Wound healing is a long-term,multi-stage biological process that mainly includes haemostatic,inflammatory,proliferative and tissue remodelling phases.Controlling infection and inflammation and promoting tissue regener...Wound healing is a long-term,multi-stage biological process that mainly includes haemostatic,inflammatory,proliferative and tissue remodelling phases.Controlling infection and inflammation and promoting tissue regeneration can contribute well to wound healing.Smart biomaterials offer significant advantages in wound healing because of their ability to control wound healing in time and space.Understanding how biomaterials are designed for different stages of wound healing will facilitate future personalized material tailoring for different wounds,making them beneficial for wound therapy.This review summarizes the design approaches of biomaterials in the field of anti-inflammatory,antimicrobial and tissue regeneration,highlights the advanced precise control achieved by biomaterials in different stages of wound healing and outlines the clinical and practical applications of biomaterials in wound healing.展开更多
基金supported by the National Natural Science Youth Foundation of China(Grant 82001975)The Innovation Fund on Medicine and Education Connection of Jiangsu University(KYCX23_3759).
文摘Wound healing is a long-term,multi-stage biological process that mainly includes haemostatic,inflammatory,proliferative and tissue remodelling phases.Controlling infection and inflammation and promoting tissue regeneration can contribute well to wound healing.Smart biomaterials offer significant advantages in wound healing because of their ability to control wound healing in time and space.Understanding how biomaterials are designed for different stages of wound healing will facilitate future personalized material tailoring for different wounds,making them beneficial for wound therapy.This review summarizes the design approaches of biomaterials in the field of anti-inflammatory,antimicrobial and tissue regeneration,highlights the advanced precise control achieved by biomaterials in different stages of wound healing and outlines the clinical and practical applications of biomaterials in wound healing.
