ABSTRACT
Objective To discuss the effect of bone marrow mesenchymal stem cell (BMSC)as the seed cell transplantation of tissue-engineered artificial nerve in the treatment of peripheral nerve injury. Methods BMSC was obtained from the bone marrow of adult rat through isolation and culture and combined with acellular nerve scaffold to construct ‘tissue-engineered artificial nerve’.After transplantation,rats were divided into two groups,the BMSC +acellular nerve conduit group(BMSC treatment group)and the empty cell conduit group(negative control group)with 5 rats in each group.Sciatic functional index (SFI)of the affected side of rats was compared between two groups at 2 weeks,4 weeks and 8 weeks after the surgery.Moreover,the sciatic conduction,recovery rate of tricipital muscle wet weight and other repair effects of the affected side were compared between two groups at 8 weeks after the surgery.Results The indicators of BMSC treatment group, including SFI assessed at 2 weeks,4 weeks and 8 weeks after the surgery as well as the sciatic conduction and recovery rate of tricipital muscle wet weight assessed at 8 weeks after the surgery,were better than those of the negative control group(all in P <0.05).Conclusions BMSC combined with tissue-engineered artificial nerve of acellular nerve scaffold can effectively promote nerve regeneration and function recovery.
ABSTRACT
Objective: To observe the biocompatibility of acellular nerve scaffold (ANS) via three sterilization methods, to provide experimental data for tissue engineering industrialization. Methods: Pig sciatic nerves were cut and treated using the NaOH maceration method. ANSs were sterilized by ethylene oxide, ~(60)Co-irradiation and peracetic acid. Evaluated the biocompatibility by MTT, cellular compatibility test, collagenase susceptibility test in vitro and local implantation test. Results: ANS retained the integrity of structure and major components of the basement membrane. The result of MTT test showed that the ANSs via different sterilization methods had statistical differences. There were no overall significant differences in Collagenase susceptibility test. Scanning electron microscope results showed the skin fibroblasts could attach, proliferate and grow well on the surface and holes of ANS with sterilization of PAA and Co~(60),a small quantity of cells adhered on ANS with sterilization of ETO. Tests for local effects after implantation show that different sterilization methods don't effect the ability of ANS to resist the enzyme degradation. In ETO group, rats showed an acute inflammatory response followed by chronic inflammation. In PAA and ~(60)Co group rats showed an acute inflammatory response that diminished such that the graft ultimately became indistinguishable from native tissue, observations that were consistent with graft acceptance. Conclusion: Peracetic acid sterilization offers a convenient alternative protocol for ANS processing. ANS sterilized with PAA shows good compatibility and biologic safety. It is an ideal sterilization method for ANS.