Focal and bi-directional modulation of lower limb motor cortex using anodal transcranial direct current stimulation.
about
Facilitate insight by non-invasive brain stimulationNeuroplasticity in post-stroke gait recovery and noninvasive brain stimulationMotor priming in neurorehabilitation.Subcortical structures in humans can be facilitated by transcranial direct current stimulation.Anodal tDCS over the primary motor cortex improves motor imagery benefits on postural control: A pilot studyA paradox: after stroke, the non-lesioned lower limb motor cortex may be maladaptive.Non-invasive brain stimulation enhances fine motor control of the hemiparetic ankle: implications for rehabilitation.Timing-dependent priming effects of tDCS on ankle motor skill learning.Enhancing motor skill learning with transcranial direct current stimulation - a concise review with applications to stroke.Corticospinal tract integrity correlates with knee extensor weakness in chronic stroke survivors.Human locomotor adaptive learning is proportional to depression of cerebellar excitability.The effects of paired associative stimulation on knee extensor motor excitability of individuals post-stroke: a pilot study.Effects of anodal tDCS of the lower limb M1 on ankle reaction time in young adultsReliability and Variability of tDCS Induced Changes in the Lower Limb Motor Cortex.Effects of a Single Session of High Intensity Interval Treadmill Training on Corticomotor Excitability following Stroke: Implications for Therapy.Spatial localization and distribution of the TMS-related 'hotspot' of the tibialis anterior muscle representation in the healthy and post-stroke motor cortex.Consequences of cathodal stimulation for behavior: when does it help and when does it hurt performance?Anodal Transcranial Direct Current Stimulation Does Not Facilitate Dynamic Balance Task Learning in Healthy Old Adults.Transcranial direct current stimulation as a motor neurorehabilitation tool: an empirical review.The potential for non-invasive brain stimulation to improve function after amputation.Contralesional Hemisphere Regulation of Transcranial Magnetic Stimulation-Induced Kinetic Coupling in the Poststroke Lower Limb.Non-invasive brain stimulation for the lower limb after stroke: what do we know so far and what should we be doing next?Effects of a common transcranial direct current stimulation (tDCS) protocol on motor evoked potentials found to be highly variable within individuals over 9 testing sessions.Electrode montages for tDCS and weak transcranial electrical stimulation: role of "return" electrode's position and size.Effect of anodal versus cathodal transcranial direct current stimulation on stroke rehabilitation: a pilot randomized controlled trial.Combined transcranial direct current stimulation and robot-assisted gait training in patients with chronic stroke: a preliminary comparison.
P2860
Q21560856-6DCD4854-BFB3-4D74-84B4-92A4964DF8C0Q26764970-38718750-4FF0-4D07-985D-F6948F95F7F0Q27314487-146DF86D-D84E-4A2C-8375-550C30ACCAC8Q30430451-14FA60E4-2F52-4C54-8A02-D5537EAEAB34Q33673471-608BC977-A5C3-45EC-B83D-FBDFF07BF188Q34143092-35C7365F-C8BA-48C5-8FB3-B6371F7A448DQ34155671-20260F90-6AEB-4509-BFA3-1F27A202BE3BQ34199950-000235F9-6CCD-4D92-B2B2-01AD3F4CE95DQ34288846-0BE56913-658B-4818-B435-2A7657C334EEQ35022170-716105D3-D98B-4617-90F6-2943D616FE1BQ35457937-D4EE1536-99BA-438B-902F-9733146B5E19Q35493876-BFEE4FFC-9BF8-4930-8A7A-ECDE58ADFBD5Q37241946-FB267806-E391-4510-A6E6-20C075C0E0E0Q37290735-612EA52F-2DD6-46E5-A3B4-F4A61708A5B3Q37322842-5B22F91A-2A2C-45F2-953E-A76F6A7B6B69Q37416929-263D0BE0-33A2-44E5-B88A-C878F139FDCAQ37444861-E9C6E1E6-6C4C-460A-B671-D43C3C6BF2F8Q37614661-47820AA1-7937-4FF1-BE2B-0BD31DBE15C6Q38613694-6C863EDA-232F-4BF5-B8A6-26DBF33627AFQ38620419-3A764BE3-5CA0-45C7-AAFE-79B6C0247226Q38639816-D9042C3E-DD36-4A36-93B0-18EEDE2398DDQ38788220-B89B2E64-8981-4CBD-A5E7-3BED9387BA1BQ38870917-C74AEE0C-023E-4F7F-8362-48D62E9A94A7Q42359973-0453F522-AE59-450D-AFAB-885A7FEBD6D1Q45344829-AD15C7D9-5E68-4518-A9CF-AE1457D105E8Q51049244-CAAA0DA8-A403-4E16-BB89-89CA71A347B1
P2860
Focal and bi-directional modulation of lower limb motor cortex using anodal transcranial direct current stimulation.
description
2010 nî lūn-bûn
@nan
2010 թուականի Յունուարին հրատարակուած գիտական յօդուած
@hyw
2010 թվականի հունվարին 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
Focal and bi-directional modul ...... al direct current stimulation.
@ast
Focal and bi-directional modul ...... al direct current stimulation.
@en
type
label
Focal and bi-directional modul ...... al direct current stimulation.
@ast
Focal and bi-directional modul ...... al direct current stimulation.
@en
prefLabel
Focal and bi-directional modul ...... al direct current stimulation.
@ast
Focal and bi-directional modul ...... al direct current stimulation.
@en
P2860
P1433
P1476
Focal and bi-directional modul ...... ial direct current stimulation
@en
P2093
James W Stinear
P2860
P356
10.1016/J.BRS.2009.06.005
P577
2010-01-01T00:00:00Z