Adipose tissue-derived stem cells (ADSCs) have shown potential for the treatment of nerve
injuries. Most previous efforts have aimed at stimulating regeneration by using neural …

Traumatic injuries resulting in peripheral nerve lesions often require a graft to bridge the
gap. Although autologous nerve auto-graft is still the first-choice strategy in reconstructions …

Background: During recent decades, multipotent stem cells were found to reside in the
adipose tissue, and these adipose-derived stem cells were shown to play beneficial roles …

Finding a viable cell‐based therapy to address peripheral nerve injury holds promise for
enhancing the currently suboptimal microsurgical approaches to peripheral nerve repair …

Peripheral nerve injury requiring nerve gap reconstruction remains a major problem. In the
quest to find an alternative to autogenous nerve graft procedures, attempts have been made …

Background To date, it has repeatedly been demonstrated that infusing bone marrow-
derived stem cells (BMSCs) into acellular nerve scaffolds can promote and support axon …

Adipose-derived stem cells (ADSCs) are attracting increased attention as a novel source in
regenerative medicine. Transplantation of ADSCs promotes functional recovery in animal …

Unlike central nervous system neurons; those in the peripheral nervous system have the
potential for full regeneration after injury. Following injury, recovery is controlled by schwann …

In order to improve the outcome of nerve regeneration following peripheral trauma injuries,
the development of bioengineered nerve grafts has attracted great attention in the field of …

Results: Cultured ADSCs became morphologically homogeneous with a bipolar, spindle-
like shape after ex vivo expansion. Implantation of ADSCs into the rat models led to (i) …