Neuromechanical Determinants of Muscle Activity in Human Postural Control
人体姿势控制中肌肉活动的神经力学决定因素
基本信息
- 批准号:7572977
- 负责人:
- 金额:$ 28.28万
- 依托单位:
- 依托单位国家:美国
- 项目类别:
- 财政年份:2007
- 资助国家:美国
- 起止时间:2007-03-05 至 2012-02-29
- 项目状态:已结题
- 来源:
- 关键词:AccelerationAccidental InjuryAccountingAnimalsBiomechanicsCessation of lifeClinical ResearchComplexComputer SimulationCustomDataDevelopmentDiagnosticDimensionsElderlyEngineeringEquilibriumExhibitsFeedbackFelis catusFunctional disorderGoalsHumanImpairmentLegLimb structureMeasuresMethodsModelingMotionMotorMovementMovement DisordersMuscleMusculoskeletalMusculoskeletal EquilibriumNervous system structureNeurologicNeuromechanicsNeuropathyPatternPeripheral Nervous System DiseasesPositioning AttributePostural responsePostureProductionPropertyRecruitment ActivityRehabilitation therapyRelative (related person)Research PersonnelRoleSensorySeriesSignal TransductionSimulateSpecific qualifier valueSpinal Cord transection injuryStructureSurfaceTechniquesTestingTranslatingWorkbaseclinically relevantdesignfallsinnovationkinematicsneural prosthesisneuromechanismneuromuscularneurophysiologynoveloptimal control theoryprogramsrelating to nervous systemrepairedresearch studysimulationspatiotemporaltemporalis muscletoolvector
项目摘要
DESCRIPTION (provided by applicant): Loss of balance leading to falls is a primary cause of injury and accidental death in older adults. This proposal articulates an innovative and quantitative framework for both investigating and understanding temporal and spatial features of muscle activation patterns for human balance control. The objective of the proposal is to develop and validate a quantitative model to predict spatiotemporal muscle activation patterns during postural control. Using engineering tools, we will integrate novel experimental methods and computer simulations to understand how feedback control of posture is executed by the nervous system. Our framework will demonstrate that complex, high-dimensional muscle coordination patterns for postural control can be explained by just a few parameters related to task-level variables. Advancing our ability to quantify and predict muscle coordination patterns is critical to achieving our long-term goal of using paired experimental measures and engineering models to predict the functional consequences of neuromotor impairments and interventional therapies. In Specific Aim 1, we will identify muscle synergies and task variables governing spatial organization of muscle activity during multidirectional perturbations to standing posture. Our approach is to extract muscle synergies from experimental data using optimization and correlate the activation of each muscle synergy to the production of a task-related variable. We will use a musculoskeletal model of the leg to determine the structure of synergies required to produce the muscle activation patterns and task-variables measured experimentally. In Specific Aim 2, we will identify the task- level feedback loops governing temporal organization of muscle activity during sagittal perturbations to standing posture. Our approach is to characterize the feedback relationships between center of mass motion and temporal muscle activation patterns experimentally, and then use a simple inverted pendulum model to test the feasibility of the feedback loops in generating appropriate temporal muscle activation patterns and center of mass kinematics. Our models of postural control will allow us to predict motor dysfunction resulting from changes in motor patterns. Our results will therefore allow us to develop quantitative diagnostic tools for balance and movement disorders and facilitate the design of effective interventional therapies, neural prostheses, and neural repair strategies for motor rehabilitation.
描述(由申请人提供):平衡丧失导致福尔斯跌倒是老年人受伤和意外死亡的主要原因。该建议阐明了一个创新的定量框架,用于调查和理解人体平衡控制肌肉激活模式的时间和空间特征。该提案的目的是开发和验证一个定量模型来预测姿势控制过程中的时空肌肉激活模式。使用工程工具,我们将整合新的实验方法和计算机模拟,以了解神经系统如何执行姿势的反馈控制。我们的框架将证明,复杂的,高维的肌肉协调模式的姿势控制可以解释的任务级变量相关的几个参数。提高我们量化和预测肌肉协调模式的能力对于实现我们的长期目标至关重要,即使用配对实验措施和工程模型来预测神经运动障碍和介入治疗的功能后果。在具体目标1中,我们将确定肌肉协同作用和任务变量,这些变量在多方向扰动站立姿势时控制肌肉活动的空间组织。我们的方法是使用优化从实验数据中提取肌肉协同作用,并将每个肌肉协同作用的激活与任务相关变量的产生相关联。我们将使用腿部的肌肉骨骼模型来确定产生肌肉激活模式和实验测量的任务变量所需的协同作用的结构。在具体目标2中,我们将确定任务级别的反馈回路,在矢状面扰动到站立姿势期间,控制肌肉活动的时间组织。我们的方法是实验表征质心运动和时间肌肉激活模式之间的反馈关系,然后使用一个简单的倒立摆模型来测试反馈回路在产生适当的时间肌肉激活模式和质心运动学的可行性。我们的姿势控制模型将使我们能够预测运动模式变化导致的运动功能障碍。因此,我们的研究结果将使我们能够开发平衡和运动障碍的定量诊断工具,并促进有效的介入治疗,神经假体和运动康复的神经修复策略的设计。
项目成果
期刊论文数量(0)
专著数量(0)
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Lena H Ting其他文献
Lena H Ting的其他文献
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{{ truncateString('Lena H Ting', 18)}}的其他基金
Mechanisms of improvement in neurorehabilitation of Parkinson's disease
改善帕金森病神经康复的机制
- 批准号:
8459849 - 财政年份:2013
- 资助金额:
$ 28.28万 - 项目类别:
Mechanisms of improvement in neurorehabilitation of Parkinson's disease
改善帕金森病神经康复的机制
- 批准号:
8700447 - 财政年份:2013
- 资助金额:
$ 28.28万 - 项目类别:
Neuromechanical Determinants of Muscle Activity in Human Postural Control
人体姿势控制中肌肉活动的神经力学决定因素
- 批准号:
8033189 - 财政年份:2007
- 资助金额:
$ 28.28万 - 项目类别:
Neuromechanical Determinants of Muscle Activity in Human Postural Control
人体姿势控制中肌肉活动的神经力学决定因素
- 批准号:
7778280 - 财政年份:2007
- 资助金额:
$ 28.28万 - 项目类别:
Neuromechanical Determinants of Muscle Activity in Human Postural Control
人体姿势控制中肌肉活动的神经力学决定因素
- 批准号:
7265761 - 财政年份:2007
- 资助金额:
$ 28.28万 - 项目类别:
Neuromechanical Determinants of Muscle Activity in Human Postural Control
人体姿势控制中肌肉活动的神经力学决定因素
- 批准号:
7369670 - 财政年份:2007
- 资助金额:
$ 28.28万 - 项目类别:
Neuromechanical Modeling of Postural Responses:Mechanisms of Balance Impairments in Parkinson's Disease
姿势反应的神经力学建模:帕金森病平衡障碍的机制
- 批准号:
10174970 - 财政年份:2004
- 资助金额:
$ 28.28万 - 项目类别:
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