经皮脊髓刺激与神经肌肉电刺激对下肢力量产生的协同作用：起效时间。

Synergistic effects of transcutaneous spinal stimulation and neuromuscular electrical stimulation on lower limb force production: Time to deliver.

机构信息

Department of Neurosurgery, Center for Neuroregeneration, Houston Methodist Research Institute, Houston, Texas, United States of America.

Department of Mechanical Engineering, Donadeo Innovation Centre for Engineering, University of Alberta, Edmonton, Alberta, Canada.

出版信息

PLoS One. 2024 Aug 30;19(8):e0296613. doi: 10.1371/journal.pone.0296613. eCollection 2024.

DOI:10.1371/journal.pone.0296613

PMID:39213293

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11364223/

Abstract

BACKGROUND

Transcutaneous spinal stimulation (TSS) and neuromuscular electrical stimulation (NMES) can facilitate self-assisted standing in individuals with paralysis. However, individual variability in responses to each modality may limit their effectiveness in generating the necessary leg extension force for full body weight standing. To address this challenge, we proposed combining TSS and NMES to enhance leg extensor muscle activation, with optimizing timing adjustment to maximize the interaction between the two modalities.

METHODS

To assess the effects of TSS and NMES on knee extension and plantarflexion force, ten neurologically intact participants underwent three conditions: (1) TSS control, (2) NMES control, and (3) TSS + NMES. TSS was delivered between the T10 and L2 vertebrae, while NMES was delivered to the skin over the right knee extensors and plantarflexors. TSS and NMES were administered using a 15 Hz train of three 0.5 ms biphasic pulses. During the TSS + NMES condition, the timing between modalities was adjusted in increments of ¼ the interval within a 15 Hz frequency, i.e., 66, 49.5, 33, 16.5, and 1 ms.

RESULTS

NMES combined with TSS, produced synergistic effects even on non-targeted muscle groups, thereby promoting leg extension across multiple joints in the kinematic chain. The sequence of NMES or TSS trains relative to each other did not significantly impact motor output. Notably, a delay of 16.5 to 49.5 ms between interleaved TSS and NMES pulses, each delivered at 15 Hz, results in more robust and synergistic responses in knee extensors and plantarflexors.

CONCLUSIONS

By adjusting the timing between TSS and NMES, we can optimize the combined use of these modalities for functional restoration. Our findings highlight the potential of integrated TSS and NMES protocols to enhance motor function, suggesting promising avenues for therapeutic applications, particularly in the rehabilitation of individuals with SCI.

摘要

背景

经皮脊髓刺激（TSS）和神经肌肉电刺激（NMES）可促进瘫痪患者的自助站立。然而，个体对每种模式的反应的可变性可能会限制它们在产生全身体重站立所需的腿部伸展力方面的有效性。为了解决这一挑战，我们提出将 TSS 和 NMES 结合起来，以增强腿部伸肌的激活，通过优化时间调整来最大限度地发挥两种模式之间的相互作用。

方法

为了评估 TSS 和 NMES 对膝关节伸展和跖屈力的影响，十名神经完整的参与者接受了三种条件的测试：（1）TSS 对照，（2）NMES 对照，和（3）TSS+NMES。TSS 施加于 T10 和 L2 椎骨之间，而 NMES 施加于右膝伸肌和跖屈肌的皮肤上。TSS 和 NMES 采用 15 Hz 的三脉冲 0.5 ms 双相脉冲的模式进行输送。在 TSS+NMES 条件下，通过以 15 Hz 频率的四分之一间隔递增的方式调整两种模式之间的时间，即 66、49.5、33、16.5 和 1 ms。

结果

NMES 与 TSS 结合使用，甚至对非靶向肌肉群也产生协同作用，从而促进运动链中多个关节的腿部伸展。NMES 或 TSS 训练相对于彼此的序列并不显著影响运动输出。值得注意的是，在以 15 Hz 输送的交错 TSS 和 NMES 脉冲之间延迟 16.5 到 49.5 ms，可在膝关节伸肌和跖屈肌中产生更强大和协同的反应。

结论

通过调整 TSS 和 NMES 之间的时间，我们可以优化这些模式的联合使用，以实现功能恢复。我们的发现强调了集成 TSS 和 NMES 方案增强运动功能的潜力，为治疗应用，特别是在 SCI 患者的康复中，提供了有前景的途径。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/a74b/11364223/f0e164772a74/pone.0296613.g001.jpg

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经皮脊髓刺激与神经肌肉电刺激对下肢力量产生的协同作用：起效时间。

Synergistic effects of transcutaneous spinal stimulation and neuromuscular electrical stimulation on lower limb force production: Time to deliver.

机构信息

出版信息

BACKGROUND

METHODS

RESULTS

CONCLUSIONS

背景

方法

结果

结论

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