Polyphenolic materials are a class of fascinating and versatile bioinspired materials for
biointerfacial engineering. In particular, due to the presence of active chemical groups, a …

At present, peripheral nerve injuries (PNIs) are one of the leading causes of substantial
impairment around the globe. Complete recovery of nerve function after an injury is …

Effective repair and functional recovery of large peripheral nerve deficits are urgent clinical
needs. A biofunctional electroactive scaffold typically acts as a “bridge” for the repair of large …

The development of three-dimensional (3D) bioprinting technology opens a door for
constructing bionic nerve tissue scaffolds on demand for nerve injury repair. However, the …

Injectable hydrogels are a promising treatment option for nervous system injuries due to the
difficulty to replace lost cells and nervous factors but research on injectable conductive …

Abstract 3D printing technology has opened a new paradigm to controllably and
reproducibly fabricate bioengineered neural constructs for potential applications in repairing …

Nitro-functionality, with a large deficit of negative charge, embraces biological importance
and has proven its therapeutic essence even in chemotherapy. Functionally, with its strong …

Because of the complex nerve anatomy and limited regeneration ability of natural tissue, the
current treatment effect for long-distance peripheral nerve regeneration and spinal cord …

Nanofibers are used in a wide range of applications, including scaffolds for tissue
engineering. Electrospinning is a promising technique to fabricate nanofibrous scaffolds …

Peripheral nerve injuries present significant challenges in regenerative medicine, primarily
due to inherent limitations in the body's natural healing processes. In response to these …