Electrical Neuroimaging of Brain Processes during Human Gait
人类步态期间大脑过程的电神经成像
基本信息
- 批准号:8727116
- 负责人:
- 金额:$ 32.54万
- 依托单位:
- 依托单位国家:美国
- 项目类别:
- 财政年份:2011
- 资助国家:美国
- 起止时间:2011-09-01 至 2016-07-31
- 项目状态:已结题
- 来源:
- 关键词:AnteriorAreaAttentionBrainBrain imagingClinicalCognitiveContralateralDataDiagnosisElectrodesElectroencephalographyEquilibriumEventFunctional ImagingFunctional Magnetic Resonance ImagingGaitHeadHumanImageImaging TechniquesImpairmentLeadLearningLeftLocomotionLocomotor adaptationMethodsMonitorMotionMotorMovementMovement DisordersMusculoskeletal EquilibriumNear-Infrared SpectroscopyNervous System TraumaNeurologicNeuronal PlasticityOrthotic DevicesParietal LobePatientsPatternPrefrontal CortexProcessProsthesisRehabilitation therapyRelative (related person)ResearchResolutionRoboticsScalp structureSensory ProcessSourceSpeedStrokeStudy SubjectSystems AnalysisTechniquesTechnologyTimeTrainingValidationWalkingWorkbasebrain machine interfacecraniumdensitydisabilityfeedingimprovedindependent component analysiskinematicslocomotor tasksneuroimagingnovelpatient populationrelating to nervous systemsensory feedbacksignal processing
项目摘要
DESCRIPTION (provided by applicant): There is an important clinical need to develop functional imaging techniques that can quantify brain processes during human locomotion and relate them to body dynamics. Mobile brain imaging could assist with the diagnosis and treatment of patients with numerous movement disorders and neurological injuries. We propose that Independent Component Analysis of high-density electroencephalography (EEG) can quantify distinct brain processes involved in the control of human gait. Furthermore, we contend that electrocortical brain processes identified using Independent Component Analysis of EEG correlate with whole body dynamics. We will study healthy young subjects performing various locomotor tasks while we record movement kinematics and 256-channel EEG using active scalp electrodes. In Specific Aim 1, we will examine subjects walking at a range of speeds to determine if intra-stride patterns of activation and deactivation synchronized to the gait cycle are consistent across walking speeds. In Specific Aim 2, we will examine subjects performing passive recumbent stepping and active recumbent stepping to determine the relative effects of sensory feedback vs. motor feed forward commands with sensory feedback on electrocortical brain processes. We hypothesize that passive recumbent stepping will engage fewer electrocortical sources than active recumbent stepping. We will also compare active recumbent stepping with treadmill walking to determine the similarities between recumbent stepping and walking in activating cortical brain processes. In Specific Aim 3, we will examine subjects walking on a split-belt treadmill to quantify sensorimotor hemispheric independence using coherence. In Specific Aim 4, we will study subjects walking on a narrow treadmill-mounted balance beam to identify the electrocortical processes involved in maintaining and monitoring balance. The results from this study will advance our understanding of electrocortical dynamics related to the control of human walking, and will lead to new studies probing mechanisms of neurological gait impairments. The findings could also facilitate new brain- machine interface technologies for controlling robotic orthoses or prostheses.
