Repetitive Transcranial Magnetic Stimulation Use in Acute Stroke

Stroke is the leading cause of long-term disability in the United States and people with stroke deserve our maximum effort to restore in them as much function as possible; yet, mainstream stroke rehabilitation remains mired in traditional treatment approaches that may be suboptimal. However, for the past 5 years we have been endeavoring to advance stroke rehabilitation by including noninvasive brain stimulation. This study will explore whether the safety and functional results from noninvasive brain stimulation in patients with chronic stroke when given by researchers in a laboratory setting can be replicated in acute stroke when given by trained clinicians in the real-world clinical setting.

As background, a phenomenon in stroke is that compensatory overuse of the non-stroke hemisphere can inhibit surviving neurons in the stroke hemisphere. In this way, people with stroke are "doubly disabled" - first, by the stroke itself and, second, by exaggerated interhemispheric inhibition (IHI) arising in the non-stroke hemisphere and acting on surviving neurons in the non-stroke hemisphere. Investigators cannot bring the killed neurons back to life but they can up-regulate the surviving neurons suppressed by IHI. Repetitive transcranial magnetic stimulation (rTMS) is a noninvasive way to do this.

rTMS has not yet entered mainstream clinical use for stroke, likely because it has not been explored in the acute rehabilitation setting with application by clinicians. With prior National Institutes of Health funding, Dr. Carey has considerable experience in using rTMS in the laboratory setting for chronic stroke. He will now take rTMS out of his lab and into the real-world setting of Courage Kenny Rehabilitation Institute (CKRI), the primary referral center for acute stroke rehabilitation in our region, where clinicians will be trained in rTMS. Five daily rTMS treatments (active or sham) will be given to the non-stroke primary motor area (M1). After each treatment, patients will receive their conventional rehabilitation training. This approach is innovative because of the rTMS parameters used and because the application will be given by trained clinicians with oversight by the Principal Investigator, as opposed to laboratory researchers. Expected outcomes are improved hand function with no major adverse effects. Data will serve as a springboard to larger clinical trials.

Specific Aim #1: Determine the safety of 5 treatments of 6-Hz primed low-frequency rTMS combined with conventional therapy in adults with acute stroke.

Adverse effects will be measured through observation for seizures, investigator screening, physician exam, and tests of cognitive function and motor function in the nonparetic hand.

Investigators hypothesize there will be a) no seizures, b) no cognitive decline and c) no motor decline.

Specific Aim #2: Compare the effectiveness of active vs. sham rTMS on functional outcomes in adults with acute stroke.

Adults with acute stroke will be randomized to receive either active rTMS or sham rTMS. Both groups will also receive conventional therapy, consisting of the normal rehabilitation used at this rehabilitation center. Investigators hypothesize that, from admission to discharge, active rTMS will produce greater functional gains in the paretic hand compared to sham rTMS, as measured by standard tests.