使用单关节混合辅助肢体对臂丛神经损伤进行神经移位重建后肘关节屈曲的虚拟康复

Virtual Rehabilitation of Elbow Flexion Following Nerve Transfer Reconstruction for Brachial Plexus Injuries Using the Single-Joint Hybrid Assisted Limb.

作者信息

Doi Kazuteru, Yii Chia Dawn Sinn, Hattori Yasunori, Sakamoto Sotetsu

机构信息

Department of Orthopedic Surgery, Ogori Daiichi General Hospital, Ogori-Shimogo, Yamaguchi, Japan.

出版信息

J Hand Surg Glob Online. 2022 Jan 13;4(2):97-102. doi: 10.1016/j.jhsg.2021.12.005. eCollection 2022 Mar.

DOI:10.1016/j.jhsg.2021.12.005

PMID:35434571

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9005380/

Abstract

PURPOSE

The upper limb single-joint hybrid assistive limb (HAL), a wearable robot that can support elbow flexion and extension motions, was originally used to rehabilitate patients with stroke. We report the preliminary outcomes of serial HAL use for rehabilitation following nerve transfer (NT) for elbow flexion reconstruction in brachial plexus injuries.

METHODS

Hybrid assistive limb training consisted of virtual and power training courses. Virtual training was started before HAL picked up motor unit potentials (MUPs) from the target muscle through electrodes attached to the skin overlying the original donor muscles. Power training was started after the maturation of MUPs, the stage where the MUPs were strong to be recognized to arise from the target muscles. Hybrid assistive limb assist at this stage was carried out by decreasing the settings in an inversely proportionate manner to the increase in target muscle strength. Fourteen patients underwent HAL training following NT. Eight patients had the intercostal nerve to musculocutaneous nerve (ICN-MCN) transfer, and their postoperative functional outcomes and rehabilitation performance were compared to 50 patients with ICN-MCN transfer who underwent conventional postoperative rehabilitation with electromyographic biofeedback (EMG-BF) techniques.

RESULTS

Comparison of the long-term results following ICN-MCN transfer between EMG-BF and HAL groups showed similar follow-up times, elbow flexion range of motion, or power of elbow flexion assessed using the British Medical Council grade, and quantitative measurement using Kin-Com dynamometer. However, the number of rehabilitation sessions was significantly fewer in the HAL than EMG-BF group.

CONCLUSION

HAL training accelerated patients' learning to convert the original muscle function into elbow flexion following NT by replicating elbow flexion during the pre-MUP detection stage and shortening the rehabilitation time.

TYPE OF STUDY/LEVEL OF EVIDENCE: Therapeutic IV.

摘要

目的

上肢单关节混合辅助肢体（HAL）是一种可穿戴机器人，能够辅助肘部屈伸运动，最初用于中风患者的康复治疗。我们报告了在臂丛神经损伤的肘部屈曲重建神经移植（NT）后，连续使用HAL进行康复治疗的初步结果。

方法

混合辅助肢体训练包括虚拟训练和力量训练课程。虚拟训练在HAL通过附着于原供体肌肉上方皮肤的电极采集目标肌肉的运动单位电位（MUP）之前开始。力量训练在MUP成熟后开始，即MUP强度足以被识别为源自目标肌肉的阶段。在此阶段，通过以与目标肌肉力量增加成反比的方式降低设置来进行混合辅助肢体辅助。14例患者在NT后接受了HAL训练。8例患者进行了肋间神经至肌皮神经（ICN-MCN）移植，将其术后功能结果和康复表现与50例接受传统肌电图生物反馈（EMG-BF）技术术后康复的ICN-MCN移植患者进行比较。

结果

EMG-BF组和HAL组ICN-MCN移植后的长期结果比较显示，随访时间、使用英国医学委员会分级评估的肘部屈曲活动范围或肘部屈曲力量以及使用Kin-Com测力计进行的定量测量相似。然而，HAL组的康复治疗次数明显少于EMG-BF组。

结论

HAL训练通过在MUP检测前阶段模拟肘部屈曲并缩短康复时间，加速了患者在NT后将原肌肉功能转化为肘部屈曲的学习过程。

研究类型/证据水平：治疗性IV级。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/ff17/9005380/7d5391296736/gr1.jpg

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使用单关节混合辅助肢体对臂丛神经损伤进行神经移位重建后肘关节屈曲的虚拟康复

Virtual Rehabilitation of Elbow Flexion Following Nerve Transfer Reconstruction for Brachial Plexus Injuries Using the Single-Joint Hybrid Assisted Limb.

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