Motor Compositionality in the Control of Facial Movements

控制面部运动的运动组合性

• 批准号: 10599085
• 负责人: Winrich Freiwald
• 金额: $ 38.89万
• 依托单位: ROCKEFELLER UNIVERSITY
• 依托单位国家: 美国
• 财政年份: 2019
• 资助国家: 美国
• 起止时间: 2019-05-15 至 2025-03-31
• 项目状态: 未结题
• 来源: https://reporter.nih.gov/project-details/10599085
• 关键词: Anatomy; Area; Biological Models; Brain; Cells; Code; Cognitive; Communication; Data; Dimensions; Electric Stimulation; Electromyography; Electrophysiology (science); Emotional; Emotions; Ensure; Experimental Models; Expressed Emotion; Face; Facial Muscles; Facial nerve nucleus; Feedback; Formulation; Foundations; Functional Magnetic Resonance Imaging; Goals; Hand; Human; Joints; Knowledge; Lateral; Life; Limb structure; Location; Macaca; Medial; Mental disorders; Mission; Monkeys; Mood Disorders; Motor; Motor Cortex; Movement; Muscle; Neurologic; Neurology; Neurosciences; Outcome; Paralysed; Pattern; Population; Primates; Process; Property; Psychiatry; Public Health; Research; Schizophrenia; Signal Transduction; Social Well-Being; Speech; Stroke; Structure; Syndrome; System; Testing; Time; Translating; United States National Institutes of Health; Work; affective neuroscience; autism spectrum disorder; control theory; disability; face perception; improved; innovation; limb movement; mind control; motor control; multimodality; neural; neuromechanism; neurophysiology; sensory integration; social; social communication; social deficits; social neuroscience; synergism

PROJECT SUMMARY There is a fundamental gap in our understanding of the neural mechanisms of facial movements, both expressive and voluntary ones. The existence of this conceptual gap constitutes an important problem because, until it is filled, we will not be able to explain how the emotions are expressed nor how human speech is controlled, and the processes causing the many disorders of social communication remain elusive. The long-term goal is to understand how facial motor systems, cortical and sub-cortical ones, integrate sensory, emotional, and cognitive inputs and transform them into coherent motor acts. The overall objective of this proposal is the determination of the functional organization and the fundamental mechanisms by which a set of distributed cortical areas controls facial muscles to generate coherent facial movements. The experimental model system is a set of cortical areas with direct projections to the facial nucleus. It allows for testing of the central hypothesis that both emotional and voluntary facial movements are controlled through the coordinated activity of a network of cortical areas, each with a unique functional specialization. The rationale for this proposal is that completion of the research will uncover, for the first time, the neural mechanisms for facial movement control, imposing critical constraints on general motor control theory and the mechanisms and origins of speech. The central hypothesis will be tested through three specific aims: Aim 1 will determine the functional organization of cortex for facial movement control. The working hypothesis that both emotional and voluntary movements are coded by both medial and lateral cortical face-motor areas will be tested using functional magnetic resonance imaging (fMRI) and electrophysiological recordings from fMRI-identified face-motor areas. Aim 2 will determine the functional network structure of cortical face movement areas. The working hypothesis that cortical face-motor areas operate as a network will be tested through functional interaction analyses and joint electrical stimulation and electrophysiology. Aim 3 will determine the principles of descending control of facial musculature. The working hypothesis that facial movements are coded through sequences of neural states, translated by muscle synergies into facial signals will be tested through joint electrical stimulation, electrophysiology and electromyography. The approach is innovative, because it brings a new model system to motor neuroscience, a new paradigm and multi- modal experimental approach to the study of the neural mechanisms, from the level of single cells to large-scale networks, of social communication, and because it challenges long-held views on the neural substrates of facial movement. The proposed research is significant, because it will provide a new dimension to motor control theory, it will define how emotions are translated into expressions and how social signals are generated, it will provide a new model system and foundational knowledge about the neural mechanisms of speech, thus posing important constraints for the understanding of the human condition. Results will improve the understanding and possibly treatment of neurological and psychiatric syndromes of motor function and social communication.

项目摘要 在我们对面部运动的神经机制的理解上存在着一个根本性的空白， 和自愿的。这一概念上的差距构成了一个重要问题，因为， 如果我们的大脑被填满了，我们将无法解释情感是如何表达的，也无法解释人类的语言是如何控制的， 造成许多社会交往障碍的过程仍然难以捉摸。长期目标是 了解面部运动系统，皮质和皮质下的，如何整合感觉，情感和认知 输入并将其转化为连贯的运动行为。本提案的总体目标是确定 一组分布的皮层区域的功能组织和基本机制 控制面部肌肉产生连贯的面部运动。实验模型系统是一套 直接投射到面神经核的皮质区。它允许测试的中心假设， 情绪和自愿的面部运动是通过大脑皮层网络的协调活动来控制的。 每个领域都有其独特的功能专长。提出这一建议的理由是， 这项研究将首次揭示面部运动控制的神经机制， 限制一般运动控制理论和机制和讲话的起源。核心假设 将通过三个具体目标进行测试：目标1将确定面部的皮质功能组织 调度工作假设，情绪和自愿运动都是由两者编码的， 内侧和外侧皮质面运动区将使用功能性磁共振成像（fMRI）进行测试 以及功能性核磁共振识别的面部运动区域的电生理记录。目标2将确定功能 皮质面部运动区的网络结构。目前的假设是大脑皮层的面部运动区 作为网络运行将通过功能交互分析和联合电刺激进行测试， 电生理学目的3确定面肌下行控制的原则。工作 面部运动是通过神经状态序列编码的假说，由肌肉协同作用翻译 将通过联合电刺激，电生理学和肌电图测试面部信号。的 方法是创新的，因为它为运动神经科学带来了一个新的模型系统，一个新的范式和多 从单细胞水平到大规模的神经机制研究的模式实验方法 因为它挑战了长期以来对面部表情的神经基质的看法， 运动这项研究意义重大，因为它将为电机控制理论提供一个新的维度， 它将定义情感如何转化为表达，以及社交信号如何产生，它将提供 一个新的模型系统和基础知识的神经机制的讲话，从而提出了重要的 限制了对人类状况的理解。结果将提高理解，并可能 治疗运动功能和社会交流的神经和精神综合征。

项目成果

A fast link between face perception and memory in the temporal pole.

• DOI: 10.1126/science.abi6671
• 发表时间: 2021-07-30
• 期刊: Science (New York, N.Y.)
• 作者: Landi SM;Viswanathan P;Serene S;Freiwald WA
• 通讯作者: Freiwald WA