Conditioning Electrical Stimulation Fails to Enhance Sympathetic Axon Regeneration.

IF 3.7

Neurorehabilitation and neural repair Pub Date : 2025-07-01 Epub Date: 2025-05-02 DOI:10.1177/15459683251335321

Tina Tian, Kevin Patel, David Kim, HaoMin SiMa, Alandrea R Harris, Jordan N Owyoung, Patricia J Ward

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Abstract

Background: Peripheral nerve injuries are common, and there is a critical need for the development of novel treatments to complement surgical repair. Conditioning electrical stimulation (ES; CES) is a novel variation of the well-studied perioperative ES treatment paradigm. CES is a clinically attractive alternative because of its ability to be performed at the bedside prior to a scheduled nerve repair surgery.

Objectives: Although 60 minutes of CES has been shown to enhance motor and sensory axon regeneration, the effects of CES on sympathetic regeneration are unknown. We investigated how 2 clinically relevant CES paradigms (10 and 60 minutes) impact sympathetic axon regeneration and distal target reinnervation.

Results: Our results indicate that the growth of sympathetic axons is inhibited by CES at acute time points, and at a longer survival time point post-injury, there is no difference between sham CES and the CES groups. Furthermore, 10-minute CES did not enhance motor and sensory regeneration with a direct repair, and neither 60-minute nor 10-minute CES enhanced motor and sensory regeneration through a graft.

Conclusion: We conclude sympathetic axons may retain some regenerative ability, but no enhancement is exhibited after CES, which may be accounted for by the inability of the ES paradigm to recruit the small-caliber sympathetic axons into activity. Further studies will be needed to optimize ES parameters to enhance the regeneration of all neuron types.

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调节电刺激不能增强交感轴突再生。

背景：周围神经损伤是常见的，迫切需要开发新的治疗方法来补充手术修复。调节电刺激(ES；CES)是一种经过充分研究的ES围手术期治疗模式的新变体。CES在临床上是一种有吸引力的替代方案，因为它能够在预定的神经修复手术之前在床边进行。目的：虽然60分钟的电刺激已被证明可以增强运动和感觉轴突的再生，但电刺激对交感神经再生的影响尚不清楚。我们研究了两种临床相关的CES模式（10分钟和60分钟）如何影响交感轴突再生和远端目标神经再支配。结果：我们的研究结果表明，在急性时间点，CES抑制了交感轴突的生长，在损伤后较长的存活时间点，假CES组与CES组之间没有差异。此外，10分钟的CES并没有通过直接修复增强运动和感觉再生，60分钟和10分钟的CES也没有通过移植物增强运动和感觉再生。结论：交感神经轴突可能保留了一定的再生能力，但在电刺激后没有表现出增强，这可能是由于电刺激范式无法招募小直径交感神经轴突参与活动。需要进一步的研究来优化ES参数以增强所有神经元类型的再生。

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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Neurorehabilitation and neural repair

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