Safety and Feasibility of Paired Vagus Nerve Stimulation With Rehabilitation for Improving Upper Extremity Function in People With Cervical Spinal Cord Injury: A Pilot Randomized Control Trial.
Overview
- Phase
- Not Applicable
- Intervention
- Not specified
- Conditions
- Cervical Spinal Cord Injury
- Sponsor
- The University of Texas Health Science Center, Houston
- Enrollment
- 6
- Locations
- 1
- Primary Endpoint
- Safety as assessed by number of subjects with change in diastolic blood pressure
- Status
- Completed
- Last Updated
- 6 months ago
Overview
Brief Summary
The purpose of this study is to determine the safety and feasibility of pairing vagus nerve stimulation (VNS) with rehabilitation and to determine the efficacy of pairing VNS with rehabilitation.
Detailed Description
The current study will evaluate the safety and feasibility of a novel rehabilitation protocol to improve upper limb motor recovery in adults with incomplete cervical SCI. In this double-blinded, randomized, placebo-controlled pilot trial, 8 adults (above 18 years) with cervical SCI will be randomly assigned in a 1:1 ratio to active VNS paired with rehabilitation or control VNS paired with rehabilitation. All participants will be implanted with a VNS device and randomized to receive either active VNS (0.8mA) or control VNS (0.0 mA) paired with upper limb rehabilitation. All participants will receive three 1.5-hour sessions per week for 6 weeks of in-clinic therapy, followed by a daily, 30 minutes home therapy program for 90 days. The rehabilitation therapy involves repetitive, progressive, task-specific exercises adjusted to the participant's functional level. Participants, assessors, and therapists will maintain blinding until the completion of this phase. After 90 days, in phase II, participants in the control VNS group will cross over to receive active VNS paired with rehabilitation. Safety and feasibility measures are the primary outcomes of this study. Safety measures will include the incidence of surgical and VNS therapy-related events. Feasibility metrics include reporting attrition rate and compliance rate with both in-clinic therapy sessions and home exercise programs. To measure efficacy, change in Graded and Redefined Assessment of Strength, Sensibility, and Prehension from baseline to immediately after 6-week in-clinic treatment and 90-day assessment will be analyzed. Additional clinical outcomes include the Toronto Rehab Institute Hand Function Test, Capabilities of Upper Extremity Questionnaire, spinal cord injury independence self-care measure, and spinal cord injury quality of life. The results of this study will provide valuable information on safety and feasibility and insight into the efficacy of pairing VNS with rehabilitation in people with SCI. Knowledge obtained from this study will lay the groundwork for future large randomized control trials to assess the dosing and effectiveness of pairing VNS with rehabilitation.
Investigators
Radha Korupolu
Associate Professor
The University of Texas Health Science Center, Houston
Eligibility Criteria
Inclusion Criteria
- •a diagnosis of traumatic incomplete (AIS B-D) cervical spinal cord injury (C8 and above)
- •at least 12 months post-traumatic SCI
- •demonstrate some residual movement in the upper limb (e.g., able to perform pinch movement with thumb and index finger)
- •meet all clinical criteria for the surgical VNS implantation as determined by the PI, neurosurgeon, and anesthesiologist.
Exclusion Criteria
- •non-traumatic SCI, injury
- •presence of ongoing dysphasia or aspiration difficulties
- •evidence of vagus pre-existing vocal cord paralysis as determined with laryngoscopy procedure
- •participants with prior left-sided anterior cervical surgery who exhibit too much of scar tissue at the surgery site which will be determined by neurosurgeon
- •concomitant clinically significant brain injury
- •history of prior injury to a vagus nerve
- •receiving medication that may significantly interfere with the actions of VNS on neurotransmitter systems at study entry
- •other comorbidities or complications that will hinder or contraindicate surgical procedure
- •medical or mental instability
- •pregnancy or plans to become pregnant during the study period.
Outcomes
Primary Outcomes
Safety as assessed by number of subjects with change in diastolic blood pressure
Time Frame: pretreatment, post treatment (about 6 weeks after pre treatment )
Safety as assessed by number of subjects with change in respiratory rate
Time Frame: pretreatment, post treatment (about 6 weeks after pre treatment )
Safety as assessed by number of subjects with change in heart rate
Time Frame: pretreatment, post treatment (about 6 weeks after pre treatment )
Safety as assessed by number of subjects with change in pain at stimulation site
Time Frame: pretreatment, post treatment (about 6 weeks after pre treatment )
Safety as assessed by number of subjects with post surgical complications
Time Frame: 90-day follow-up
post-surgical complications include but are not limited to dysphagia, hematoma, hoarseness of voice, vocal cord paralysis, edema, pain, and post-surgical infection
Safety as assessed by number of subjects with change in systolic blood pressure
Time Frame: pretreatment, post treatment (about 6 weeks after pre treatment )
Safety as assessed by number of subjects with change in autonomic dysreflexia
Time Frame: pretreatment, post treatment (about 6 weeks after pre treatment )
Feasibility as assessed by the number of participants that dropped out of the study
Time Frame: end of study(about 132 days after enrollment)
Safety as assessed by number of subjects with worsening spasticity
Time Frame: pretreatment, post treatment (about 6 weeks after pre treatment )
Feasibility as assessed by the number of participants that completed all the sessions
Time Frame: end of study(about 132 days after enrollment)
Secondary Outcomes
- Change in capability of using arms and hands as assessed by the Capabilities of Upper Extremity Questionnaire (CUE-Q)(baseline, post-treatment (first day after 6 week inclinic therapy), 30 days, and 90 days follow-up.)
- Change in hand function as assessed by the Toronto Rehab Institute Hand Function Test (TRI-HFT)(baseline, post-treatment (first day after 6 week inclinic therapy), 30 days, and 90 days follow-up.)
- Change in self care independence as assessed by the Spinal Cord Injury Independence Measure-III (SCIM-III) self-care subscore(baseline, post-treatment (first day after 6 week inclinic therapy), 30 days, and 90 days follow-up.)
- Quality of Life as assessed by the Spinal Cord Injury- Quality of Life (SCI-QoL) questionnaire(baseline, post-treatment (first day after 6 week inclinic therapy), 30 days, and 90 days follow-up.)
- Change in Pain as assessed by the International SCI pain basic data subset (version 2).(baseline, post-treatment (first day after 6 week inclinic therapy), 30 days, and 90 days follow-up.)
- Change in Depression as assessed by the Patient Health Questionnaire (PHQ-8)(baseline, post-treatment (first day after 6 week inclinic therapy), 30 days, and 90 days follow-up.)
- Change in degree of upper limb impairment as assessed by the Graded Redefined Assessment of Strength Sensibility and Prehension (GRASSP) survey.(baseline, post-treatment (first day after 6 week inclinic therapy), 30 days, and 90 days follow-up.)