糖尿病周围神经病变（DPN）大鼠周围神经减压术后神经微循环及再生改善

Improved neural microcirculation and regeneration after peripheral nerve decompression in DPN rats.

作者信息

Zhong Wenxiang, Yang Min, Zhang Wenchuan, Visocchi Massimiliano, Chen Xiangjun, Liao Chenlong

机构信息

a Department of Neurosurgery , Xin Hua Hospital Affiliated to Shanghai Jiao Tong University School of Medicine , Shanghai , China.

b Institute of Neurosurgery, Policlinico Gemelli, Catholic University School of Medicine , Rome , Italy.

出版信息

Neurol Res. 2017 Apr;39(4):285-291. doi: 10.1080/01616412.2017.1297557. Epub 2017 Mar 14.

DOI:10.1080/01616412.2017.1297557

PMID:28290778

Abstract

OBJECTIVE

Recently, neural microcirculation and regeneration were regarded as critical factors in diabetic peripheral neuropathy (DPN) improvement. In the present study, we explored the cytological and molecular mechanisms how peripheral nerve decompression impaired nerve injury.

METHODS

Forty-five male SD rats were established as the DPN model. HE staining was used to observe the morphology and distribution of microvessels. Transmission electron microscopy was applied to observe the morphology and distribution of Schwann cells. Immunohistochemical staining was performed to measure nerve growth factor (NGF), tyrosine kinase receptor A (TrkA) and growth-associated protein 43 (GAP-43) in the distal sciatic nerve.

RESULTS

Distribution of microvessels and Schwann cells decreased in the DPN group (p < 0.05). NGF, TrkA and GAP-43 also decreased significantly in the DPN group (p < 0.05). NGF, TrkA, GAP-43 and distribution of microvessels and Schwann cells increased in the decompressed group (p < 0.05).

DISCUSSION

In DPN rats, after nerves are compressed, microcirculation disturbance and hypoxia ischemia will happen, which cause decreased expression of NGF, TrkA and GAP-43. Finally, the self-healing function of compressed nerves is impacted. Conversely, nerve decompression can improve neural microcirculation and regeneration and change the former pathological process.

摘要

目的

近年来，神经微循环和再生被视为改善糖尿病周围神经病变（DPN）的关键因素。在本研究中，我们探讨了周围神经减压减轻神经损伤的细胞学和分子机制。

方法

将45只雄性SD大鼠建立为DPN模型。采用苏木精-伊红（HE）染色观察微血管的形态和分布。应用透射电子显微镜观察施万细胞的形态和分布。对坐骨神经远端进行免疫组织化学染色以检测神经生长因子（NGF）、酪氨酸激酶受体A（TrkA）和生长相关蛋白43（GAP-43）。

结果

DPN组微血管和施万细胞的分布减少（p<0.05）。DPN组中NGF、TrkA和GAP-43也显著降低（p<0.05）。减压组中NGF、TrkA,、GAP-43以及微血管和施万细胞的分布增加（p<0.05）。

讨论

在DPN大鼠中，神经受压后会发生微循环障碍和缺氧缺血，导致NGF、TrkA和GAP-43表达降低。最终，受压神经的自我修复功能受到影响。相反，神经减压可改善神经微循环和再生，并改变先前的病理过程。

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糖尿病周围神经病变（DPN）大鼠周围神经减压术后神经微循环及再生改善

Improved neural microcirculation and regeneration after peripheral nerve decompression in DPN rats.

作者信息

机构信息

出版信息

OBJECTIVE

METHODS

RESULTS

DISCUSSION

目的

方法

结果

讨论

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