During the past few years, bacterial infection and oxidative stress have become important
issues for wound healing. However, the emergence of numerous drug-resistant superbugs …

Background Drug-resistant bacterial infections in chronic wounds are a persistent issue, as
they are resistant to antibiotics and can cause excessive inflammation due to generation of …

Antibacterial wound dressings can effectively avoid the residual of antibacterial
nanomaterials for injection in vivo, reduce their biological toxicity to normal cells and tissues …

Effectively controlling bacterial infection, reducing the inflammation and promoting vascular
regeneration are all essential strategies for wound repair. Nanozyme technology has …

Bacterial infection can hinder the infected wound healing process. Because of the growing
drug-resistance bacteria, there is an urgent desire to develop alternative antibacterial …

Developing an effective strategy to combat multi-drug-resistant (MDR) bacteria and promote
wound healing without overuse of antibiotics remains an important and challenging goal …

As common reactive oxygen species, H 2 O 2 is widely used for bacterial inactivation and
wound disinfection. However, the concentrations used are always higher than physiological …

Antibacterial nanomaterials have attracted growing interest for bacterial infection therapy.
However, most nanomaterials eliminate bacteria either physically or chemically, which …

Artificial enzymes have provided great antimicrobial activity to combat wound infection.
However, the lack of tissue repair capability compromised their treatment effect. Therefore …

Background The complex hyperglycemic, hypoxic, and reactive oxygen species
microenvironment of diabetic wound leads to vascular defects and bacterial growth and …