Subject-specific muscle synergies in human balance control are consistent across different biomechanical contexts.
about
Spinal primitives and intra-spinal micro-stimulation (ISMS) based prostheses: a neurobiological perspective on the "known unknowns" in ISMS and future prospectsNeuromechanical principles underlying movement modularity and their implications for rehabilitationLong-term training modifies the modular structure and organization of walking balance controlA tool for balance control training using muscle synergies and multimodal interfaces.Shared and Task-Specific Muscle Synergies during Normal Walking and SlippingChanges in cortical activity associated with adaptive behavior during repeated balance perturbation of unpredictable timing.Mechanisms of motor adaptation in reactive balance controlEffects of robotic guidance on the coordination of locomotion.On identifying kinematic and muscle synergies: a comparison of matrix factorization methods using experimental data from the healthy population.Effective force control by muscle synergiesElectromyography Data Processing Impacts Muscle Synergies during Gait for Unimpaired Children and Children with Cerebral Palsy.Stance width changes how sensory feedback is used for multisegmental balance control.Neuromuscular constraints on muscle coordination during overground walking in persons with chronic incomplete spinal cord injury.Physiological modules for generating discrete and rhythmic movements: action identification by a dynamic recurrent neural networkOptimization of muscle activity for task-level goals predicts complex changes in limb forces across biomechanical contexts.Challenges and new approaches to proving the existence of muscle synergies of neural origin.Task-specific stability in muscle activation space during unintentional movements.Voluntary and reactive recruitment of locomotor muscle synergies during perturbed walking.Muscle networks: Connectivity analysis of EMG activity during postural control.Effects of perturbations to balance on neuromechanics of fast changes in direction during locomotion.Two aspects of feedforward postural control: anticipatory postural adjustments and anticipatory synergy adjustments.Is my model good enough? Best practices for verification and validation of musculoskeletal models and simulations of movement.Evidence for altered upper extremity muscle synergies in chronic stroke survivors with mild and moderate impairment.Stability in a frontal plane model of balance requires coupled changes to postural configuration and neural feedback control.Muscle Synergies: Implications for Clinical Evaluation and Rehabilitation of Movement.Common muscle synergies for control of center of mass and force in nonstepping and stepping postural behaviors.Modules in the brain stem and spinal cord underlying motor behaviors.Somatosensory feedback refines the perception of hand shape with respect to external constraintsComparison of motor control deficits during treadmill and overground walking poststroke.Robustness of muscle synergies underlying three-dimensional force generation at the hand in healthy humans.Task-level feedback can explain temporal recruitment of spatially fixed muscle synergies throughout postural perturbationsMuscle synergy patterns as physiological markers of motor cortical damage.Between-subject variability of muscle synergies during a complex motor skill.Extracting synergies in