The regenerative capacity of bone is indispensable for growth, given that accidental injury is
almost inevitable. Bone regenerative capacity is relevant for the aging population globally …

Bone healing is a complex process orchestrated by various factors, such as mechanical,
chemical and electrical cues. Creating synthetic biomaterials that combine several of these …

Bone defects caused by aging populations and accidental injuries have a significant impact
on human life, making bone repair and regeneration a research hotspot. The piezoelectric …

Bone defects are often accompanied by infection, which causes great physical pain to
patients. Metal-phenolic networks (MPNs) are a newly organic–inorganic hybrid networks …

Background Electrical stimulation is used for enhanced bone fracture healing.
Electrochemical processes occur during the electrical stimulation at the electrodes and …

In this work, we propose a simple, reliable, and versatile strategy to create 3D
electroconductive scaffolds suitable for bone tissue engineering (TE) applications with …

Macrophages play an essential role in immunotherapy and tissue regeneration owing to
their remarkable plasticity and diverse functions. Recent bioengineering developments have …

Biophysical stimuli such as alternating electrical fields can mimic endogenous electrical
potentials and currents in natural bone. This can help to improve the healing and …

Osteoporosis is not merely a disease of bone loss but also involves changes in the mineral
composition of the bone that remains. In vitro studies have investigated these changes and …

Tissue regeneration involves dynamic dialogue between and among different cells and their
surrounding matrices. Bone regeneration is specifically governed by reciprocity between …