The Autonomization Principle in Vascularized Flaps: An Alternative Strategy for Composite Tissue Scaffold In Vivo Revascularization.
Yanis BerkaneDavid M KostyraTheodoros ChreliasMark A RandolphAlexandre G LellouchCurtis L CetruloKorkut UygunBasak E UygunNicolas BertheuilJérôme DuisitPublished in: Bioengineering (Basel, Switzerland) (2023)
Autonomization is a physiological process allowing a flap to develop neo-vascularization from the reconstructed wound bed. This phenomenon has been used since the early application of flap surgeries but still remains poorly understood. Reconstructive strategies have greatly evolved since, and fasciocutaneous flaps have progressively replaced muscle-based reconstructions, ensuring better functional outcomes with great reliability. However, plastic surgeons still encounter challenges in complex cases where conventional flap reconstruction reaches its limitations. Furthermore, emerging bioengineering applications, such as decellularized scaffolds allowing a complex extracellular matrix to be repopulated with autologous cells, also face the complexity of revascularization. The objective of this article is to gather evidence of autonomization phenomena. A systematic review of flap autonomization is then performed to document the minimum delay allowing this process. Finally, past and potential applications in bio- and tissue-engineering approaches are discussed, highlighting the potential for in vivo revascularization of acellular scaffolds.
Keyphrases
- tissue engineering
- breast reconstruction
- extracellular matrix
- soft tissue
- percutaneous coronary intervention
- coronary artery bypass grafting
- induced apoptosis
- skeletal muscle
- bone marrow
- coronary artery disease
- magnetic resonance imaging
- human health
- quality improvement
- cell therapy
- magnetic resonance
- cell cycle arrest
- signaling pathway
- image quality
- thoracic surgery