Patients recovering from spinal cord injuries or who have mobility disorders related to spinal nerve compression are frequently treated by the conditioning of the Hoffmann’s reflex via non-surgical electrostimulation therapy. To track the progress of the treatment, electromyography (EMG) is used to record the amplitude of the patient’s muscle twitch response.
Accurate EMG recording requires precise positioning of electrodes; thus, the existing systems have to use too many electrodes to cover the target skin. In addition, the current systems are relying on rigid and bulky metal electrodes, strong adhesives, and skin-irritable conductive gels. These system constraints increase error instances across sessions in experimentation, as well as requiring lengthy set-up times.
To address these issues, the Bio-Interfaced Translational Nanoengineering Group, under the direction of Assistant Professor W. Hong Yeo, George W. Woodruff School of Mechanical Engineering and Wallace Coulter Department of Biomedical Engineering at Georgia Tech, have created a nanomembrane electrode EMG array for use on large epidermal areas that has the potential to reduce greatly these problems in critical therapeutics for rehabilitation.
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