| review article | Q7318358 |
| scholarly article | Q13442814 |
| P50 | author | Angus John Cathcart McMorland | Q56804664 |
| Winston Byblow | Q63408116 | ||
| P2093 | author name string | Keith D Runnalls | |
| P2860 | cites work | Muscle representation in the macaque motor cortex: an anatomical perspective | Q24548148 |
| Abnormal corticomotor excitability assessed in biceps brachii preceding pronator contraction post-stroke | Q30490925 | ||
| Diffusion-tensor MR tractography of somatotopic organization of corticospinal tracts in the internal capsule: initial anatomic results in contradistinction to prior reports | Q30981149 | ||
| Matrix factorization algorithms for the identification of muscle synergies: evaluation on simulated and experimental data sets | Q33230931 | ||
| Ipsilateral versus contralateral cortical motor projections to a shoulder adductor in chronic hemiparetic stroke: implications for the expression of arm synergies | Q33701353 | ||
| Prediction of recovery of motor function after stroke | Q33733906 | ||
| Non-invasive brain stimulation in neurorehabilitation: local and distant effects for motor recovery | Q33813339 | ||
| The impact of stroke | Q34089971 | ||
| Cortex integrity relevance in muscle synergies in severe chronic stroke | Q34229600 | ||
| The restoration of motor function following hemiplegia in man. | Q34297382 | ||
| How somatotopic is the motor cortex hand area? | Q34351337 | ||
| Use-dependent alterations of movement representations in primary motor cortex of adult squirrel monkeys | Q34370373 | ||
| Prediction of motor recovery using initial impairment and fMRI 48 h poststroke | Q35532780 | ||
| Understanding the pattern of functional recovery after stroke: facts and theories. | Q35926633 | ||
| Muscle synergy patterns as physiological markers of motor cortical damage | Q36221960 | ||
| Contralesional hemisphere control of the proximal paretic upper limb following stroke | Q36442202 | ||
| Alterations in upper limb muscle synergy structure in chronic stroke survivors | Q36595480 | ||
| Combining modules for movement | Q37009395 | ||
| On the coordination of two-handed movements | Q66986007 | ||
| Abnormal muscle coactivation patterns during isometric torque generation at the elbow and shoulder in hemiparetic subjects | Q72205817 | ||
| Responses to spinal microstimulation in the chronically spinalized rat and their relationship to spinal systems activated by low threshold cutaneous stimulation | Q73257861 | ||
| Deficits in the coordination of multijoint arm movements in patients with hemiparesis: evidence for disturbed control of limb dynamics | Q73734286 | ||
| Identification of neuromuscular synergies in natural upper-arm movements | Q77950604 | ||
| Inter-individual variability in the capacity for motor recovery after ischemic stroke | Q80768149 | ||
| Descending pathways in motor control | Q37193033 | ||
| Effects of early and intensive neuro-rehabilitative treatment on muscle synergies in acute post-stroke patients: a pilot study | Q37363893 | ||
| Stability of muscle synergies for voluntary actions after cortical stroke in humans. | Q37428932 | ||
| Early prediction of outcome of activities of daily living after stroke: a systematic review | Q37862915 | ||
| On the functional organization and operational principles of the motor cortex | Q38101553 | ||
| Ipsilateral motor pathways after stroke: implications for non-invasive brain stimulation | Q38105318 | ||
| The number and choice of muscles impact the results of muscle synergy analyses | Q39363773 | ||
| Cortical cell assemblies: a possible mechanism for motor programs. | Q41030363 | ||
| Control of fast-reaching movements by muscle synergy combinations. | Q42692857 | ||
| Microstimulation activates a handful of muscle synergies | Q42775783 | ||
| Relationship of intrinsic connections to forelimb movement representations in monkey motor cortex: a correlative anatomic and physiological study | Q44703852 | ||
| The PREP algorithm predicts potential for upper limb recovery after stroke | Q46410643 | ||
| The comparable size and overlapping nature of upper limb distal and proximal muscle representations in the human motor cortex. | Q47337059 | ||
| Suppression of motor evoked potentials in biceps brachii preceding pronator contraction | Q48089717 | ||
| Aspects of joint coordination are preserved during pointing in persons with post-stroke hemiparesis | Q48206615 | ||
| Functional potential in chronic stroke patients depends on corticospinal tract integrity | Q48346969 | ||
| Primary motor cortical neurons encode functional muscle synergies | Q48500354 | ||
| Long-term changes in motor cortical organisation after recovery from subcortical stroke | Q49046891 | ||
| Interjoint coordination during pointing movements is disrupted in spastic hemiparesis | Q49127269 | ||
| Mechanisms of voluntary movement. | Q51344609 | ||
| Influence of interhemispheric interactions on motor function in chronic stroke. | Q52092886 | ||
| Muscular and postural synergies of the human hand. | Q52093390 | ||
| Cathodal transcranial direct current stimulation of the primary motor cortex improves selective muscle activation in the ipsilateral arm | Q58641272 | ||
| P304 | page(s) | 82 | |
| P577 | publication date | 2015-02-16 | |
| P1433 | published in | Frontiers in Human Neuroscience | Q15727054 |
| P1476 | title | A neuroanatomical framework for upper limb synergies after stroke | |
| P478 | volume | 9 |
| Q41061474 | A Longitudinal Electromyography Study of Complex Movements in Poststroke Therapy. 2: Changes in Coordinated Muscle Activation. |
| Q55322332 | A Systematic Review on Muscle Synergies: From Building Blocks of Motor Behavior to a Neurorehabilitation Tool. |
| Q89467760 | Advances and challenges in stroke rehabilitation |
| Q55234703 | Altered Neuromodulatory Drive May Contribute to Exaggerated Tonic Vibration Reflexes in Chronic Hemiparetic Stroke. |
| Q98577803 | An experimental and computational framework for modeling multi-muscle responses to transcranial magnetic stimulation of the human motor cortex |
| Q64063705 | Applying LDA-based pattern recognition to predict isometric shoulder and elbow torque generation in individuals with chronic stroke with moderate to severe motor impairment |
| Q53586605 | Bilateral movements increase sustained extensor force in the paretic arm. |
| Q55412751 | Fatigue Influences the Recruitment, but Not Structure, of Muscle Synergies. |
| Q57284995 | Modularity speeds up motor learning by overcoming mechanical bias in musculoskeletal geometry |
| Q26795480 | Motor System Reorganization After Stroke: Stimulating and Training Toward Perfection |
| Q42683260 | Muscle Synergies-Based Characterization and Clustering of Poststroke Patients in Reaching Movements |
| Q41161207 | Muscle synergies after stroke are correlated with perilesional high gamma |
| Q92473255 | Myoelectric Computer Interface Training for Reducing Co-Activation and Enhancing Arm Movement in Chronic Stroke Survivors: A Randomized Trial |
| Q31142682 | On identifying kinematic and muscle synergies: a comparison of matrix factorization methods using experimental data from the healthy population |
| Q55481255 | Post-stroke kinematic analysis in rats reveals similar reaching abnormalities as humans. |
| Q53703855 | Progressive Abduction Loading Therapy with Horizontal-Plane Viscous Resistance Targeting Weakness and Flexion Synergy to Treat Upper Limb Function in Chronic Hemiparetic Stroke: A Randomized Clinical Trial. |
| Q49852312 | Progressive recruitment of contralesional cortico-reticulospinal pathways drives motor impairment post stroke. |
| Q30358455 | Spasticity, Motor Recovery, and Neural Plasticity after Stroke. |
Search more.