Traumatic injuries can lead to large bone defects under extreme conditions, which usually
take a long recovery period, while the prognosis is poor. Endogenous electric field, as one …

Bone degeneration associated with various diseases is increasing due to rapid aging,
sedentary lifestyles, and unhealthy diets. Living bone tissue has bioelectric properties critical …

The incidence of large bone defects caused by traumatic injury is increasing worldwide, and
the tissue regeneration process requires a long recovery time due to limited self-healing …

As the main load-bearing structure in the human body, bone and cartilage are susceptible to
damage in sports and other activities. The repair and regeneration of bone and articular …

Physicochemical properties of biomaterials play a regulatory role in osteoblast proliferation
and differentiation. Inspired by the electrical properties of natural bone, the electroactive …

Light-induced surface potential have been demonstrated as an effective bone marrow
mesenchymal stem cells (BMSCs) osteogenic differentiation regulator. However, traditional …

Functionalization of medical devices with biomolecules is a key strategy to control implant
outcomes, for instance, polyphenols can produce fast osseointegration and reduce both the …

Repairing infected bone defects is hindered by the presence of stubborn bacterial infections
and inadequate osteogenic activity. The incorporation of harmful antibiotics not only fosters …

Full-thickness skin repair is still a challenge in clinical practice because it is extremely
difficult for dermal reconstruction and calls for a promising strategy to achieve quick …

Bone marrow mesenchymal stem cells (BMSCs) could be regulated through their
microenvironment, which includes biological cues of extracellular matrix (ECM) and other …