Abstract
BackgroundTranscranial direct current stimulation (tDCS) and intermittent theta burst stimulation (iTBS) were both demonstrated to have therapeutic potentials to rapidly induce neuroplastic effects in various rehabilitation training regimens. Recently, we developed a novel transcranial electrostimulation device that can flexibly output an electrical current with combined tDCS and iTBS waveforms. However, limited studies have determined the therapeutic effects of this special waveform combination on clinical rehabilitation. Herein, we investigated brain stimulation effects of tDCS-iTBS on upper-limb motor function in chronic stroke patients.MethodsTwenty-four subjects with a chronic stroke were randomly assigned to a real non-invasive brain stimulation (NIBS; who received the real tDCS + iTBS output) group or a sham NIBS (who received sham tDCS + iTBS output) group. All subjects underwent 18 treatment sessions of 1 h of a conventional rehabilitation program (3 days a week for 6 weeks), where a 20-min NIBS intervention was simultaneously applied during conventional rehabilitation. Outcome measures were assessed before and immediately after the intervention period: Fugl-Meyer Assessment-Upper Extremity (FMA-UE), Jebsen-Taylor Hand Function Test (JTT), and Finger-to-Nose Test (FNT).ResultsBoth groups showed improvements in FMA-UE, JTT, and FNT scores after the 6-week rehabilitation program. Notably, the real NIBS group had greater improvements in the JTT (p = 0. 016) and FNT (p = 0. 037) scores than the sham NIBS group, as determined by the Mann–Whitney rank-sum test.ConclusionsPatients who underwent the combined ipsilesional tDCS-iTBS stimulation with conventional rehabilitation exhibited greater impacts than did patients who underwent sham stimulation-conventional rehabilitation in statistically significant clinical responses of the total JTT time and FNT after the stroke. Preliminary results of upper-limb functional recovery suggest that tDCS-iTBS combined with a conventional rehabilitation intervention may be a promising strategy to enhance therapeutic benefits in future clinical settings.Trial registration: ClinicalTrials.gov Identifier: NCT04369235. Registered on 30 April 2020.
Highlights
Neuromodulation is an evolving therapy for rehabilitation after a stroke and is used to improve motor function in the lesioned cortex
We previously demonstrated that compared to conventional anodal Transcranial direct current stimulation (tDCS), the combined DC-intermittent theta burst stimulation (iTBS) electrostimulator induced long-term potentiation (LTP)-like plasticity as evident from significantly enhanced Motor evoked potential (MEP) amplitudes for at least 30 min in animal experiments [12]
With the excellent efficacy of previously combined stimulation, we report a pilot randomized controlled study to examine the combined effects of DC-iTBS and conventional rehabilitation (CR) on upper-limb motor function as measured by the Fugl-Meyer Assessment upper extremity (FMA-UE), Finger-to-Nose test (FNT), and Jebsen-Taylor hand function test (JTT) in patients with chronic stroke compared to a sham intervention
Summary
Neuromodulation is an evolving therapy for rehabilitation after a stroke and is used to improve motor function in the lesioned cortex. Transcranial direct current stimulation (tDCS), a non-invasive brain stimulation (NIBS) technique, is contemporarily important as it can modulate neuroplasticity in advanced rehabilitation medicine, such as pain, depression and, addictive diseases [4,5,6]. Transcranial direct current stimulation (tDCS) and intermittent theta burst stimulation (iTBS) were both demonstrated to have therapeutic potentials to rapidly induce neuroplastic effects in various rehabilitation training regimens. We developed a novel transcranial electrostimulation device that can flexibly output an electrical current with combined tDCS and iTBS waveforms. Limited studies have determined the therapeutic effects of this special waveform combination on clinical rehabilitation. We investigated brain stimulation effects of tDCS-iTBS on upper-limb motor function in chronic stroke patients
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