Taking the next step: cortical contributions to the control of locomotion.
about
Decoding the organization of spinal circuits that control locomotionLocomotor sequence learning in visually guided walking.Biomechanical Constraints Underlying Motor Primitives Derived from the Musculoskeletal Anatomy of the Human Arm.Foot placement relies on state estimation during visually guided walking.Consolidation of visuomotor adaptation memory with consistent and noisy environments.Similar Motor Cortical Control Mechanisms for Precise Limb Control during Reaching and Locomotion.Brain Connectivity Associated with Muscle Synergies in HumansCutaneous reflex modulation during obstacle avoidance under conditions of normal and degraded visual input.Brain Activation Patterns Characterizing Different Phases of Motor Action: Execution, Choice and Ideation.Supraspinal Control Predicts Locomotor Function and Forecasts Responsiveness to Training after Spinal Cord Injury.Modular organization of muscle activity patterns in the leading and trailing limbs during obstacle clearance in healthy adults.Online adjustments of leg movements in healthy young and old.The Effect of Body Weight Support Treadmill Training on Gait Recovery, Proximal Lower Limb Motor Pattern, and Balance in Patients with Subacute Stroke.The critical phase for visual control of human walking over complex terrainPosterior parietal cortex estimates the relationship between object and body location during locomotion.Model of a bilateral Brown-type central pattern generator for symmetric and asymmetric locomotion.Effective Synchronization of EEG and EMG for Mobile Brain/Body Imaging in Clinical Settings.Reversible Cooling-induced Deactivations to Study Cortical Contributions to Obstacle Memory in the Walking Cat.Contributions of Parietal Cortex to the Working Memory of an Obstacle Acquired Visually or Tactilely in the Locomoting Cat.Increased central common drive to ankle plantar flexor and dorsiflexor muscles during visually guided gait.Creating flexible motor memories in human walking.Memory-Guided Stumbling Correction in the Hindlimb of Quadrupeds Relies on Parietal Area 5.Short-Term Motor Learning and Retention During Visually Guided Walking in Persons With Multiple Sclerosis.Human cervical spinal cord circuitry activated by tonic input can generate rhythmic arm movements.Brain pathology is related to total daily physical activity in older adults.Spinal Control of Locomotion: Individual Neurons, Their Circuits and Functions.Mouse Motor Cortex Coordinates the Behavioral Response to Unpredicted Sensory Feedback
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P2860
Taking the next step: cortical contributions to the control of locomotion.
description
2015 nî lūn-bûn
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2015年の論文
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2015年学术文章
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2015年学术文章
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name
Taking the next step: cortical contributions to the control of locomotion.
@en
type
label
Taking the next step: cortical contributions to the control of locomotion.
@en
prefLabel
Taking the next step: cortical contributions to the control of locomotion.
@en
P1476
Taking the next step: cortical contributions to the control of locomotion.
@en
P2093
Daniel S Marigold
Trevor Drew
P356
10.1016/J.CONB.2015.01.011
P577
2015-01-30T00:00:00Z