Advanced Biomaterials for Regulating Polarization of Macrophages in Wound Healing

Macrophage immunotherapy is an emerging treatment strategy that modulates the immune system to promote wound healing. The functionality and regeneration of tissue depend on spatially and temporally regulating the biophysical and biochemical microenvironmental with poorly understood mechanisms. Biomaterials are carefully crafted to display and deliver macrophage regulatory signals in a precise and near-physiological way, serving as powerful artificial microenvironments in which to explore and direct the fate of macrophages. The review starts with discussing the classification and function of macrophages, and then introduces the polarization of macrophages in different microenvironments of conventional wounds and chronic wounds. Recent advances in biomaterials that balance the phenotypes of macrophages in wound healing are emphasized. Finally, looking ahead, the potential ability of biomaterial scaffolds to modulate immune signaling to produce an environment conducive to regeneration is discussed.

Automated summary

The review discusses the use of macrophage immunotherapy in promoting wound healing, as well as the importance of biomaterials in regulating macrophage signaling for tissue regeneration.