Transcutaneous Spinal and Peripheral Stimulation and Wrist Robotic Therapy for Patients With Spastic Stroke

Northwell Health13 enrolled

Overview

The purpose of this study is to investigate if two courses of five consecutive sessions of noninvasive spinal stimulation paired with peripheral nerve stimulation at the forearm provided by an investigational device (Doublestim™/ MyoRegulator™ System - PathMaker Neurosystems Inc.) are able to improve wrist stiffness and motor function, when combined with intensive robotic wrist training program in participants with chronic spastic hemiparesis after stroke.

Stroke is the fifth leading cause of death and the leading cause of serious long-term disability in the U.S. Post-stroke impairment often presents as weakness of the upper and lower limbs and spasticity (muscle and joint stiffness and hyperactivity). This condition impacts motor recovery and renders the individual dependent for most activities of daily living. Even with aggressive standard rehabilitation, 65 percent of patients cannot incorporate their affected hand in functional activities six months after stroke. Investigators have previously demonstrated that robotic therapy provides significant benefits to upper limb motor recovery after stroke. The treatment has been acknowledged by the American Heart Association as an effective form of stroke rehabilitation. Neuromodulation techniques such as noninvasive brain, nerve and spinal direct current stimulation have been proposed as promising safe tools for augmenting motor learning and function after brain injury. Ahmed (2014) demonstrated in a pre-clinical mouse model that the use of combined trans-spinal and peripheral direct current stimulation (tsDCS + pDCS) can modulate muscle tone and potentially improve motor function. Preliminary clinical trial of safety and feasibility (Paget-blanc et al. 2019) suggests that five sessions of transcutaneous spinal direct current stimulation paired with transcutaneous peripheral direct current stimulation (Doublestim™/ MyoRegulator™ System - PathMaker Neurosystems Inc.) temporarily reduce spasticity features such as catch response to slow and fast joint stretch and overall stiffness of the affected extremity with optimal reductions in spasticity occurring 2-3 weeks post stimulation intervention. Unexpectedly, participants also experienced significant improvements in motor function, suggestive that tsDCS+ pDCS may provide a therapeutic window to further augment motor outcomes with robotic wrist training. The investigators propose a study to evaluate whether two doses of five consecutive days of paired spinal and peripheral noninvasive stimulation combined with six weeks of intensive (three times a week) robotic therapy will significantly alter the clinical and objective measures of spasticity and motor function of the wrist in participants with upper extremity spasticity after stroke.

Eligibility

Sex: ALLMin age: 18 Years

Medical Language ↔ Plain English

Inclusion Criteria: * ≥ 18 years of age * First and only single focal unilateral hemisphere lesion with diagnosis verified by brain imaging (MRI or CT scans) that occurred at least 6 months prior * Cognitive function sufficient to understand the experiments and follow instructions (per interview with PI or study investigators) * Fugl-Meyer assessment (minimum score of 12 out of 66 - not completely plegic in the muscles of affected wrist) * A Modified Ashworth score between 1-3 points for wrist flexors and extensors * A minimum of 15 degrees wrist passive ROM for wrist flexion and extension from wrist neutral position * Body fat range of 15-25mm for females/10-20mm for males of adipose tissue at the cervical neck level and a body fat range of 10-40mm for females/5-35mm for males of adipose tissue at the suprailiac crest, as determined by a body fat caliper Exclusion Criteria: * Botox or phenol alcohol treatment of the upper extremity within 3 months of stimulation intervention * Fixed contracture or complete flaccid paralysis of the affected wrist * Introduction of any new rehabilitation interventions during study * Pregnant or plan on becoming pregnant or breastfeeding during the study period as determined by self-report * Focal brainstem or thalamic infarcts * Prior surgical treatments for spasticity of the upper limb * Ongoing use of CNS-active medications for spasticity (enrollment to be determined by PI review) * History of spinal cord injury or weakness * Chronic pain, defined by a report of a "5" or greater on the Wong-Baker Pain Scale * Peripheral neuropathy including insulin dependent diabetes as determined by case history * Presence of additional potential tsDCS risk factors: * Damaged skin at the site of stimulation (i.e., skin with ingrown hairs, acne, razor nicks, wounds that have not healed recent scar tissue, broken skin, etc.) * Presence of an electrically, magnetically or mechanically activated implant (including cardiac pacemaker), an intracerebral vascular clip, or any other electrically sensitive support system; Loop recorders will be reviewed on a case by case basis by PI and the treating Cardiologist to make a determination * Highly conductive metal in any part of the body, including metal injury to the eye (jewelry must be removed during stimulation); this will be reviewed on a case by case basis for PI to make a determination * Past history of seizures or unexplained spells of loss of consciousness during the previous 36 months

Outcomes

Primary Outcomes

Instrumental assessment of change in wrist muscle tone

As primary outcome measure, the team will investigate whether Doublestim™ intervention paired with robotic therapy significantly changes the catch response during wrist extension as recorded by a biomechanical force transducer.

Time frame: Change from baseline (Admission) at discharge (D-A) and at Four week Follow-up (FU-A)

Secondary Outcomes

Changes in upper extremity Fugl-Meyer assessment

As secondary outcome measure, the team will test whether active Doublestim™ stimulation (10 sessions) paired with intensive robotic intervention (18 sessions) significantly improves wrist motor function as compared to sham stimulation paired with intensity-matched robotics.