Challenges and new approaches to proving the existence of muscle synergies of neural origin.
about
Revisiting the body-schema concept in the context of whole-body postural-focal dynamicsA neural circuitry that emphasizes spinal feedback generates diverse behaviours of human locomotionNeuromechanical principles underlying movement modularity and their implications for rehabilitationLong-term training modifies the modular structure and organization of walking balance controlDual dimensionality reduction reveals independent encoding of motor features in a muscle synergy for insect flight controlMuscle Synergies Heavily Influence the Neural Control of Arm Endpoint Stiffness and Energy Consumption.From maturity to old age: tasks of daily life require a different muscle use in horses.Modular organization across changing task demands in healthy and poststroke gaitEvidence for altered upper extremity muscle synergies in chronic stroke survivors with mild and moderate impairment.Experimental Muscle Pain Impairs the Synergistic Modular Control of Neck Muscles.An Optogenetic Demonstration of Motor Modularity in the Mammalian Spinal Cord.Biomechanical Constraints Underlying Motor Primitives Derived from the Musculoskeletal Anatomy of the Human Arm.An involuntary stereotypical grasp tendency pervades voluntary dynamic multifinger manipulationSensorimotor feedback based on task-relevant error robustly predicts temporal recruitment and multidirectional tuning of muscle synergiesPractical limits on muscle synergy identification by non-negative matrix factorization in systems with mechanical constraints.A musculoskeletal model of human locomotion driven by a low dimensional set of impulsive excitation primitives.Changes in muscle coordination patterns induced by exposure to a viscous force field.Robustness of muscle synergies during visuomotor adaptation.Spatio-temporal analysis reveals active control of both task-relevant and task-irrelevant variables.Robot-assisted and conventional therapies produce distinct rehabilitative trends in stroke survivors.Effort minimization and synergistic muscle recruitment for three-dimensional force generation.Are Modular Activations Altered in Lower Limb Muscles of Persons with Multiple Sclerosis during Walking? Evidence from Muscle Synergies and Biomechanical AnalysisControl of reaching movements by muscle synergy combinations.Muscle synergies in neuroscience and robotics: from input-space to task-space perspectives.Suboptimal Muscle Synergy Activation Patterns Generalize their Motor Function across Postures.Muscle recruitment and coordination with an ankle exoskeleton.Muscle synergies obtained from comprehensive mapping of the primary motor cortex forelimb representation using high-frequency, long-duration ICMS.Structure of the set of feasible neural commands for complex motor tasksThe number and choice of muscles impact the results of muscle synergy analyses.Feedback of mechanical effectiveness induces adaptations in motor modules during cyclingCoordination of muscles to control the footpath during over-ground walking in neurologically intact individuals and stroke survivors.Consequences of biomechanically constrained tasks in the design and interpretation of synergy analyses.The neural origin of muscle synergies.Action Direction of Muscle Synergies in Three-Dimensional Force Space.A model-based approach to predict muscle synergies using optimization: application to feedback control.Do muscle synergies reduce the dimensionality of behavior?Recruitment of muscle synergies is associated with endpoint force fluctuations during multi-directional isometric contractions.Exploring the high-dimensional structure of muscle redundancy via subject-specific and generic musculoskeletal models.Transferring synergies from neuroscience to robotics: Comment on "Hand synergies: Integration of robotics and neuroscience for understanding the control of biological and artificial hands" by M. Santello et al.Feasible muscle activation ranges based on inverse dynamics analyses of human walking.
