人体伤害性电刺激指尖后外感受性抑制的功能组织

Functional organization of exteroceptive inhibition following nociceptive electrical fingertip stimulation in humans.

作者信息

Kofler Markus

机构信息

Department of Neurology, Hospital Hochzirl, A-6170, Zirl, Austria.

出版信息

Clin Neurophysiol. 2003 Jun;114(6):973-80. doi: 10.1016/s1388-2457(03)00060-9.

DOI:10.1016/s1388-2457(03)00060-9

PMID:12804665

Abstract

OBJECTIVE

To investigate the functional organization of inhibitory spinal reflexes mediated by cutaneous afferents (=cutaneous silent periods, CSPs) in order to assess differential strategies used by the human spinal cord to inhibit movement in upper limb muscles within the same myotome.

METHODS

Twenty healthy subjects underwent assessment of the effect of electrical finger-tip stimulation with different intensities on voluntarily contracting hand muscles. The rectified and averaged electromyogram (EMG) was recorded with surface electrodes placed over abductor pollicis brevis (APB), abductor digiti minimi (ADM), and first dorsal interosseous (FDI) muscles following recurrent digit II and digit V stimulation.

RESULTS

Finger-tip stimulation resulted in a series of inhibitory and excitatory EMG responses in all 3 hand muscles. Stimulus intensity exerted a significant influence on various CSP parameters (probability, onset and end latency, duration, index of suppression). CSPs were most pronounced in APB following digit II and, somewhat less, following digit V stimulation. FDI and ADM differed in CSP onset latency following digit II stimulation, and in the overall amount of suppression following digit V stimulation, despite being supplied by the same nerve and the same myotome. Excitatory long-loop reflexes seemed to be suppressed by increasing stimulus intensities, yet they interfered with CSPs, even when using noxious stimulation, in FDI following digit II stimulation, and in both ADM and FDI following digit V stimulation.

CONCLUSIONS

The findings are consistent with the presence of an inhibitory neural circuitry within the human spinal cord which can rapidly restrain distinct muscle synergies. Neurophysiology indicates a more functional - task-related - organization of protective reflexes in the human upper extremity, rather than a merely metameric - anatomically based - order of activation of this neuronal circuitry.

摘要

目的

研究由皮肤传入神经介导的抑制性脊髓反射（即皮肤静息期，CSPs）的功能组织，以评估人类脊髓在同一肌节内抑制上肢肌肉运动所采用的不同策略。

方法

20名健康受试者接受了不同强度的指尖电刺激对自主收缩手部肌肉影响的评估。在反复刺激示指和小指后，用表面电极记录置于拇短展肌（APB）、小指展肌（ADM）和第一背侧骨间肌（FDI）上的整流平均肌电图（EMG）。

结果

指尖刺激在所有3块手部肌肉中均引发了一系列抑制性和兴奋性EMG反应。刺激强度对各种CSP参数（概率、起始和结束潜伏期、持续时间、抑制指数）有显著影响。在示指刺激后，APB中的CSP最为明显，在小指刺激后则稍弱。尽管FDI和ADM由相同神经和相同肌节支配，但在示指刺激后的CSP起始潜伏期以及小指刺激后的总体抑制量方面存在差异。兴奋性长环反射似乎会随着刺激强度增加而受到抑制，但在示指刺激后的FDI以及小指刺激后的ADM和FDI中，即使使用有害刺激，它们也会干扰CSP。

结论

这些发现与人类脊髓中存在能够快速抑制不同肌肉协同作用的抑制性神经回路相一致。神经生理学表明，人类上肢的保护性反射具有更功能化——与任务相关——的组织方式，而非仅仅基于节段——解剖学基础——的该神经回路激活顺序。

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人体伤害性电刺激指尖后外感受性抑制的功能组织

Functional organization of exteroceptive inhibition following nociceptive electrical fingertip stimulation in humans.

作者信息

机构信息

出版信息

OBJECTIVE

METHODS

RESULTS

CONCLUSIONS

目的

方法

结果

结论

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