- ICH GCP
- US Clinical Trials Registry
- Clinical Trial NCT05457205
Transcutaneous Spinal Stimulation for Lower Limb Spasticity in Spinal Cord Injury
Transcutaneous Spinal Stimulation for Reducing Lower Limb Spasticity in Chronic Spinal Cord Injury: a Cross-over Study of Immediate Effects and Outcomes of Home-based Therapy Trials
Spasticity develops months after spinal cord injury (SCI) and persists over time. It presents as a mixture of tonic features, namely increased muscle tone (hypertonia) and phasic features, such as hyperactive reflexes (hyperreflexia), clonus, and involuntary muscle contractions (spasms). Spasticity is often disabling because it interferes with hygiene, transfers, and locomotion and can disturb sleep and cause pain. For these reasons, most individuals seek treatments for spasticity after SCI. New developments in electrical neuromodulation with transcutaneous spinal stimulation (TSS) show promising results in managing spasticity non-pharmacologically. The underlying principle of TSS interventions is that the afferent input generated by posterior root stimulation modifies the excitability of the lumbosacral network to suppress pathophysiologic spinal motor output contributing to distinctive features of spasticity. However, the previous TSS studies used almost identical protocols in terms of stimulation frequency and intensity despite the great flexibility offered by this treatment strategy and the favorable results with the epidural stimulation at higher frequencies. Therefore, the proposed study takes a new direction to systematically investigate the standalone and comparative efficacy of four TSS interventions, including those used in previous studies.
Our central hypothesis is that electrical neuromodulation with the selected TSS protocols (frequency: 50/100 Hz; intensity: 0.45 or 0.9 times the sub-motor threshold) can reduce and distinctly modify tonic and phasic components of spasticity on short- and long-term basis. We will test our hypothesis using a prospective, experimental, cross-over, assessor-masked study design in 12 individuals with chronic SCI (more than 1-year post-injury).
Aim 1. Determine the time course of changes and immediate after-effects of each TSS protocol on tonic and phasic spasticity. The results will reveal the evolution of changes in spasticity during 30-min of TSS and the most effective protocol for producing immediate aftereffects.
Aim 2. Determine the effect of TSS on spasticity after a trial of home-based therapy with each protocol. The participants will administer 30 min of TSS daily for six days with each of the four TSS protocols selected randomly. This aim will reveal the long-term carry-over effects of TSS intervention on various components of spasticity after SCI.
Aim 3. Determine the participants' experience with TSS as a home-based therapy through focus group meetings. We will conduct focus group meetings after participants finish the home-based therapy trial. Accomplishing this specific aim will provide a valuable perspective on the value, challenges, and acceptability of TSS as a home-based intervention.
The study addresses important questions for advancing scientific knowledge and clinical management of spasticity after SCI. Specifically, it will examine the efficacy of TSS frequencies and intensities on tonic and phasic spasticity. The study results will be relevant for a high proportion of individuals living with SCI that could benefit from this novel and low-cost non-pharmacological approach to managing spasticity after SCI.
Study Overview
Status
Conditions
Intervention / Treatment
Study Type
Enrollment (Estimated)
Phase
- Not Applicable
Contacts and Locations
Study Contact
- Name: Matthias J Krenn, PhD
- Phone Number: 601-364-3413
- Email: mkrenn@umc.edu
Study Contact Backup
- Name: Dobrivoje S Stokic, MD, DSc
- Phone Number: 601-364-3314
- Email: dstokic@mmrcrehab.org
Study Locations
-
-
Mississippi
-
Jackson, Mississippi, United States, 39216
- Recruiting
- University Of Mississippi Medical Center
-
Contact:
- Matthias J Krenn, PhD
- Phone Number: 601-364-3413
- Email: mkrenn@umc.edu
-
Jackson, Mississippi, United States, 39216
- Recruiting
- Methodist Rehabilitation Center
-
Contact:
- Dobrivoje S Stokic, MD, DSc
- Phone Number: 601-364-3314
- Email: dstokic@mmrcrehab.org
-
-
Participation Criteria
Eligibility Criteria
Ages Eligible for Study
Accepts Healthy Volunteers
Description
Inclusion Criteria:
- Age 18 years or older
- History of SCI (ASIA Impairment Scale grades A-D)
- Time since injury longer than 6 months
- The presence of at least mild spasticity (>3) in the lower limbs by self-report of the Numerical Rating Scale (from 0 to 10) of spasticity severity
- Signed consent form
Exclusion Criteria:
- Neurological level of SCI below T11
- Suspected progression of SCI (e.g., syringomyelia)
- Ventilatory-dependent
- Implanted active devices (e.g., intrathecal baclofen pumps)
- Passive implants (plates, screws) between T10 and L3 vertebras
- Skin conditions precluding placement of electrodes
- Ongoing infections
- Pregnancy
- Difficulty following instructions
- No access to a caregiver/family member to help with electrode placement at home
- Other medical risks/contraindications as determined by the study physicians
Study Plan
How is the study designed?
