Cerebrovascular disease is a major cause of disability worldwide. The catastrophic burden of stroke is more dramatic in low- and middle- income countries, and the scarcity of evidence-based rehabilitation interventions represents a major challenge to global health care. Upper limb weakness is frequent after stroke, but there is no universally accepted treatment to effectively improve hand function in patients with moderate and severe motor impairment. These are the patients in deepest need of rehabilitative interventions. This project addresses this important issue, by testing effects of a novel approach. We will non-invasively stimulate the brain and peripheral nerves in order to enhance effects of motor training aided by an electrical stimulation device in patients with moderate to severe hand weakness. Our hypothesis is that brain stimulation, when added to peripheral nerve stimulation, will enhance effects of motor training to a greater extent than brain stimulation alone, peripheral stimulation alone, or no stimulation.
The goal of this study is to compare the effects of FES in close association with either transcranial direct current stimulation (tDCS) alone, peripheral nerve stimulation (PNS)alone, tDCS + PNS or sham tDCS + sham PNS, in patients with moderate to severe upper limb weakness, in a cross-over design. The working hypothesis of this proof-of-principle study is that either tDCS or PNS will enhance effects of functional electrical stimulation (FES) to a greater extent than placebo tDCS and PNS, and that the combination of tDCS and PNS will further improve motor outcomes than either tDCS or PNS alone. The interventions will consist of outpatient motor training of the paretic wrist with FES in four experimental sessions separated by two weeks. In each session, either active tDCS + sham PNS, active PNS + sham tDCS,active tDCS + active PNS or sham tDCS + sham PNS will be applied. PNS will be applied for 2 hours and tDCS will be applied in the last 20 minutes before completion of PNS. The order of the sessions will be randomized across patients. Before the first session, patients will be familiarized with the FES device.
Study Type
INTERVENTIONAL
Allocation
RANDOMIZED
Purpose
OTHER
Masking
TRIPLE
Enrollment
22
Active tDCS will be applied with the anode positioned over the ipsilesional M1 and the cathode over the contralateral supraorbital region for 20 minutes (1mA).
Active PNS will be administered by 2 pairs of surface electrodes (cathode proximal). One pair will overly the median and ulnar nerves at the wrist, and the other pair will overly the radial nerve. Trains of electric stimulation will be delivered at 1 Hz by using isolation units connected to a square pulse stimulator.
In sham tDCS, no current will be delivered through the tDCS device.
No current will be delivered to the radial, ulnar and median nerves.
Hospital das Clínicas da Faculdade de Medicina da Universidade de São Paulo/Fundação Faculdade de Medicina
São Paulo, São Paulo, Brazil
Active Range of Motion of Wrist Extension in the Paretic Side
In this cross-over study, the primary outcome was measured immediately before and after each session of treatment. In each session, one of the four possible interventions was administered.
Time frame: Pre- and post-intervention on each intervention day
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