Endogenous signals, namely nitric oxide (NO) and electrons, play a crucial role in regulating
cell fate as well as the vascular and neuronal systems. Unfortunately, utilizing NO and …

In tissue repair, cell behaviors can be modulated by sensing and responding to the
topographical and biochemical cues provided by the surrounding microenvironment. Herein …

Neural tissue engineering research field has been progressed by using different
approaches especially for repairing of damaged neural cells. In addition, it is known that …

Development of multifunctional tube-filling materials is required to improve the performances
of the existing nerve guidance conduits (NGCs) in the repair of long-gap peripheral nerve …

Endogenous signals, such as nitric oxide (NO) and electrons, induce multifaceted
physiological functions in the regulation of cell fate as well as vascular and neuronal …

Severe peripheral nerve injuries often result in permanent loss of function of the affected
limb. Current treatments are limited by their efficacy in supporting nerve regeneration and …

Neural guidance conduits (NGCs) have emerged as a potential alternative to autologous
neural grafts, the gold standard for peripheral neural repair. A number of NGCs have been …

Progress in the clinical application of recording and stimulation devices for neural diseases
is still limited, mainly because of suboptimal material engineering and unfavorable …

The primary function of the peripheral nerves is to transmit signals from the spinal cord to the
rest of the body, or to convey sensory information from the rest of the body to the spinal cord …

Peripheral nerve injury is a serious medical problem with limited surgical and clinical
treatment options. It is of great significance to integrate multiple guidance cues in one …