Joris van Dongen

61 Comparison of SVF isolation procedures: a systematic review Vascular Fraction Separation at the Point of Care. Annals of plastic surgery. 2015;75(6):666-671. 65. Fraser JK, Hicok KC, Shanahan R, Zhu M, Miller S, Arm DM. The Celution® system: Automated processing of adipose- derived regenerative cells in a functionally closed system. Advances in wound care. 2014;3(1):38-45. 66. Mashiko T, Wu SH, Feng J, et al. Mechanical micronization of lipoaspirates: squeeze and emulsification techniques. Plastic and reconstructive surgery. 2016. 67. van Dongen JA, Stevens HP, Parvizi M, van der Lei B, Harmsen MC. The fractionation of adipose tissue procedure to obtain stromal vascular fractions for regenerative purposes. Wound repair and regeneration : official publication of the Wound Healing Society [and] the European Tissue Repair Society. 2016. 68. Tonnard P, Verpaele A, Peeters G, Hamdi M, Cornelissen M, Declercq H. Nanofat grafting: basic research and clinical applications. Plastic and reconstructive surgery. 2013;132(4):1017-1026. 69. SundarRaj S, Deshmukh A, Priya N, Krishnan VS, Cherat M, Majumdar AS. Development of a System and Method for Automated Isolation of Stromal Vascular Fraction from Adipose Tissue Lipoaspirate. Stem cells international. 2015;2015. 70. Aronowitz JA, Lockhart RA, Hakakian CS, Birnbaum ZE. Adipose Stromal Vascular Fraction Isolation: A Head-to- Head Comparison of 4 Cell Separation Systems #2. Annals of plastic surgery. 2016;77(3):354-362. 71. Osinga R, Menzi NR, Tchang LA, et al. Effects of intersyringe processing on adipose tissue and its cellular components: implications in autologous fat grafting. Plastic and reconstructive surgery. 2015;135(6):1618-1628. 72. Aronowitz JA, Ellenhorn JD. Adipose stromal vascular fraction isolation: a head-to-head comparison of four commercial cell separation systems. Plastic and reconstructive surgery. 2013;132(6):932e-939e. 73. Lin K, Matsubara Y, Masuda Y, et al. Characterization of adipose tissue-derived cells isolated with the Celution system. Cytotherapy. 2008;10(4):417-426. 74. Domenis R, Lazzaro L, Calabrese S, et al. Adipose tissue derived stem cells: in vitro and in vivo analysis of a standard and three commercially available cell-assisted lipotransfer techniques. Stem cell research & therapy. 2015;6:2. 75. Guven S, Karagianni M, Schwalbe M, et al. Validation of an automated procedure to isolate human adipose tissue-derived cells by using the Sepax(R) technology. Tissue engineering Part C, Methods. 2012;18(8):575-582. 76. Doi K, Tanaka S, Iida H, et al. Stromal vascular fraction isolated from lipo- aspirates using an automated processing system: bench and bed analysis. Journal of tissue engineering and regenerative medicine. 2013;7(11):864-870. 77. Millan A. Comparison Between Collagenase Adipose Digestion and StromaCell Mechanical Dissociation for Mesenchymal Stem Cell Separation McNar Scholar Journal 15. 78. Pawitan JA. Prospect of stem cell conditioned medium in regenerative medicine. BioMed research international. 2014;2014:965849. 79. Pachon-Pena G, Serena C, Ejarque M, et al. Obesity Determines the Immunophenotypic Profile and Functional Characteristics of Human Mesenchymal Stem Cells From Adipose Tissue. Stem cells translational medicine. 2016;5(4):464-475.