Many types of polymer nanofibers have been introduced as artificial extracellular matrices.
Their controllable properties, such as wettability, surface charge, transparency, elasticity …

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 …

Nanotechnology is one of the most promising technologies available today, holding
tremendous potential for biomedical and healthcare applications. In this field, there is an …

The surface morphology of micro-and nano-scale fiber determines its application to a great
extent. At present, a variety of secondary morphology of microfibers and nanofibers, such as …

Electrospinning is considered the most versatile micro‐/nanofiber fabrication technology.
The electrospun fibers hold high surface area, desired mechanical properties, controlled …

Nervous system injuries remain a great challenge due to limited natural tissue regeneration
capabilities. Neural tissue engineering has been regarded as a promising approach for …

Diabetic chronic wounds pose significant clinical challenges due to their characteristic
features of impaired extracellular matrix (ECM) function, diminished angiogenesis, chronic …

Poly (glycerol sebacate)(PGS), a synthetic biorubber, is characterised by its biocompatibility,
high elasticity and tunable mechanical properties; however, its inherent hydrophobicity and …

To date, pharmaceutical progresses in central nervous system (CNS) diseases are clearly
hampered by the lack of suitable disease models. Indeed, animal models do not faithfully …

Tissue engineering has been a subject of extensive scientific exploration in the last two
decades making gradual inroads into clinical studies as well. Along with regenerative cells …