Stroke Clinical Trial
Official title:
Combining Neural and Behavioral Therapies to Enhance Stroke Recovery
Stroke is the leading cause of long-term disability in this country with more than 1 million Americans reporting difficulty with daily activities. Loss of independence in self-care tasks is primarily due to limited recovery of the arm. This study will determine if the addition of Transcranial Magnetic Stimulation (TMS) to excite the lesioned hemisphere (side of the brain affected by the stroke), to progressive functional task exercise either of the weakened arm alone or of both arms together will improve arm recovery to a greater degree than one of these two types of arm exercise alone. Individuals post-stroke will participate in 16 sessions of 1) arm rehabilitation alone (with the weaker arm only or with both arms together) or 2) arm rehabilitation plus TMS. The investigators will assess arm movement ability and function immediately following the 4-week intervention and at a 30-day follow-up to determine retention of immediate gains. The investigators hypothesize that those who receive TMS as an adjuvant will have improved arm movement ability than those who only exercise.
Limited recovery of upper extremity (UE) function post-stroke continues to be one of the
greatest challenges faced in neurorehabilitation. There is an urgent unmet need to identify
effective approaches to drive UE recovery in this population. In response to this challenge,
the overall purpose of this proposed research plan is to develop rehabilitation
interventions that restore UE motor recovery. Contemporary approaches to motor
rehabilitation are based on evidence that behavioral experience drives cortical
reorganization following neural injury. Although the rationale of driving the damaged motor
cortex by focused training of the paretic UE appears straightforward, and has historically
been the focus of rehabilitation, functional recovery remains limited. There remains a gap
between this central neurobiological change and a meaningful behavioral change. There is a
need, therefore, to augment or potentiate behavioral experience. This proposal will address
this gap by examining two potential drivers of the lesioned hemisphere: 1) the non-lesioned
hemisphere via engagement of the unaffected UE in behavioral training and 2) stimulation of
the lesioned hemisphere via repetitive Transcranial Magnetic Stimulation (rTMS). This
proposal builds on the foundation of the applicant's previous work which suggested that the
contralesional, intact, hemisphere could be used to drive the lesioned hemisphere through
bimanual movement. Additionally, it is possible to drive the lesioned hemisphere externally
using rTMS to enhance cortical stimulation. Thus, pairing externally-driven enhancement of
cortical excitability with internally-driven activation of the intact hemisphere during
bilateral movements could combine to further increase excitability in the lesioned
hemisphere and manifest improved movement capability of the paretic UE. The fundamental
hypothesis guiding this proposal is that increased excitability of the lesioned cortex will
improve behavioral function of the paretic UE post-stroke. To investigate the overall
hypothesis the investigators will examine these drivers of cortical excitability and their
role in UE recovery by addressing the following aims:
Specific Aim 1. Determine the magnitude of difference in central and behavioral changes in
individuals with post-stroke hemiparesis randomized to a bilateral versus unilateral UE
motor training program.
Specific Aim 2a. Determine the magnitude of difference in central and behavioral changes in
individuals with post-stroke hemiparesis randomized to behavioral UE training compared to
behavioral UE training + rTMS.
Specific Aim 2b. Determine the differential effects of rTMS on bilateral behavioral training
compared to unilateral behavioral training as measured both centrally and behaviorally in
individuals with post-stroke hemiparesis Post-stroke upper limb paresis and resultant loss
of functional ability continues to present a barrier to those post-stroke in returning to
full societal participation. Interventions that directly target the mechanism of
hemiparesis, including decreased excitability of the lesioned hemisphere, are most likely to
promote true recovery as opposed to the oft observed functional compensation in these
individuals.
;
Allocation: Randomized, Endpoint Classification: Efficacy Study, Intervention Model: Parallel Assignment, Masking: Double Blind (Subject, Outcomes Assessor), Primary Purpose: Treatment
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