Non-invasive treatment of patients with upper extremity spasticity following stroke using paired trans-spinal and peripheral direct current stimulation

Alexandra Paget-Blanc; Johanna L. Chang; Maira Saul; Regina Lin; Zaghloul Ahmed; Bruce T. Volpe

doi:10.1186/s42234-019-0028-9

Bioelectronic Medicine (Jul 2019)

Non-invasive treatment of patients with upper extremity spasticity following stroke using paired trans-spinal and peripheral direct current stimulation

Alexandra Paget-Blanc,
Johanna L. Chang,
Maira Saul,
Regina Lin,
Zaghloul Ahmed,
Bruce T. Volpe

Affiliations

Alexandra Paget-Blanc: Feinstein Institute for Medical Research, Biomedical Science Division, Biomedical Sciences /Robot Lab, Laboratory of Clinical Neurorehabilitation Research
Johanna L. Chang: Feinstein Institute for Medical Research, Biomedical Science Division, Biomedical Sciences /Robot Lab, Laboratory of Clinical Neurorehabilitation Research
Maira Saul: Feinstein Institute for Medical Research, Biomedical Science Division, Biomedical Sciences /Robot Lab, Laboratory of Clinical Neurorehabilitation Research
Regina Lin: BARC Global Central Laboratory
Zaghloul Ahmed: College of Staten Island, Department of Physical Therapy, Center for Developmental Neuroscience
Bruce T. Volpe: Feinstein Institute for Medical Research, Biomedical Science Division, Biomedical Sciences /Robot Lab, Laboratory of Clinical Neurorehabilitation Research

DOI: https://doi.org/10.1186/s42234-019-0028-9
Journal volume & issue: Vol. 5, no. 1
pp. 1 – 10

Abstract

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Abstract Background Muscle spasticity is a common impediment to motor recovery in patients with chronic stroke. Standard-of-care treatments such as botulinum toxin injections can temporarily relieve muscle stiffness and pain associated with spasticity, but often at the expense of increased muscle weakness. Recent preclinical investigations of a non-invasive treatment that pairs trans-spinal direct current stimulation and peripheral nerve direct current stimulation (tsDCS+pDCS) provided promising data for a novel approach based on bioelectronic medicine for the treatment of patients with post-stroke spasticity. Methods Twenty-six patients with upper limb hemiparesis and wrist spasticity at least 6 months after their initial stroke participated in this single-blind crossover design study to test whether tsDCS+pDCS reduces chronic upper-extremity spasticity. Subjects received five consecutive daily sessions (20 min of stimulation or sham) of anodal tsDCS+pDCS, separated by a one-week washout period. The sham condition always preceded the active condition. Clinical and objective measures of spasticity and motor function were collected before and after each condition, and for five weeks after the completion of the active intervention. Results Subjects treated with active tsDCS+pDCS demonstrated significant reductions in both Modified Tardieu Scale scores (summed across the upper limb, P < 0.05), and in objective torque measures (Nm) of the spastic catch response at the wrist flexor (P < 0.05), compared to the sham condition. Motor function also improved significantly (measured by the Fugl-Meyer and Wolf Motor Function Test; P < 0.05 for both tests) after active treatment. Conclusions tsDCS+pDCS intervention alone significantly reduced upper limb spasticity in participants with stroke. Decreased spasticity was persistent for five weeks after treatment, and was accompanied by improved motor function even though patients were unsupervised and there was no prescribed activity or training during that interval. Trial registration NCT03080454, March 15, 2017.

Published in Bioelectronic Medicine

ISSN: 2332-8886 (Online)
Publisher: BMC
Country of publisher: United Kingdom
LCC subjects: Medicine: Medicine (General): Medical technology
Website: https://bioelecmed.biomedcentral.com/

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