Mesenchymal stem cells (MSCs) are promising seed cells for neural regeneration therapy
owing to their plasticity and accessibility. They possess several inherent characteristics …

Carbon nanomaterials include diverse structures and morphologies, such as fullerenes,
nano-onions, nanodots, nanodiamonds, nanohorns, nanotubes, and graphene-based …

Stem cells play a critical role in peripheral nerve regeneration. Nerve scaffolds fabricated by
specific materials can help induce the neurogenic differentiation of stem cells. Therefore, it is …

Peripheral nerve injury is a common medical condition that has a great impact on patient
quality of life. Currently, surgical management is considered to be a gold standard first-line …

Endogenous stem cell homing refers to the transport of endogenous mesenchymal stem
cells (MSCs) to damaged tissue. The paradigm of using well-designed biomaterials to …

Conductive biomaterials provide an important control for engineering neural tissues, where
electrical stimulation can potentially direct neural stem/progenitor cell (NS/PC) maturation …

The role of regenerative medicine in clinical therapies is becoming increasingly vital. Under
specific conditions, mesenchymal stem cells (MSCs) are capable of differentiating into …

Biomineralization of natural polymers in simulated body fluid (SBF) can significantly improve
its biocompatibility, osteoconductivity, and osteoinductivity because of the hydroxyapatite …

Thanks to stem cells' capability to differentiate into multiple cell types, damaged human
tissues and organs can be rapidly well-repaired. Therefore, their applicability in the …

Regenerative biomedicine has emerged as a forefront area in medical research, heralding a
new era of therapeutic strategies. This review delineates the integration of 2D materials …