Baicheng Wang, Luosha Gu, Yang An, Shuyan Lin, Xiaojie Tan, Fangfei Nie, Chunlei Zhang, Shiou Zhu, Wei Wei, Junhao Wu, Yonghuan Zhen, and Dong Li
Skin wound healing is an intractable problem that represents an urgent clinical need. To solve this problem, a large number of studies have focused on the use of exosomes (EXOs) derived from adipose‐derived stem cells (ADSCs). This review describes the mechanisms whereby ADSCs‐EXOs regulate wound healing and their clinical application. In the wound, ADSCs‐EXOs modulate immune responses and inflammation. They also promote angiogenesis, accelerate proliferation and re‐epithelization of skin cells, and regulate collagen remodelling which inhibits scar hyperplasia. Compared with ADSCs therapeutics, ADSCs‐EXOs have highly stability and are easily stored. Additionally, they are not rejected by the immune system and have a homing effect and their dosage can be easily controlled. ADSCs‐EXOs can improve fat grafting and promote wound healing in patients with diabetes mellitus. They can also act as a carrier and combined scaffold for treatment, leading to scarless cutaneous repair. Overall, ADSCs‐EXOs have the potential to be used in the clinic to promote wound healing., This review describes the mechanisms whereby exosomes (EXOs) derived from adipose‐derived stem cells (ADSCs) regulate wound healing and their clinical application. In the wound, ADSCs‐EXOs modulate immune responses and inflammation, promote angiogenesis, accelerate proliferation and re‐epithelization of skin cells and regulate collagen remodelling, which inhibits scar hyperplasia. ADSCs‐EXOs have the potential to be used in the clinic, as they can improve fat grafting, promote wound healing of diabetic patients and act as a carrier and combined scaffold for treatment, leading to scarless cutaneous repair.