National Institute of Neurological Disorders and Stroke, NIH, Bethesda, MD, USA.
Neurology. 2010 Jan 19;74(3):223-8. doi: 10.1212/WNL.0b013e3181ca00e9.
What makes a movement feel voluntary, and what might make it feel involuntary? Motor conversion disorders are characterized by movement symptoms without a neurologic cause. Conversion movements use normal voluntary motor pathways, but the symptoms are paradoxically experienced as involuntary, or lacking in self-agency. Self-agency is the experience that one is the cause of one's own actions. The matched comparison between the prediction of the action consequences (feed-forward signal) and actual sensory feedback is believed to give rise to self-agency and has been in part associated with the right inferior parietal cortex. Using fMRI, we assessed the correlates of self-agency during conversion tremor.
We used a within-subject fMRI block design to compare brain activity during conversion tremor and during voluntary mimicked tremor in 8 patients.
The random effects group analysis showed that conversion tremor compared with voluntary tremor had right temporoparietal junction (TPJ) hypoactivity (p < 0.05 family-wise error whole brain corrected) and lower functional connectivity between the right TPJ, sensorimotor regions (sensorimotor cortices and cerebellar vermis), and limbic regions (ventral anterior cingulate and right ventral striatum).
The right TPJ has been implicated as a general comparator of internal predictions with actual events. We propose that the right TPJ hypoactivity and lower TPJ and sensorimotor cortex interactions may reflect the lack of an appropriate sensory prediction signal. The lack of a match for the proprioceptive feedback would lead to the perception that the conversion movement is not self-generated.
是什么让一个动作感觉是自愿的,而是什么让它感觉是不由自主的?运动转换障碍的特征是运动症状没有神经原因。转换运动使用正常的自愿运动通路,但症状却被悖论地体验为不由自主的,或者缺乏自我能动性。自我能动性是指一个人是自己行为的原因的体验。人们相信,对动作后果的预测(前馈信号)与实际感觉反馈的匹配比较会产生自我能动性,并且部分与右顶下小叶有关。我们使用 fMRI 来评估转换性震颤期间自我能动性的相关因素。
我们使用了一种在受试者内的 fMRI 块设计,比较了 8 名患者在转换性震颤和自愿模拟震颤期间的大脑活动。
随机效应组分析显示,与自愿性震颤相比,转换性震颤的右侧颞顶联合区(TPJ)活动减少(p < 0.05 全脑校正的家族性错误率),并且右侧 TPJ、感觉运动区(感觉运动皮质和小脑蚓部)和边缘区(腹前扣带和右侧腹侧纹状体)之间的功能连接降低。
右侧 TPJ 被认为是内部预测与实际事件的一般比较器。我们提出,右侧 TPJ 活动减少和 TPJ 与感觉运动皮质之间的相互作用可能反映了缺乏适当的感觉预测信号。缺乏对本体感觉反馈的匹配会导致转换运动不是自我产生的感知。