外周神经刺激和深层腹部肌肉的特定运动训练可改善慢性腰痛的姿势运动控制。

Peripheral neurostimulation and specific motor training of deep abdominal muscles improve posturomotor control in chronic low back pain.

机构信息

Clinical Neuroscience and Neurostimulation Laboratory, Axe Neurosciences du Centre de Recherche du CHU de Québec, QC, Canada.

出版信息

Clin J Pain. 2013 Sep;29(9):814-23. doi: 10.1097/AJP.0b013e318276a058.

DOI:10.1097/AJP.0b013e318276a058

PMID:23370067

Abstract

OBJECTIVES

Chronic low back pain (CLBP) is associated with an impaired control of transversus abdominis/internal oblique muscle (TrA/IO), volitionally and during anticipatory postural adjustment (delay) along with maladaptive reorganization of primary motor cortex (M1). Specific training of deep trunk muscles and repetitive peripheral magnetic stimulation (RPMS) improve motor control. We thus tested whether RPMS over TrA/IO combined with training could promote TrA/IO motor control and decrease pain beyond the gains already reached in CLBP.

METHODS

Thirteen CLBP patients, randomly allocated to RPMS and sham groups and compared with 9 pain-free controls, were tested in 1 session before/after (stimulation alone) and after (stimulation+TrA/IO training) combination. TrA/IO motor patterns were recorded during ballistic shoulder flexion using surface electromyography. Transcranial magnetic stimulation tested M1 excitability and short-interval intracortical inhibition. A blinded physical therapist assessed pain, disability, and kinesiophobia.

RESULTS

The missing short-interval intracortical inhibition in CLBP was restored by RPMS alone then reduced after combination of RPMS with training. This combination also normalized the (at-first delayed) anticipatory activation of iTrA/IO (ipsilateral to arm raised) and the (at-first shortened) TrA/IO coactivation duration. Sham did not influence. Pain was reduced in both groups but kinesiophobia was decreased only in RPMS 2 weeks later.

CONCLUSIONS

This study supports that peripheral neurostimulation (adjuvant to training) could improve TrA/IO motor learning and pain in CLBP associated with motor impairment. Testing of enlarged samples over several sessions should question the long-term influence of this new approach in CLBP.

摘要

目的

慢性下腰痛（CLBP）与腹横肌/内斜肌（TrA/IO）的控制能力受损有关，无论是在主动收缩还是在预期姿势调整时（延迟），以及初级运动皮层（M1）的适应性重组。对深层躯干肌肉的特定训练和重复外周磁刺激（RPMS）可改善运动控制。因此，我们测试了是否 TrA/IO 上的 RPMS 联合训练可以促进 TrA/IO 运动控制，并在 CLBP 已经取得的收益之外减轻疼痛。

方法

13 例 CLBP 患者随机分为 RPMS 组和假刺激组，并与 9 名无痛对照者进行比较，在 1 次治疗前后（仅刺激）和治疗后（TrA/IO 训练+刺激）进行测试。使用表面肌电图记录弹道肩部屈曲过程中的 TrA/IO 运动模式。经颅磁刺激测试 M1 兴奋性和短程内抑制。一名盲法物理治疗师评估疼痛、残疾和运动恐惧。

结果

CLBP 中缺失的短程内抑制在单独接受 RPMS 治疗后得到恢复，然后在 RPMS 与训练结合后降低。这种结合还使对侧 TrA/IO（手臂抬起侧）的预期激活（最初延迟）和 TrA/IO 共激活持续时间（最初缩短）正常化。假刺激没有影响。两组疼痛均减轻，但仅在 RPMS 组 2 周后运动恐惧减轻。

结论

这项研究支持外周神经刺激（作为训练的辅助）可以改善 CLBP 患者的 TrA/IO 运动学习和疼痛，这些患者存在运动障碍。对几个疗程的更大样本进行测试应该会质疑这种新方法在 CLBP 中的长期影响。

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外周神经刺激和深层腹部肌肉的特定运动训练可改善慢性腰痛的姿势运动控制。

Peripheral neurostimulation and specific motor training of deep abdominal muscles improve posturomotor control in chronic low back pain.

机构信息

出版信息

OBJECTIVES

METHODS

RESULTS

CONCLUSIONS

目的

方法

结果

结论

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