Dynamic alterations in M2 macrophage subtypes enhance flap expansion efficiency and tissue regeneration

Dilatation of soft skin tissue is a common surgical procedure in plastic surgery. M2 macrophages play a critical role in reducing inflammation, promoting epithelial and vascular endothelial cell proliferation, enhancing collagen synthesis in fibroblasts, and orchestrating extracellular matrix remodelling by promoting angiogenesis, epithelialisation, and fibrosis. Macrophages improve flap survival by promoting microangiogenesis and collagen remodelling. However, the role of macrophages in flap expansion has not yet been investigated. Improving the expansion efficiency of dilatation flaps and promoting flap vascularisation are the pressing problems in the fields of plastic and reconstruction surgery. In the present study, we used a mouse model to assess the effects of macrophage activation on skin expansion, thickness, ultrastructure, intradermal angiogenesis, and collagen and cytokine levels. Our findings revealed dynamic changes in the macrophage content and subtypes within the expansion flaps. The enrichment of M2 macrophages significantly enhanced the efficiency of flap expansion, vascularisation, and collagen synthesis. Our findings underline the pivotal role of M2 macrophages in tissue regeneration at the molecular and biochemical levels. These findings provide a basis for improving flap expansion efficiency using M2 macrophages.