Cortico-spinal modularity in the parieto-frontal system: A new perspective on action control

IF 6.7 2区 医学 Q1 NEUROSCIENCES Progress in Neurobiology Pub Date : 2023-10-12 DOI:10.1016/j.pneurobio.2023.102537
R.J. Bufacchi , A. Battaglia-Mayer , G.D. Iannetti , R. Caminiti
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Abstract

Classical neurophysiology suggests that the motor cortex (MI) has a unique role in action control. In contrast, this review presents evidence for multiple parieto-frontal spinal command modules that can bypass MI. Five observations support this modular perspective: (i) the statistics of cortical connectivity demonstrate functionally-related clusters of cortical areas, defining functional modules in the premotor, cingulate, and parietal cortices; (ii) different corticospinal pathways originate from the above areas, each with a distinct range of conduction velocities; (iii) the activation time of each module varies depending on task, and different modules can be activated simultaneously; (iv) a modular architecture with direct motor output is faster and less metabolically expensive than an architecture that relies on MI, given the slow connections between MI and other cortical areas; (v) lesions of the areas composing parieto-frontal modules have different effects from lesions of MI. Here we provide examples of six cortico-spinal modules and functions they subserve: module 1) arm reaching, tool use and object construction; module 2) spatial navigation and locomotion; module 3) grasping and observation of hand and mouth actions; module 4) action initiation, motor sequences, time encoding; module 5) conditional motor association and learning, action plan switching and action inhibition; module 6) planning defensive actions. These modules can serve as a library of tools to be recombined when faced with novel tasks, and MI might serve as a recombinatory hub. In conclusion, the availability of locally-stored information and multiple outflow paths supports the physiological plausibility of the proposed modular perspective.

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顶额系统的皮质-脊柱模块性:动作控制的新视角。
经典神经生理学表明,运动皮层(MI)在动作控制中具有独特的作用。相反,这篇综述提供了多个可以绕过MI的顶额脊髓命令模块的证据。五项观察结果支持这一模块化观点:(i)皮层连接的统计数据显示了功能相关的皮层区域集群,定义了前运动、扣带和顶叶皮层的功能模块;(ii)不同的皮质脊髓通路源自上述区域,每个通路具有不同的传导速度范围;(iii)每个模块的激活时间因任务而异,不同的模块可以同时激活;(iv)考虑到MI和其他皮层区域之间的缓慢连接,具有直接运动输出的模块化结构比依赖MI的结构更快且代谢成本更低;(v) 组成顶额模块的区域的损伤与MI的损伤有不同的影响。这里我们提供了六个皮质脊髓模块及其子模块的功能的例子:模块1)手臂伸展、工具使用和物体构造;模块2)空间导航和运动;模块3)抓握和观察手和嘴的动作;模块4)动作启动、运动序列、时间编码;模块5)条件运动联想和学习、动作计划切换和动作抑制;模块6)防御行动。当面临新任务时,这些模块可以作为工具库进行重组,MI可以作为重组中心。总之,本地存储的信息和多个流出路径的可用性支持了所提出的模块化视角的生理合理性。
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来源期刊
Progress in Neurobiology
Progress in Neurobiology 医学-神经科学
CiteScore
12.80
自引率
1.50%
发文量
107
审稿时长
33 days
期刊介绍: Progress in Neurobiology is an international journal that publishes groundbreaking original research, comprehensive review articles and opinion pieces written by leading researchers. The journal welcomes contributions from the broad field of neuroscience that apply neurophysiological, biochemical, pharmacological, molecular biological, anatomical, computational and behavioral analyses to problems of molecular, cellular, developmental, systems, and clinical neuroscience.
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