在身体健全的成年人中，有或无高频载波的颈部经皮脊髓刺激的神经生理效应。

The Neurophysiological Effects of Cervical Transcutaneous Spinal Cord Stimulation With and Without a High Frequency Carrier in Able-Bodied Adults.

作者信息

Gawne Frances, Massey Sarah, Duffell Lynsey

机构信息

Department of Medical Physics and Biomedical Engineering, University College London, London, UK.

Aspire Centre for Rehabilitation Engineering and Assistive Technology, UCL Institute of Orthopaedics and Musculoskeletal Sciences, Royal National Orthopaedics Hospital, London, UK.

出版信息

Artif Organs. 2025 Jun 3. doi: 10.1111/aor.15031.

DOI:10.1111/aor.15031

PMID:40457929

Abstract

BACKGROUND

Transcutaneous spinal cord stimulation (tSCS) is a promising avenue in spinal cord injury (SCI) rehabilitation; however, high currents are required to excite afferents in the spinal cord roots, which patients may not tolerate. Modulating tSCS pulses with a kHz carrier frequency (kHz-tSCS) may be used to reduce discomfort; however, the way that kHz-tSCS interacts with neural networks, compared to unmodulated pulses (conv-tSCS), is largely unknown.

METHOD

Ten able-bodied participants received conv-tSCS, kHz-tSCS, and sham interventions for 20 min over the C7/T1 vertebrae. Charge delivery of both waveforms was measured. Posterior root reflexes (PRRs) and motor-evoked potentials (MEPs) were recorded from the Flexor Carpi Radialis (FCR), Extensor Carpi Radialis Longus (ECRL), Flexor Carpi Ulnaris (FCU), and Brachioradialis (BR). PRR and MEP peak-peak amplitudes were measured at baseline, 0-, 15-, and 30-min post-intervention.

RESULTS

The charge required to activate posterior roots with kHz-tSCS was 3.8 times higher than with conv-tSCS (p < 0.001). Differences in PRR amplitude were found in the FCR between conv-tSCS and kHz-tSCS at 0- and 15-min post-intervention (p < 0.028). PRR inhibition was found in the FCR between baseline and 30-min post-intervention with conv-tSCS and the sham intervention (p < 0.037). No change in PRR amplitudes was found for kHz-tSCS. No other muscle showed any differences in PRR responses between intervention groups. Neither intervention caused any effect in MEP responses across time or between intervention groups.

CONCLUSIONS

kHz-tSCS was a less efficient waveform for stimulation. Differences in effects on spinal excitability were found to be inconclusive, and conv-tSCS and kHz-tSCS had no effect on corticospinal excitability. Significant PRR inhibition in the FCR was found with this experimental setup even when no stimulation was applied, suggesting a natural reduction in spinal excitability caused by participants laying supine for an extended period. Future research should consider how participant positioning could affect neural excitability.

摘要

背景

经皮脊髓刺激（tSCS）是脊髓损伤（SCI）康复中一条有前景的途径；然而，需要高电流来刺激脊髓神经根中的传入神经，而患者可能无法耐受。用千赫兹载波频率调制tSCS脉冲（kHz - tSCS）可用于减轻不适；然而，与未调制脉冲（传统tSCS，conv - tSCS）相比，kHz - tSCS与神经网络相互作用的方式在很大程度上尚不清楚。

方法

10名身体健全的参与者在C7/T1椎骨上接受了20分钟的传统tSCS、kHz - tSCS和假干预。测量了两种波形的电荷传递。从桡侧腕屈肌（FCR）、桡侧腕长伸肌（ECRL）、尺侧腕屈肌（FCU）和肱桡肌（BR）记录后根反射（PRR）和运动诱发电位（MEP）。在基线、干预后0、15和30分钟测量PRR和MEP的峰 - 峰值幅度。

结果

用kHz - tSCS激活后根所需的电荷比传统tSCS高3.8倍（p < 0.001）。在干预后0和15分钟时，传统tSCS和kHz - tSCS之间在FCR中发现PRR幅度存在差异（p < 0.028）。在传统tSCS和假干预的干预后30分钟与基线之间，FCR中发现PRR受到抑制（p < 0.037）。对于kHz - tSCS，PRR幅度没有变化。在干预组之间，没有其他肌肉在PRR反应上显示出任何差异。两种干预在不同时间或干预组之间对MEP反应均未产生任何影响。

结论

kHz - tSCS是一种效率较低的刺激波形。发现对脊髓兴奋性的影响差异尚无定论，并且传统tSCS和kHz - tSCS对皮质脊髓兴奋性均无影响。在该实验设置中，即使未施加刺激，FCR中也发现了显著的PRR抑制，这表明参与者长时间仰卧导致脊髓兴奋性自然降低。未来的研究应考虑参与者的体位如何影响神经兴奋性。