Personalized upper limb training combined with anodal-tDCS for sensorimotor recovery in spastic hemiparesis: Study protocol for a randomized controlled trial

Mindy F. Levin*, Melanie C. Baniña, Silvi Frenkel-Toledo, Sigal Berman, Nachum Soroker, John M. Solomon, Dario G. Liebermann

*Corresponding author for this work

Research output: Contribution to journalArticlepeer-review

15 Scopus citations

Abstract

Background: Recovery of voluntary movement is a main rehabilitation goal. Efforts to identify effective upper limb (UL) interventions after stroke have been unsatisfactory. This study includes personalized impairment-based UL reaching training in virtual reality (VR) combined with non-invasive brain stimulation to enhance motor learning. The approach is guided by limiting reaching training to the angular zone in which active control is preserved ("active control zone") after identification of a "spasticity zone". Anodal transcranial direct current stimulation (a-tDCS) is used to facilitate activation of the affected hemisphere and enhance inter-hemispheric balance. The purpose of the study is to investigate the effectiveness of personalized reaching training, with and without a-tDCS, to increase the range of active elbow control and improve UL function. Methods: This single-blind randomized controlled trial will take place at four academic rehabilitation centers in Canada, India and Israel. The intervention involves 10 days of personalized VR reaching training with both groups receiving the same intensity of treatment. Participants with sub-acute stroke aged 25 to 80 years with elbow spasticity will be randomized to one of three groups: personalized training (reaching within individually determined active control zones) with a-tDCS (group 1) or sham-tDCS (group 2), or non-personalized training (reaching regardless of active control zones) with a-tDCS (group 3). A baseline assessment will be performed at randomization and two followup assessments will occur at the end of the intervention and at 1 month post intervention. Main outcomes are elbowflexor spatial threshold and ratio of spasticity zone to full elbow-extension range. Secondary outcomes include the Modified Ashworth Scale, Fugl-Meyer Assessment, Streamlined Wolf Motor Function Test and UL kinematics during a standardized reach-to-grasp task. Discussion: This study will provide evidence on the effectiveness of personalized treatment on spasticity and UL motor ability and feasibility of using low-cost interventions in low-to-middle-income countries.

Original languageEnglish
Article number7
JournalTrials
Volume19
Issue number1
DOIs
StatePublished - 2018

Funding

FundersFunder number
International Development Research Center and Israel Science Foundation
Zavalkoff Family Foundation
Canadian Institutes of Health Research
International Development Research Centre108186-001
Israel Science Foundation2392\15
Azrieli Foundation

    Keywords

    • Neurorehabilitation
    • Spasticity
    • Spatial threshold
    • Stroke
    • TDCS

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