Electrospinning is a versatile and viable technique for generating ultrathin fibers.
Remarkable progress has been made with regard to the development of electrospinning …

Electrically conducting polymers such as polyaniline, polypyrrole, polythiophene, and their
derivatives (mainly aniline oligomer and poly (3, 4-ethylenedioxythiophene)) with good …

Peripheral nerve regeneration is a complex physiological process. Single-function nerve
scaffolds often struggle to quickly adapt to the imbalanced regenerative microenvironment …

The treatment of long-gap (> 10 mm) peripheral nerve injury (PNI) and spinal cord injury
(SCI) remains a continuous challenge due to limited native tissue regeneration capabilities …

Delayed injured nerve regeneration remains a clinical problem, partly ascribing to the lack of
regulation of regenerative microenvironment, topographical cues, and blood nourishment …

Unlike other tissue types, the nervous tissue extends to a wide and complex environment
that provides a plurality of different biochemical and topological stimuli, which in turn defines …

Topographical cues presented by aligned nanofibers have been demonstrated to stimulate
peripheral nerve regeneration across long gaps, but the underlying mechanisms remain …

Electrical and/or electromechanical stimulation has been shown to play a significant role in
regenerating various functionalities in soft tissues, such as tendons, muscles, and nerves. In …

Several studies suggest that topographical patterns influence nerve cell fate. Efforts have
been made to improve nerve cell functionality through this approach, focusing on …

Biomaterials can modulate the local immune microenvironments to promote peripheral
nerve regeneration. Inspired by the spatial orderly distribution and endogenous electric field …