Nerve injury causes the death of neural cells and the breakage of nerve fibers resulting in the loss of nerve function. Neuron regeneration faces a difficult challenge due to the highly specialized system and the complex repair mechanism. In this study, according to the concept of tissue engineering and neural regeneration strategy, We use chitosan as a degradable biomaterial to integrate the three main tissue engineering elements: cell, scaffold and cell regulating factors, for achieving the purpose of nerve regeneration. Firstly, self-assembled drug carrier by using chitosan and heparin to adsorb, protect, prolong and enhance the bioactivity of growth factors (also called acidic fibroblast growth factor (aFGF)) was developed and also decrease the fibrosis and prevent adhesion in vivo. Furthermore, chitosan incorporating with carbon nanotube (CNT) can effectively improve the physicochemical properties of chitosan in various applications, especially in mechanical strength and electrical conductivity. In order to make CNT/Chitosan cell friendly most, electric O2-plasma treatment and laminin modification were applied. Successful modification was confirmed by immunolocalization, significantly improved cell adhesion and neurite extension. We hypothesize that CNT/chitosan materials provide functional nerve conduit for healing injured nerves. In this study, the final test used laminin-modified chitosan multi-walled nerve conduit combining with bone marrow stem cells (BMSCs), and grating to bridge in sciatic nerve of SD for 16 weeks. The result is shown that the therapy with stem cell can promote the neuron regeneration to crossover a 10 mm long gap and help more motor neuron to survivor. Moreover, the result is also shown that the degradation of chitosan might cause chronic inflammation which might fail the regeneration of neuron, and the therapy with stem cell can modulate the inflammation to overcome this problem. At last, this study is shown the important of animal experiments: because these data cannot present the material or cell test, the long-term animal experiments is the only way to confirm the safety and the applicability of research results. This paper using many strategy of neuron regeneration from materials, growth factors, cells to animal testing. Hope the results in this study can contribute a little to the research of neuron regeneration.