Versatile strategies have been developed to construct electrospun fiber-based drug delivery
systems for tissue regeneration and cancer therapy. We first introduce the construction of …

Degradable biomedical elastomers (DBE), characterized by controlled biodegradability,
excellent biocompatibility, tailored elasticity, and favorable network design and …

Neuronal microenvironment imbalance is associated with successive and irreversible
pathophysiological changes and insufficient functional restoration after peripheral nerve …

Graphene oxide (GO) has attracted much attention in the past few years because of its
interesting and promising electrical, thermal, mechanical, and structural properties. These …

Graphene, a wonder material, has made far-reaching developments in many different fields
such as materials science, electronics, condensed physics, quantum physics, energy …

Due to the complex structural hierarchy and regenerative microenvironment of peripheral
nerves, developing a nerve guidance conduit (NGC) that can replace autografts for repairing …

Repairing peripheral nerve injury, especially long-range defects of thick nerves, is a great
challenge in the clinic due to their limited regeneration capability. Most FDA-approved nerve …

Regenerative medicine has become one of the hottest research topics in medical science
that provides a promising way for repairing tissue defects in the human body. Due to their …

Graphene, as a promising biomaterial, has received great attention in biomedical fields due
to its intriguing properties, especially the conductivity and biocompatibility. Given limited …

This review summarizes the current knowledge on current and future applications of carbon
nanoparticles in medicine. The carbon nanoparticle family has a large number of …