特定区域的丘脑皮质同步是从运动规划到执行转变的基础。
Area-specific thalamocortical synchronization underlies the transition from motor planning to execution.
作者信息
Nashef Abdulraheem, Mitelman Rea, Harel Ran, Joshua Mati, Prut Yifat
机构信息
Department of Medical Neurobiology, Hadassah Medical School, The Hebrew University, 9112102 Jerusalem, Israel.
Institute of Medical Research Israel-Canada, Hadassah Medical School, The Hebrew University, 9112102 Jerusalem, Israel.
出版信息
Proc Natl Acad Sci U S A. 2021 Feb 9;118(6). doi: 10.1073/pnas.2012658118.
Abstract
We studied correlated firing between motor thalamic and cortical cells in monkeys performing a delayed-response reaching task. Simultaneous recording of thalamocortical activity revealed that around movement onset, thalamic cells were positively correlated with cell activity in the primary motor cortex but negatively correlated with the activity of the premotor cortex. The differences in the correlation contrasted with the average neural responses, which were similar in all three areas. Neuronal correlations reveal functional cooperation and opposition between the motor thalamus and distinct motor cortical areas with specific roles in planning vs. performing movements. Thus, by enhancing and suppressing motor and premotor firing, the motor thalamus can facilitate the transition from a motor plan to execution.
摘要
我们研究了执行延迟反应伸手任务的猴子中运动丘脑和皮层细胞之间的关联放电。丘脑皮质活动的同步记录显示,在运动开始时,丘脑细胞与初级运动皮层中的细胞活动呈正相关,但与运动前皮层的活动呈负相关。这种相关性的差异与所有三个区域相似的平均神经反应形成对比。神经元相关性揭示了运动丘脑与在运动计划和执行中具有特定作用的不同运动皮层区域之间的功能协作与对抗。因此,通过增强和抑制运动及运动前放电,运动丘脑可以促进从运动计划到执行的转变。
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