Bo-Wen Li1, Wen-Chieh Liao, Szu-Hsien Wu, Hsu Ma. 1. Division of Plastic Surgery, Department of Surgery, Taipei Veterans General Hospital, and National Yang-Ming University, Shipai Rd., Taipei, Taiwan.
Abstract
BACKGROUND: Absorption of the autologous fat graft results in repeated harvesting procedures. The cost and complications increase with repeated procedures, but cryopreservation is one way to solve the problem. The aim of this study was to find an optimal temperature at which to store fat tissue with or without cryoprotective agents for long-term use. METHODS: Fat tissues harvested by liposuction were stored in normal saline, frozen in the freezer following the preset program, and cryopreserved at -20, -80, and -196°C. The other group of fat tissues was stored in hydroxyethyl starch using the same frozen procedure. Two and 7 days after cryopreservation, viability tests were conducted. The fat tissues were injected into nude mice 2 and 4 weeks after cryopreservation. Three months later the fat grafts were harvested for histologic examination. RESULTS: No significant differences in cell viability were found in either in vitro or in vivo experiments for the three preserving temperatures. The cryoprotective agent HES did not influence cell viability. CONCLUSION: There were no differences in cell viability among the three temperatures and with the use of a cryoprotective agent. Cryopreservation for salvage management is a clinically practical method.
BACKGROUND: Absorption of the autologous fat graft results in repeated harvesting procedures. The cost and complications increase with repeated procedures, but cryopreservation is one way to solve the problem. The aim of this study was to find an optimal temperature at which to store fat tissue with or without cryoprotective agents for long-term use. METHODS: Fat tissues harvested by liposuction were stored in normal saline, frozen in the freezer following the preset program, and cryopreserved at -20, -80, and -196°C. The other group of fat tissues was stored in hydroxyethyl starch using the same frozen procedure. Two and 7 days after cryopreservation, viability tests were conducted. The fat tissues were injected into nude mice 2 and 4 weeks after cryopreservation. Three months later the fat grafts were harvested for histologic examination. RESULTS: No significant differences in cell viability were found in either in vitro or in vivo experiments for the three preserving temperatures. The cryoprotective agent HES did not influence cell viability. CONCLUSION: There were no differences in cell viability among the three temperatures and with the use of a cryoprotective agent. Cryopreservation for salvage management is a clinically practical method.
Authors: María Eloísa Villaverde-Doménech; Roberto Moltó-García; Virina Gonzalez-Alonso; Juan Pablo Aracil-Kessler; Carmen Carda-Batalla; Edurne Novella-Maestre Journal: Plast Reconstr Surg Glob Open Date: 2021-11-11