gait: using EMG variability to evaluate control strategies.Sensorimotor feedback based on task-relevant error robustly predicts temporal recruitment and multidirectional tuning of muscle synergiesLearning to balance on one leg: motor strategy and sensory weightingNeuromuscular adjustments of gait associated with unstable conditionsAlterations in upper limb muscle synergy structure in chronic stroke survivors.Investigating reduction of dimensionality during single-joint elbow movements: a case study on muscle synergies.Common muscle synergies for balance and walking
P2860
Q28083463-F08562A8-669C-44C5-B5BF-8D39522BAF45Q28088572-3C9970A0-7BB3-4A9E-8B2A-89B4660E2B04Q28394331-466E4D0A-5749-4B6F-843D-D36AFF5AE036Q28658190-80E17E99-8F08-4D23-ABFE-BA28E0404C35Q28917113-F281DDF8-2A4A-4B6A-9FE5-990D875A9928Q30399590-B928A4E8-2BA3-4A03-9D89-177C41D04CBAQ30438547-F014E058-7699-4C4D-9135-EC291330B6C2Q30541830-1636A674-EF9B-492F-A58D-6A625CABE333Q31142682-C3729EC3-83E1-4EE9-9828-ACF906EA7E78Q33641884-26D81EC9-A960-41BB-8838-2000789FEC9CQ33768614-E9AE7805-A95F-4520-A46F-7267F160BB8DQ34006343-D4CA8953-9867-41F7-A198-332021EA6E94Q34047229-08930863-06B3-4F01-A566-BBBAB856820FQ34198527-5586331A-0190-469C-BC7F-596844C2AB9CQ34236572-E1053289-5DE0-4588-9031-68A75B2D7134Q34262993-105D48C3-AFED-463C-99C5-38829C93462BQ34353420-5CEA5169-7F34-4E83-9713-FAE4C0F93AE7Q34397852-88FC2144-AEC0-46CA-A453-6AB743333589Q34504022-589D95E2-437D-4DD0-931A-BF8AA81A2129Q34634549-B6DAF71F-B06B-4B31-91AC-5B640BC35958Q34980129-16736B06-0397-4366-A2C6-57ABDAA777CDQ35062172-6BA7F939-870E-452A-8952-F54B02F92F81Q35071840-8548E303-2515-4967-9BE6-52D0F9D046EAQ35086540-6C3CFA2B-BF00-45B7-8CDB-93469E3FC4CBQ35126787-012BC508-1014-4806-917E-E40AC16099F6Q35160405-8219BD32-61E3-4354-8203-7E52F60B8D6FQ35217653-161B7F46-9D71-4083-889E-0E48764881F4Q35269938-5A980636-9653-40ED-8F4E-A1E6E598FEB0Q35615610-FD0ED6AC-7BC8-4DE8-BE6B-49E1BA34BB57Q35902425-8FE2080B-71DA-42BB-9123-F3AA4ADCF953Q35951374-7CA2A611-DAED-4B02-8F36-61764D7CE34CQ36221960-A78F2D05-D3A7-40D3-9E4D-191B090AEDC7Q36492724-41584BA8-85ED-4CFA-B0D6-0E448FDFB27BQ36532328-67DE72E4-B488-4D53-BF23-CDB860DF31A3Q36533203-BD3C5230-E759-454B-AC76-BC5923AD81F9Q36533390-08EAA49D-B567-4E38-B6A0-55A72363A732Q36533438-E2FF4A9A-6FD9-4FC6-BEA5-5D755E0ABA4AQ36595480-93357F92-292A-4B85-A946-0ECBA6F549BFQ36644893-765D5107-7787-4229-BCAC-339611383F5DQ36810764-24723759-5B67-4432-8E0F-074EE9F436A7
P2860
Subject-specific muscle synergies in human balance control are consistent across different biomechanical contexts.
description
2010 nî lūn-bûn
@nan
2010 թուականի Ապրիլին հրատարակուած գիտական յօդուած
@hyw
2010 թվականի ապրիլին հրատարակված գիտական հոդված
@hy
2010年の論文
@ja
2010年論文
@yue
2010年論文
@zh-hant
2010年論文
@zh-hk
2010年論文
@zh-mo
2010年論文
@zh-tw
2010年论文
@wuu
name
Subject-specific muscle synerg ...... ferent biomechanical contexts.
@ast
Subject-specific muscle synerg ...... ferent biomechanical contexts.
@en
type
label
Subject-specific muscle synerg ...... ferent biomechanical contexts.
@ast
Subject-specific muscle synerg ...... ferent biomechanical contexts.
@en
prefLabel
Subject-specific muscle synerg ...... ferent biomechanical contexts.
@ast
Subject-specific muscle synerg ...... ferent biomechanical contexts.
@en
P2860
P356
P1476
Subject-specific muscle synerg ...... ferent biomechanical contexts.
@en
P2093
Gelsy Torres-Oviedo
Lena H Ting
P2860
P304
P356
10.1152/JN.00960.2009
P407
P577
2010-04-14T00:00:00Z