P2860
Q27027895-5D6C4D84-F2FB-4D94-91EC-F5CA84B51270Q27346439-438800FE-4151-4180-83D5-27F23F53B1B7Q28088572-B930B466-A772-4304-87F5-384C4F8CABB6Q28394331-FDCE9B31-EBD2-42CB-BBC5-C0AEBB6A4EBCQ28648327-C36DA47F-D280-47EC-B51B-5F9653115382Q30277364-E29010D2-72C1-4C50-AC17-56FED0863148Q33865396-F3417416-9924-4693-9AF1-EA8429456358Q34399926-2E97FB4C-1A77-4A0B-AC05-45A2DF591231Q35071840-F6C16D35-6B28-49FC-9012-8F2A2140BEF5Q35780000-4BFEBE98-D5A3-4EA2-924E-89BAFC7E5321Q36162180-437B9F96-5BE7-4739-B07F-4931F081DFF4Q36162526-FEA71027-1EFD-4B3B-90C7-D9C08C7D6FA3Q36531982-DB985B77-2234-45AD-9B34-58A4C41B2734Q36533203-669A45DF-B667-4F19-BB32-EA613A2D14FBQ36639975-5CD57621-B551-41FC-BB7B-A8C410901DD7Q36955926-B1C67D57-3AFE-4357-8D17-D84E60C36266Q37011298-3C2014E8-E7BB-4595-AE05-0FE55F9B39CDQ37138810-7AA89312-2250-4F7E-8EDC-14AFE97E195AQ37303923-C4F88D4F-4115-41D0-B84C-8793617B7767Q37326238-1E8DECA5-BBE9-4061-B658-4045B59DC406Q37405440-348974AF-3689-4F01-B74F-D8836460C474Q37486630-0CD784F5-4C6D-40FE-89B1-F92E4EC47CB4Q38102688-96974690-CAB7-4A5F-ACC8-E132A6C2E688Q38102689-30C88A6B-CDF8-491E-B7F3-A6B6F00E71D4Q38255737-CB13BC0D-C27E-466C-953C-7AA1AB80BAC6Q38721858-C7DE5FB6-D383-45DE-8A6F-EBE8D09DA5FEQ38818054-67619FCD-6DA1-45E5-B3E5-B92554B1B7B4Q38924116-38C70255-A0CF-481B-9CFC-24B964ABEF24Q39363773-C066A9E3-5116-4901-95D1-8671FF7CBEC4Q39895445-075FAC41-1A0C-4AE2-9393-769ABB812EBDQ39981429-223DD93C-C9F5-4688-B1BC-E271DAE72242Q40155107-8F05DF41-A986-4C3C-AC0C-DABFAB815C04Q40174464-72E62DDA-E105-49B7-B8F8-0CB624476113Q40262822-EA4B9F66-F6AB-496F-BC0D-5B30BF5A4BBDQ40393884-75024280-2A02-40B0-BC1A-43A19B8DFF73Q40999328-770E5D98-FC8B-4096-8EE9-016FC7193DF7Q41186253-E8E1FE15-A1FB-4A58-9C04-7365386E0F6DQ41217744-0B0821EA-E1EE-4CEF-9405-CECB109DDB0DQ41232227-A3105BEF-7260-484E-B0F2-409AD378EEF8Q41392053-DF73C810-BB43-4E69-B7ED-1FEB70E412E1
P2860
Challenges and new approaches to proving the existence of muscle synergies of neural origin.
description
2012 nî lūn-bûn
@nan
2012 թուականի Մայիսին հրատարակուած գիտական յօդուած
@hyw
2012 թվականի մայիսին հրատարակված գիտական հոդված
@hy
2012年の論文
@ja
2012年論文
@yue
2012年論文
@zh-hant
2012年論文
@zh-hk
2012年論文
@zh-mo
2012年論文
@zh-tw
2012年论文
@wuu
name
Challenges and new approaches ...... le synergies of neural origin.
@ast
Challenges and new approaches ...... le synergies of neural origin.
@en
Challenges and new approaches ...... le synergies of neural origin.
@nl
type
label
Challenges and new approaches ...... le synergies of neural origin.
@ast
Challenges and new approaches ...... le synergies of neural origin.
@en
Challenges and new approaches ...... le synergies of neural origin.
@nl
prefLabel
Challenges and new approaches ...... le synergies of neural origin.
@ast
Challenges and new approaches ...... le synergies of neural origin.
@en
Challenges and new approaches ...... le synergies of neural origin.
@nl
P2860
P1476
Challenges and new approaches ...... le synergies of neural origin.
@en
P2093
Francisco J Valero-Cuevas
Jason J Kutch
P2860
P304
P356
10.1371/JOURNAL.PCBI.1002434
P577
2012-05-03T00:00:00Z