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外部诱发下肢运动引起惊吓效应的证据:对神经康复的启示。

Evidence for Startle Effects due to Externally Induced Lower Limb Movements: Implications in Neurorehabilitation.

作者信息

Castellote Juan M, Kofler Markus, Mayr Andreas, Saltuari Leopold

机构信息

Physical Medicine and Rehabilitation Department, Faculty of Medicine, Universidad Complutense de Madrid and National School of Occupational Medicine, Instituto de Salud Carlos III, Madrid, Spain.

Department of Neurology, Hochzirl Hospital, Zirl, Austria.

出版信息

Biomed Res Int. 2017;2017:8471546. doi: 10.1155/2017/8471546. Epub 2017 Feb 16.

DOI:10.1155/2017/8471546
PMID:28299334
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5337331/
Abstract

Passive limb displacement is routinely used to assess muscle tone. If we attempt to quantify muscle stiffness using mechanical devices, it is important to know whether kinematic stimuli are able to trigger startle reactions. Whether kinematic stimuli are able to elicit a startle reflex and to accelerate prepared voluntary movements (StartReact effect) has not been studied extensively to date. Eleven healthy subjects were suspended in an exoskeleton and were exposed to passive left knee flexion (KF) at three intensities, occasionally replaced by fast right KF. Upon perceiving the movement subjects were asked to perform right wrist extension (WE), assessed by extensor carpi radialis (ECR) electromyographic activity. ECR latencies were shortest in fast trials. Startle responses were present in most fast trials, yet being significantly accelerated and larger with right versus left KF, since the former occurred less frequently and thus less expectedly. Startle responses were associated with earlier and larger ECR responses (StartReact effect), with the largest effect again upon right KF. The results provide evidence that kinematic stimuli are able to elicit both startle reflexes and a StartReact effect, which depend on stimulus intensity and anticipation, as well as on the subjects' preparedness to respond.

摘要

被动肢体位移常用于评估肌张力。如果我们试图使用机械设备来量化肌肉僵硬度,那么了解运动刺激是否能够引发惊吓反应就很重要。运动刺激是否能够引发惊吓反射并加速准备好的自主运动(起始反应效应),迄今为止尚未得到广泛研究。11名健康受试者被悬挂在外骨骼中,并以三种强度接受被动左膝屈曲(KF),偶尔被快速右膝屈曲取代。在感知到运动后,要求受试者进行右手腕伸展(WE),通过桡侧腕伸肌(ECR)肌电图活动进行评估。在快速试验中,ECR潜伏期最短。大多数快速试验中都出现了惊吓反应,但与左膝屈曲相比,右膝屈曲时惊吓反应明显加速且更大,因为前者发生频率较低,因此更出乎意料。惊吓反应与更早、更大的ECR反应相关(起始反应效应),右膝屈曲时效应最大。结果表明,运动刺激能够引发惊吓反射和起始反应效应,这取决于刺激强度、预期以及受试者的反应准备程度。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/658f/5337331/b785a466ed4a/BMRI2017-8471546.001.jpg

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