Cognition in Action Lab, Department of Psychology, Wilfrid Laurier University, Waterloo, ON, Canada.
Exp Brain Res. 2010 Jun;203(2):427-35. doi: 10.1007/s00221-010-2253-z. Epub 2010 May 8.
Similar circuits in the brain are engaged during the performance and observation of identical actions. Such engagement manifests in priming effects, where observation of an action leads to faster production of that action and slower production of an action involving a different movement of the same effector (e.g. observed finger flexion vs. produced finger extension), or a completely different effector (e.g. observed hand action vs. produced leg action). Here, we asked whether priming occurs for actions involving identical muscle groups where the degree of muscle contraction in observed actions was the same or different to that underlying an instructed response and whether patterns of muscle activation were also affected. Participants held an unseen rubber ball between their forefinger and thumb and responded to colour cues instructing a hard or a soft squeeze, whilst EMG activity from the first dorsal interosseous and the abductor pollicis brevis was recorded. The colour cues were superimposed on videos depicting a hard or soft squeeze of an identical rubber ball. Thus, there were two congruent (observe hard, produce hard; observe soft, produce soft) and two incongruent (observe hard, produce soft; observe soft, produce hard) conditions. Results showed that reaction time was slowed and EMG activity was modulated in the direction of the difference between observed and instructed squeezing movements. Hence, neural circuits underlying action observation are sensitive not only to differences in the actual muscle groups underlying observed actions but also to different extents of activation of the same muscle groups.
大脑中的相似回路在执行和观察相同动作时被激活。这种激活表现为启动效应,即观察一个动作会导致该动作更快地产生,而涉及同一效应器(例如,观察手指弯曲与产生手指伸展)或完全不同的效应器(例如,观察手部动作与产生腿部动作)的动作则产生更慢。在这里,我们想知道,在观察动作所涉及的肌肉群相同时,是否会产生启动效应,观察动作中的肌肉收缩程度与指令反应所涉及的肌肉收缩程度是否相同,以及肌肉激活模式是否也会受到影响。参与者用食指和拇指夹住一个看不见的橡胶球,对指示用力或轻柔挤压的颜色线索做出反应,同时记录第一背侧骨间肌和拇指短展肌的肌电图活动。颜色线索叠加在描绘用力或轻柔挤压相同橡胶球的视频上。因此,有两种一致的条件(观察用力,产生用力;观察轻柔,产生轻柔)和两种不一致的条件(观察用力,产生轻柔;观察轻柔,产生用力)。结果表明,反应时间延长,肌电图活动朝着观察到的和指令的挤压运动之间的差异方向进行调节。因此,动作观察的神经回路不仅对观察到的动作所涉及的实际肌肉群的差异敏感,而且对同一肌肉群的不同激活程度也敏感。
