Biomechanical microenvironmental stimulating effect of pulsed electromagnetic field on the regeneration of crush injured rat sciatic nerve.

IF 3.2 4区医学 Q2 ENGINEERING, BIOMEDICAL Biomedical Engineering Letters Pub Date : 2023-04-07 eCollection Date: 2023-05-01 DOI:10.1007/s13534-023-00276-w

Sang-Yoon Lee, Bongju Kim, Sung-Ho Lee, Kyungwon Ju, Soung-Min Kim, Jong-Ho Lee, KangMi Pang

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Abstract

This study evaluated the biomechanical microenvironmental stimulating effect of pulsed electromagnetic field (PEMF) on the regeneration of crush-injured rat sciatic nerve, when combined with bone marrow mesenchymal stem cells (BMSCs) and recombinant human nerve growth factor (rhNGF-β), in the form of an adenoviral vector-mediated NGF. Sprague-Dawley rats were equally distributed into six groups; PBS, BMSC, NGF-Ad + BMSC, PEMF + PBS, PEMF + BMSC and PEMF + NGF-Ad + BMSC. The PBS group received PBS (volume: 10μL/rat), the BMSC group with BMSCs (1 × 10⁶ cell/10 μL/rat) and NGF-Ad group with the rhNGF-β Ad infected BMSCs (1 × 10⁶ cell/10 μL/rat) immediate after right sciatic nerve crush injury. The PEMF groups were exposed to PEMF of 1mT, 50 Hz, 1 h/day. The rats were observed for 3 weeks. PEMF alone did not showed the positive effect compared with negative control group. The groups transplanted with BMSCs showed higher axonal regeneration compared with the groups without transplantation of the cells whether BMSC was infected with NGF-Ad or not and whether the animals received PEMF. PEMF + NGF-Ad + BMSC group showed the significantly highest number of axons than the other groups. Functionally, all groups showed marked improvement at 3 weeks postoperatively although the difference was not statistically significant among the groups. PEMF showed the positive effect when combined with BMSC and NGF-ad in aspect of number of axons. Therefore, combining the microenvironment stimulation methods of PEMF and conventional methods such as transplantation of stem cells and growth factor could be considered for the regeneration methods in the nerve damage.

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脉冲电磁场对挤压损伤大鼠坐骨神经再生的生物力学微环境刺激效应

本研究评估了脉冲电磁场（PEMF）与骨髓间充质干细胞（BMSCs）和重组人神经生长因子（rhNGF-β）（以腺病毒载体介导的 NGF 形式）相结合对挤压伤大鼠坐骨神经再生的生物力学微环境刺激作用。Sprague-Dawley 大鼠被平均分为六组：PBS 组、BMSC 组、NGF-Ad + BMSC 组、PEMF + PBS 组、PEMF + BMSC 组和 PEMF + NGF-Ad + BMSC 组。PBS 组接受 PBS（体积：10μL/只大鼠），BMSC 组接受 BMSCs（1 × 106 个细胞/10 μL/只大鼠），NGF-Ad 组在右坐骨神经挤压伤后立即接受 rhNGF-β Ad 感染的 BMSCs（1 × 106 个细胞/10 μL/只大鼠）。PEMF 组暴露于 1mT、50 Hz、每天 1 小时的 PEMF。对大鼠进行为期 3 周的观察。与阴性对照组相比，单纯的 PEMF 没有显示出积极的效果。无论 BMSC 是否感染了 NGF-Ad，也无论动物是否接受了 PEMF，移植了 BMSC 的组比没有移植细胞的组显示出更高的轴突再生能力。PEMF+NGF-Ad+BMSC组的轴突数量明显高于其他组。从功能上看，所有组别在术后 3 周均有明显改善，但各组间差异无统计学意义。在轴突数量方面，PEMF 与 BMSC 和 NGF-ad 的结合显示出积极的效果。因此，可以考虑将 PEMF 的微环境刺激方法与干细胞移植和生长因子等传统方法相结合，作为神经损伤的再生方法。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Biomedical Engineering Letters ENGINEERING, BIOMEDICAL-

CiteScore

6.80

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0.00%

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期刊介绍： Biomedical Engineering Letters (BMEL) aims to present the innovative experimental science and technological development in the biomedical field as well as clinical application of new development. The article must contain original biomedical engineering content, defined as development, theoretical analysis, and evaluation/validation of a new technique. BMEL publishes the following types of papers: original articles, review articles, editorials, and letters to the editor. All the papers are reviewed in single-blind fashion.