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Engineering vascularized flaps using adipose‐derived microvascular endothelial cells and mesenchymal stem cells
Authors:Dekel Rosenfeld  Erez Shor  Dror Ben‐David  Shai Meretzki  Shulamit Levenberg  Dana Egozi
Affiliation:1. Biomedical Engineering Department, Technion ‐ Israel Institute of Technology, Haifa, Israel;2. Bonus BioGroup Ltd, Haifa, Israel;3. Biomedical Engineering Department, Technion ‐ Israel Institute of Technology, Haifa, IsraelCo‐senior authors;4. Department of Plastic and Reconstructive Surgery, Kaplan Hospital, Rehovot, IsraelCo‐senior authors
Abstract:Human adipose‐derived microvascular endothelial cells (HAMEC) and mesenchymal stem cells (MSC) have been shown to bear angiogenic and vasculogenic capabilities. We hypothesize that co‐culturing HAMEC:MSC on a porous biodegradable scaffold in vitro, later implanted as a graft around femoral blood vessels in a rat, will result in its vascularization by host vessels, creating a functional vascular flap that can effectively treat a range of large full‐thickness soft tissue defects. HAMEC were co‐cultured with MSC on polymeric three‐dimensional porous constructs. Grafts were then implanted around the femoral vessels of a rat. To ensure vessel sprouting from the main femoral vessels, grafts were pre‐isolated from the surrounding tissue. Graft vascularization was monitored to confirm full vascularization before flap transfer. Flaps were then transferred to treat both abdominal wall and exposed bone and tendon of an ankle defects. Flaps were analysed to determine vascular properties in terms of maturity, functionality and survival of implanted cells. Findings show that pre‐isolated grafts bearing the HAMEC:MSC combination promoted formation of highly vascularized flaps, which were better integrated in both defect models. The results of this study show the essentiality of a specific adipose‐derived cell combination in successful graft vascularization and integration, two processes crucial for flap survival. Copyright © 2017 John Wiley & Sons, Ltd.
Keywords:endothelial cells  flap  mesenchymal stem cells  regenerative medicine  tissue engineering  vascularization
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