Chemically Extracted Acellular Nerve Allograft Seeded with SDNF and Autogenic ADSCs for Peripheral Nerve Repairment in a Beagle Model

Li Wei, C. Lei, Gu Dongqiang, Liang ChunBao, Zhang Shunxin
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Abstract

Peripheral nerve repair is a major challenge in clinical practice. Nerve grafting is required to treat severe peripheral nerve defects caused by injuries. Available nerve sources for autologous transplantation are limited. Stem cells offer promise for peripheral nerve repair and regeneration. However, the current lack of Schwann cell phenotype, high costs, and major trauma limit the production of Schwann cells from stem cell differentiation. Thus, the purpose of this study is to investigate the ability of adipose-derived stem cells (ADSCs) to differentiate into the Schwann cell phenotype, after treatment with Schwann cell-derived neurotrophic factor (SDNF) in vitro. ADSCs were isolated and cultured for use in two types of nerve grafts: Acellular allogeneic nerves (ACEN), and acellular allogeneic nerves treated with SDNF (ACEN + SDNF). Chemically extracted, untreated acellular allogeneic nerves (CEN), acellular allogeneic nerves with isolated and cultured autologous SCs (CEN + SCs), and fresh autografts (AG) served as controls. Hematoxylin and eosin (HE) and S100 immunohistochemical staining were performed to observe the cytokine levels in the nerve grafts; enzyme-linked immunosorbent assay (ELISA) and realtime PCR were performed to evaluate the S100 and glial fibrillary acidic protein (GFAP) expression. The acellular nerve allografts seeded with ADSCs and SDNF showed significant S100 and GFAP expressions. No significant statistical differences were observed between the ACEN + SDNF, ACEN + SCs, and AG groups. These data suggest that such acellular nerve allografts should be evaluated as therapeutic strategies for treating severe peripheral nerve defects.
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化学提取脱细胞神经同种异体移植物植入SDNF和自体ADSCs修复小猎犬模型周围神经
周围神经修复是临床实践中的一大挑战。神经移植是治疗损伤引起的严重周围神经缺损的必要手段。可用于自体移植的神经来源有限。干细胞为周围神经的修复和再生提供了希望。然而,目前缺乏雪旺细胞表型,高成本和重大创伤限制了干细胞分化产生雪旺细胞。因此,本研究的目的是研究脂肪源性干细胞(ADSCs)在体外施旺细胞源性神经营养因子(SDNF)处理后向施旺细胞表型分化的能力。分离并培养ADSCs用于两种类型的神经移植物:脱细胞异体神经(ACEN)和用SDNF处理的脱细胞异体神经(ACEN + SDNF)。化学提取、未经处理的脱细胞异体神经(CEN)、分离培养的自体SCs (CEN + SCs)和新鲜自体移植物(AG)作为对照。采用苏木精伊红(HE)和S100免疫组化染色观察移植物细胞因子水平;采用酶联免疫吸附法(ELISA)和实时荧光定量PCR检测S100和胶质纤维酸性蛋白(GFAP)的表达。以ADSCs和SDNF为种子的脱细胞神经同种异体移植物显示显著的S100和GFAP表达。ACEN + SDNF、ACEN + SCs、AG组间无统计学差异。这些数据表明,这种脱细胞神经异体移植物应该作为治疗严重周围神经缺损的治疗策略进行评估。
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