Diabetic foot ulcer (DFU) is one of the most common complications of diabetes, bringing
physical and mental challenges for patients due to the lack of efficient curative therapy …

Inspired by natural biology, cell membrane-mimetic surface engineering and cell membrane
camouflaging technology have been widely investigated. Notably, the cell membrane …

Bacterial infection has been a great threat to dermal wounds, especially to difficult-to-heal
diabetic wounds. It is known that reactive oxygen species (ROS) generated by wounds or …

Burn wounds are one of the most destructive skin traumas that cause more than 180000
deaths each year. Patients with large, irregular burn wounds suffer from slow healing …

The successful treatment of osteomyelitis remains a great challenge in the field of
orthopedics. The clinical method for treating refractory bone infection requires a combination …

Cell membrane coating technology is an approach to the biomimetic replication of cell
membrane properties, and is an active area of ongoing research readily applicable to …

Overactivated T cells and overproduced pro‐inflammatory cytokines form a self‐amplified
signaling loop to continuously exacerbate the dysregulated inflammatory response and …

The implementation of nanotechnology to develop efficient antimicrobial systems has a
significant impact on the prospects of the biomedical field. Nanogels are soft polymeric …

Hydrogel membranes (HMs) are defined and applied as hydrated porous media constructed
of hydrophilic polymers for a broad range of applications. Fascinating physiochemical …

Background Skin tissue is vital in protecting the body from injuries and bacterial infections.
Wound infection caused by bacterial colonization is one of the main factors hindering wound …