BACKGROUND: Fat grafting is a promising modality for soft-tissue augmentation/reconstruction. However, grafted fat tissue is not initially perfused and relies on plasmatic diffusion from the recipient bed until revascularization occurs. The authors evaluated the therapeutic effects of normobaric hyperoxygenation for enhancing fat graft retention. METHODS: Aspirated human fat tissue was cultured under tissue hypoxia (1% oxygen), normoxia (6%), and hyperoxia (20%) levels, and evaluated for adipocyte viability. Inguinal fat pads were autografted under mouse scalps (n=36), and mice were housed in either 20% (control) or 60% (normobaric hyperoxygenation) atmospheric oxygen for the first 3 days, and then returned to normoxia. Samples harvested at 0, 1, 2, 4, 8, and 12 weeks were analyzed immunohistochemically for adipocyte viability and regeneration. RESULTS: Organ culture adipocytes died more quickly under lower oxygen tensions; thus, hyperoxygenation of recipient tissues may delay adipocyte death after fat grafting. Autografted mouse adipose tissue underwent dynamic remodeling, from ischemic degeneration to partial regeneration, over 12 weeks. Normobaric hyperoxygenation grafted samples showed significantly larger survival zones and engraftment scores (calculated using sample weight and adipocyte viability) at 1 and 12 weeks, respectively, than control samples. In addition, adipocyte regeneration (number of perilipin-positive preadipocytes), which peaked at 4 weeks, was significantly increased in normobaric hyperoxygenation samples. CONCLUSION: The normobaric hyperoxygenation protocol using 60% oxygen can be safely applied to enhance adipocyte survival, regeneration, and final engraftment after fat grafting.
BACKGROUND: Fat grafting is a promising modality for soft-tissue augmentation/reconstruction. However, grafted fat tissue is not initially perfused and relies on plasmatic diffusion from the recipient bed until revascularization occurs. The authors evaluated the therapeutic effects of normobaric hyperoxygenation for enhancing fat graft retention. METHODS: Aspirated human fat tissue was cultured under tissue hypoxia (1% oxygen), normoxia (6%), and hyperoxia (20%) levels, and evaluated for adipocyte viability. Inguinal fat pads were autografted under mouse scalps (n=36), and mice were housed in either 20% (control) or 60% (normobaric hyperoxygenation) atmospheric oxygen for the first 3 days, and then returned to normoxia. Samples harvested at 0, 1, 2, 4, 8, and 12 weeks were analyzed immunohistochemically for adipocyte viability and regeneration. RESULTS: Organ culture adipocytes died more quickly under lower oxygen tensions; thus, hyperoxygenation of recipient tissues may delay adipocyte death after fat grafting. Autografted mouse adipose tissue underwent dynamic remodeling, from ischemic degeneration to partial regeneration, over 12 weeks. Normobaric hyperoxygenation grafted samples showed significantly larger survival zones and engraftment scores (calculated using sample weight and adipocyte viability) at 1 and 12 weeks, respectively, than control samples. In addition, adipocyte regeneration (number of perilipin-positive preadipocytes), which peaked at 4 weeks, was significantly increased in normobaric hyperoxygenation samples. CONCLUSION: The normobaric hyperoxygenation protocol using 60% oxygen can be safely applied to enhance adipocyte survival, regeneration, and final engraftment after fat grafting.
Authors: Francesco De Francesco; Antonio Guastafierro; Gianfranco Nicoletti; Sergio Razzano; Michele Riccio; Giuseppe A Ferraro Journal: Int J Mol Sci Date: 2017-05-12 Impact factor: 5.923