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UnknownNCT04465786

A Closed-loop Brain-computer Interface for Stroke

A Closed-loop Brain-computer Interface for Paretic Hand Stimulation After Stroke

Status
Unknown
Phase
Study type
Observational
Enrollment
70 (estimated)
Sponsor
Taipei Veterans General Hospital, Taiwan · Other Government
Sex
All
Age
20 Years – 80 Years
Healthy volunteers
Accepted

Summary

It may be hard to acquire stable sensorimotor rhythm from the affected motor cortex for patient without a response of paretic hand. A few studies suggest two ways to approaching closed-loop therapy: peripherally extracting the residual signals, for example electromyogram (EMG) at proximal muscles (deltoids) and centrally extracting the activity patterns from unaffected hemisphere during attempting to move paretic hand. Therefore, understanding neural signatures of residual upper extremity movement among stroke patients might help in discovering potential therapeutic target and developing tailored brain-computer interface (BCI) therapy. Additionally, 59.4% of stroke patients in acute stage impair at least one somatosensory modality. It remains unclear whether the patient with somatosensory impairment hinder BCI effect.

Detailed description

Investigators will consecutively enroll subacute (1-4 weeks after stroke onset) patients with first-time, unilateral, subcortical stroke and age-matched healthy controls. All participants will carry on 2 sequential experiments. In the first experiment, participants will perform 2 motor tasks using either paretic/nondominant upper extremity or non-paretic/dominant upper extremity, called motor attempt (M) condition or calibration condition. The second experiment contains 3 conditions: cyclic functional electrical stimulation (cFES), cFES during motor attempt (M-cFES), and functional electrical stimulation during brain-computer interface (BCI-FES) in random order. The sensorimotor oscillations from the electroencephalography (EEG), upper extremity sensorimotor function score (Fugl-Meyer test, Action Research Arm test, and Revised Nottingham Sensation Assessment), corticospinal excitability from the transcranial magnetic stimulation (TMS), and resting-state functional and structural neuroimage from magnetic resonance imaging (MRI) will be assessed before and after the final experiment, as well as 3 months after stroke.

Conditions

Timeline

Start date
2020-07-13
Primary completion
2022-08-31
Completion
2022-08-31
First posted
2020-07-10
Last updated
2020-07-10

Locations

1 site across 1 country: Taiwan

Source: ClinicalTrials.gov record NCT04465786. Inclusion in this directory is not an endorsement.