Nijhuis TH, Kotsougiani D, et al. Optimizing decellularization techniques to create a new nerve allograft: an in vitro study using rodent nerve segments. Neurosurg Focus 2017: 42. 29. Rbia N, Bulstra LF, Thaler R, et al. In Vivo Survival of Mesenchymal Stromal Cell-Enhanced Decellularized Nerve Grafts for Segmental Peripheral Nerve Reconstruction. J Hand Surg Am 2019: 44: 514.e1-14.e11. 30. Mathot F, Rbia N, Bishop AT, et al. Adhesion, distribution, and migration of differentiated and undifferentiated mesenchymal stem cells (MSCs) seeded on nerve allografts. J Plast Reconstr Aesthet Surg 2019. 31. Rbia N, Bulstra LF, Bishop AT, van Wijnen AJ, Shin AY. A simple dynamic strategy to deliver stem cells to decellularized nerve allografts. Plast Reconstr Surg 2018. 32. Mathot F, Rbia N, Thaler R, et al. Gene expression profiles of differentiated and undifferentiated adipose derived mesenchymal stem cells dynamically seeded onto a processed nerve allograft. Gene 2020: 724: 144151. 33. Tang P, Whiteman DR, Voigt C, Miller MC, Kim H. No Difference in Outcomes Detected Between Decellular Nerve Allograft and Cable Autograft in Rat Sciatic Nerve Defects. J Bone Joint Surg Am 2019: 101: e42. 34. Hudson TW, Zawko S, Deister C, et al. Optimized acellular nerve graft is immunologically tolerated and supports regeneration. Tissue Eng 2004: 10: 1641-51. 35. Kumta S, Yip K, Roy N, Lee SK, Leung PC. Revascularisation of bone allografts following vascular bundle implantation: an experimental study in rats. Arch Orthop Trauma Surg 1996: 115: 206-10. 36. Kingham PJ, Kalbermatten DF, Mahay D, et al. Adipose-derived stem cells differentiate into a Schwann cell phenotype and promote neurite outgrowth in vitro. Exp Neurol 2007: 207: 267-74. 37. Crespo-Diaz R, Behfar A, Butler GW, et al. Platelet lysate consisting of a natural repair proteome supports human mesenchymal stem cell proliferation and chromosomal stability. Cell Transplant 2011: 20: 797-811. 38. Mader EK, Butler G, Dowdy SC, et al. Optimizing patient derived mesenchymal stem cells as virus carriers for a phase I clinical trial in ovarian cancer. J Transl Med 2013: 11: 20. 39. Mahmoudifar N, Doran PM. Osteogenic differentiation and osteochondral tissue engineering using human adipose-derived stem cells. Biotechnol Prog 2013: 29: 176-85. 40. Dominici M, Le Blanc K, Mueller I, et al. Minimal criteria for defining multipotent mesenchymal stromal cells. The International Society for Cellular Therapy position statement. Cytotherapy 2006: 8: 315-7. 41. Hundepool CA, Bulstra LF, Kotsougiani D, et al. Comparable functional motor outcomes after repair of peripheral nerve injury with an elastase-processed allograft in a rat sciatic nerve model. Microsurgery 2018: 38: 772-79. 42. Saffari TM, Mathot F, Bishop AT, Shin AY. New methods for objective angiogenesis evaluation of rat nerves using microcomputed tomography scanning and conventional photography. Microsurgery 2019. 43. Perrien DS, Saleh MA, Takahashi K, et al. Novel methods for microCT-based analyses of vasculature in the renal cortex reveal a loss of perfusable arterioles and glomeruli in eNOS-/- mice. BMC Nephrol 2016: 17: 24. 44. Kline TL, Knudsen BE, Anderson JL, et al. Anatomy of hepatic arteriolo-portal venular shunts evaluated by 3D micro-CT imaging. J Anat 2014: 224: 724-31. 45. Giusti G, Lee JY, Kremer T, et al. The influence of vascularization of transplanted processed allograft nerve on return of motor function in rats. Microsurgery 2016: 36: 134-43.
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