The injury of both central and peripheral nervous systems can result in neurological
disorders and severe nervous diseases, which has been one of the challenges in the …

Neural tissue engineering holds great potential in addressing current challenges faced by
medical therapies employed for the functional recovery of the brain. In this context, self …

Central nervous system (CNS) presents a complex regeneration problem due to the inability
of central neurons to regenerate correct axonal and dendritic connections. However, recent …

The development of peptide-based materials has emerged as one of the most challenging
aspects of biomaterials in recent years. It has been widely acknowledged that peptide-based …

The regeneration of tissues and organs poses an immense challenge due to the extreme
complexity in the research work involved. Despite the tissue engineering approach being …

Self-assembled peptide-based nanomaterials have exhibited wide application potential in
the fields of materials science, nanodevices, biomedicine, tissue engineering, biosensors …

Peptide-based hydrogels have captivated remarkable attention in recent times and serve as
an excellent platform for biomedical applications owing to the impressive amalgamation of …

Various artificial materials have been fabricated as alternatives to autologous nerve grafts in
peripheral nerve regeneration, and these afford positive recovery effects without the …

Tissue and organ regeneration are challenging issues, yet they represent the frontier of
current research in the biomedical field. Currently, a major problem is the lack of ideal …

Peripheral nerve injury (PNI) is a complex disease that often appears in young adults. It is
characterized by a high incidence, limited treatment options, and poor clinical outcomes …