描述(由申请人提供):有一个重要的临床需要,开发功能成像技术,可以量化人类运动过程中的大脑过程,并将它们与身体动力学。移动的脑成像可以帮助诊断和治疗患有多种运动障碍和神经损伤的患者。我们建议,独立成分分析的高密度脑电图(EEG)可以量化不同的大脑过程中参与控制的人的步态。此外,我们认为,使用独立成分分析的脑电图皮层电脑过程与全身动力学。我们将研究健康的年轻受试者执行各种运动任务,同时我们记录运动运动学和256通道脑电图使用主动头皮电极。在特定目标1中,我们将检查以一定速度范围行走的受试者,以确定与步态周期同步的步幅内激活和失活模式在行走速度上是否一致。在具体目标2中,我们将检查受试者执行被动横卧踏步和主动横卧踏步,以确定感觉反馈与运动前馈命令对皮层电脑过程的相对影响。我们假设,被动横卧步将从事较少的皮层电源比主动横卧步。我们还将比较主动横卧步与跑步机步行,以确定横卧步和步行在激活大脑皮层过程中的相似之处。在具体目标3中,我们将研究受试者在分裂带跑步机上行走,以量化使用连贯性的感觉运动半球的独立性。在具体目标4中,我们将研究受试者在狭窄的跑步机安装的平衡木上行走,以确定参与维持和监测平衡的皮层电过程。这项研究的结果将促进我们对与人类行走控制相关的皮层电动力学的理解,并将导致新的研究探索神经步态障碍的机制。这一发现还可以促进新的脑机接口技术,用于控制机器人矫形器或假肢。
项目成果
期刊论文数量(4)
专著数量(0)
科研奖励数量(0)
会议论文数量(0)
专利数量(0)
Isolating gait-related movement artifacts in electroencephalography during human walking.
- DOI:10.1088/1741-2560/12/4/046022
- 发表时间:2015-08
- 期刊:
- 影响因子:4
- 作者:Kline JE;Huang HJ;Snyder KL;Ferris DP
- 通讯作者:Ferris DP
Cortical Spectral Activity and Connectivity during Active and Viewed Arm and Leg Movement.
- DOI:10.3389/fnins.2016.00091
- 发表时间:2016
- 期刊:
- 影响因子:4.3
- 作者:Kline JE;Huang HJ;Snyder KL;Ferris DP
- 通讯作者:Ferris DP
Independent Component Analysis of Gait-Related Movement Artifact Recorded using EEG Electrodes during Treadmill Walking.
- DOI:10.3389/fnhum.2015.00639
- 发表时间:2015
- 期刊:
- 影响因子:2.9
- 作者:Snyder KL;Kline JE;Huang HJ;Ferris DP
- 通讯作者:Ferris DP
Your brain on speed: cognitive performance of a spatial working memory task is not affected by walking speed.
- DOI:10.3389/fnhum.2014.00288
- 发表时间:2014
- 期刊:
- 影响因子:2.9
- 作者:Kline JE;Poggensee K;Ferris DP
- 通讯作者:Ferris DP
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Daniel P Ferris其他文献
Daniel P Ferris的其他文献
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{{ truncateString('Daniel P Ferris', 18)}}的其他基金
Supraspinal Control of Human Locomotor Adaptation
人类运动适应的脊髓上控制
- 批准号:
10377086 - 财政年份:2021
- 资助金额:
$ 32.54万 - 项目类别:
Supraspinal Control of Human Locomotor Adaptation
人类运动适应的脊髓上控制
- 批准号:
10426056 - 财政年份:2018
- 资助金额:
$ 32.54万 - 项目类别:
Supraspinal Control of Human Locomotor Adaptation
人类运动适应的脊髓上控制
- 批准号:
10671884 - 财政年份:2018
- 资助金额:
$ 32.54万 - 项目类别:
Supraspinal Control of Human Locomotor Adaptation
人类运动适应的脊髓上控制
- 批准号:
10667742 - 财政年份:2018
- 资助金额:
$ 32.54万 - 项目类别:
Supraspinal Control of Human Locomotor Adaptation
人类运动适应的脊髓上控制
- 批准号:
9531486 - 财政年份:2018
- 资助金额:
$ 32.54万 - 项目类别:
Electrical Neuroimaging of Brain Processes during Human Gait
人类步态期间大脑过程的电神经成像
- 批准号:
8532061 - 财政年份:2011
- 资助金额:
$ 32.54万 - 项目类别:
Electrical Neuroimaging of Brain Processes during Human Gait
人类步态期间大脑过程的电神经成像
- 批准号:
8236146 - 财政年份:2011
- 资助金额:
$ 32.54万 - 项目类别:
Electrical Neuroimaging of Brain Processes during Human Gait
人类步态期间大脑过程的电神经成像
- 批准号:
8322574 - 财政年份:2011
- 资助金额:
$ 32.54万 - 项目类别:
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