Impact of neurologic deficits on motor imagery: a systematic review of clinical evaluations.
about
Online and Offline Performance Gains Following Motor Imagery Practice: A Comprehensive Review of Behavioral and Neuroimaging StudiesAction Observation and Motor Imagery: Innovative Cognitive Tools in the Rehabilitation of Parkinson's DiseaseMotor imagery reinforces brain compensation of reach-to-grasp movement after cervical spinal cord injuryInteractive virtual feedback improves gait motor imagery after spinal cord injury: An exploratory study.Real-time functional magnetic resonance imaging neurofeedback in motor neurorehabilitationAnodal tDCS over the primary motor cortex improves motor imagery benefits on postural control: A pilot studySubthalamic nucleus beta and gamma activity is modulated depending on the level of imagined grip force.Improvement in precision grip force control with self-modulation of primary motor cortex during motor imagery.Implementation of Motor Imagery during Specific Aerobic Training Session in Young Tennis Players.Selective Efficacy of Static and Dynamic Imagery in Different States of Physical FatigueThe Influence of Motor Imagery on Postural Sway: Differential Effects of Type of Body Movement and Person Perspective.EFFECTIVENESS OF A MOTOR CONTROL THERAPEUTIC EXERCISE PROGRAM COMBINED WITH MOTOR IMAGERY ON THE SENSORIMOTOR FUNCTION OF THE CERVICAL SPINE: A RANDOMIZED CONTROLLED TRIALDamage to Fronto-Parietal Networks Impairs Motor Imagery Ability after Stroke: A Voxel-Based Lesion Symptom Mapping StudyFunctional Preservation and Reorganization of Brain during Motor Imagery in Patients with Incomplete Spinal Cord Injury: A Pilot fMRI Study.Do Motor Imagery Performances Depend on the Side of the Lesion at the Acute Stage of Stroke?Resting-state functional connectivity and motor imagery brain activation.Supplementary motor area deactivation impacts the recovery of hand function from severe peripheral nerve injury.Motor Imagery as a Function of Disease Severity in Multiple Sclerosis: An fMRI Study.Risk of Suicide Attempt in Poststroke Patients: A Population-Based Cohort Study.Imagine There Is No Plegia. Mental Motor Imagery Difficulties in Patients with Traumatic Spinal Cord Injury.Primary Motor Cortex Excitability Is Modulated During the Mental Simulation of Hand Movement.Altered modulation of sensorimotor rhythms with chronic paralysis.Children with unilateral cerebral palsy show diminished implicit motor imagery with the affected hand.Motor imagery in spinal cord injured people is modulated by somatotopic coding, perspective taking, and post-lesional chronic pain.[Neurofeedback-based motor imagery training for rehabilitation after stroke].The dynamic motor imagery of locomotion is task-dependent in patients with stroke.Improvement of grasping after motor imagery in C6-C7 tetraplegia: A kinematic and MEG pilot study.Exploring cued and non-cued motor imagery interventions in people with multiple sclerosis: a randomised feasibility trial and reliability study.Electrical Spinal Stimulation, and Imagining of Lower Limb Movements to Modulate Brain-Spinal Connectomes That Control Locomotor-Like Behavior
P2860
Q26738383-BEC093C4-0428-43C1-9E6D-393A55D7C28AQ26780174-6EC268A7-9F73-43C0-86DF-B2355DF77D70Q26781600-CD7312F0-2D6C-4380-9F7B-9FC24245092EQ27333571-3FA0BC94-30D7-4D3B-8AF1-F4ECD6E09B03Q28079642-5F999EB7-3897-4551-960F-DD9D1A084239Q33673471-F6DDC9BB-2371-40C8-B55B-2E56AC43DB82Q33679081-E8F8EC6E-0763-4557-8EE8-D2125D940257Q35082318-1071170A-24E1-46EF-A7F7-CFCD7C75D86AQ35845205-20C2F4AA-9C0C-4D12-9321-22B1E7C0415EQ35940915-EE3D9F58-B2C6-445A-B6FC-FFD52D62E3F9Q36096328-6F745B55-27F7-47B0-A31F-32EEAFC9784CQ36262651-FCD0E2AD-2367-4E80-8E38-17063B2F6C9DQ36542284-8CBBF742-0A40-4E3F-8D0D-36EE51C5481AQ36579063-D6A68413-674E-4AE2-B9C7-2D67693647B5Q37039089-000F08E6-D362-44D8-8BC5-915092170867Q42672629-1A032CC8-748E-4DD2-80E5-9704C45405AAQ42780241-2EAFD58D-8A46-473B-B21B-6081F86F279FQ47551343-9E7DC37B-06E5-4630-B73C-042EDD621173Q47555472-0528035A-53C9-4421-8CC3-843088DC0644Q47557999-1C8A3254-21F3-494A-B2EB-BC166FC25B6BQ47798655-F2A98F21-DBE3-4741-AECB-EB899CE28225Q47808480-3BDCA7BE-BA95-4B8A-8676-EF091F7F44C9Q48117946-9F4AB42B-B758-4E30-828D-556C314243A8Q48255880-DC744948-8DA6-4C5D-A9E4-ACE2DC785105Q50490325-AB1CAB69-BCC3-4775-8F56-B2D4B0A332E2Q50541403-23509ABB-2925-4FB7-9209-3273425F6767Q50558904-69668AB6-29DC-4979-A39C-B076D668F8D1Q55290584-DE39C1EE-B8AE-42A4-A2E0-D0CBFC0E5FC4Q57073023-C539D8F9-8F78-4C87-A6FC-F12A74199328
P2860
Impact of neurologic deficits on motor imagery: a systematic review of clinical evaluations.
description
article científic
@ca
article scientifique
@fr
articol științific
@ro
articolo scientifico
@it
artigo científico
@gl
artigo científico
@pt
artigo científico
@pt-br
artikel ilmiah
@id
artikull shkencor
@sq
artículo científico
@es
name
Impact of neurologic deficits ...... eview of clinical evaluations.
@en
type
label
Impact of neurologic deficits ...... eview of clinical evaluations.
@en
prefLabel
Impact of neurologic deficits ...... eview of clinical evaluations.
@en
P2093
P2860
P1476
Impact of neurologic deficits ...... eview of clinical evaluations.
@en
P2093
Aymeric Guillot
Christian Collet
Franck Di Rienzo
Nady Hoyek
P2860
P2888
P304
P356
10.1007/S11065-014-9257-6
P577
2014-04-04T00:00:00Z
P6179
1011434285