Design Details
- Primary Purpose: Treatment
- Allocation: Randomized
- Interventional Model: Crossover Assignment
- Masking: Single
Arms and Interventions
Participant Group / Arm |
Intervention / Treatment |
---|---|
Experimental: Neuromodulation with 50 Hz and low intensity
Transcutaneous spinal stimulation for 30 min with a stimulation frequency of 50 Hz and stimulation intensity of 0.45 x lowest motor threshold (reflex threshold in leg muscles).
|
Electrical neuromodulation intervention using transcutaneous spinal stimulation: two self-adhesive semicircle electrodes (forming a 5cm round electrode) will be centered midline over the T11-12 spinal processes, and two 8×13 cm electrodes will be placed paraumbilical and interconnected to serve as a counter electrode.
A current-controlled stimulator will deliver symmetric biphasic pulses (500-μs/phase).
Electrical stimulation will be applied according to the description in each study arm.
Other Names:
|
Experimental: Neuromodulation with 50 Hz and high intensity
Transcutaneous spinal stimulation for 30 min with a stimulation frequency of 50 Hz and stimulation intensity of 0.90 x lowest motor threshold (reflex threshold in leg muscles).
|
Electrical neuromodulation intervention using transcutaneous spinal stimulation: two self-adhesive semicircle electrodes (forming a 5cm round electrode) will be centered midline over the T11-12 spinal processes, and two 8×13 cm electrodes will be placed paraumbilical and interconnected to serve as a counter electrode.
A current-controlled stimulator will deliver symmetric biphasic pulses (500-μs/phase).
Electrical stimulation will be applied according to the description in each study arm.
Other Names:
|
Experimental: Neuromodulation with 100 Hz and low intensity
Transcutaneous spinal stimulation for 30 min with a stimulation frequency of 100 Hz and stimulation intensity of 0.45 x lowest motor threshold (reflex threshold in leg muscles).
|
Electrical neuromodulation intervention using transcutaneous spinal stimulation: two self-adhesive semicircle electrodes (forming a 5cm round electrode) will be centered midline over the T11-12 spinal processes, and two 8×13 cm electrodes will be placed paraumbilical and interconnected to serve as a counter electrode.
A current-controlled stimulator will deliver symmetric biphasic pulses (500-μs/phase).
Electrical stimulation will be applied according to the description in each study arm.
Other Names:
|
Experimental: Neuromodulation with 100 Hz and high intensity
Transcutaneous spinal stimulation for 30 min with a stimulation frequency of 100 Hz and stimulation intensity of 0.90 x lowest motor threshold (reflex threshold in leg muscles).
|
Electrical neuromodulation intervention using transcutaneous spinal stimulation: two self-adhesive semicircle electrodes (forming a 5cm round electrode) will be centered midline over the T11-12 spinal processes, and two 8×13 cm electrodes will be placed paraumbilical and interconnected to serve as a counter electrode.
A current-controlled stimulator will deliver symmetric biphasic pulses (500-μs/phase).
Electrical stimulation will be applied according to the description in each study arm.
Other Names:
|
What is the study measuring?
Primary Outcome Measures
Outcome Measure |
Measure Description |
Time Frame |
---|---|---|
Change in posterior root reflex amplitude
Time Frame: Before and after an intervention session (30 minutes)
|
The amplitudes of the posterior root reflexes will be calculated and normalized to the maximum response amplitude from the recruitment curve for each muscle separately.
The respective values will be averaged over all muscles and used as an outcome measure.
|
Before and after an intervention session (30 minutes)
|
Change in posterior root reflex amplitude (during intervention)
Time Frame: Before and during an intervention session (15 minutes)
|
The amplitudes of the posterior root reflexes will be calculated and normalized to the maximum response amplitude from the recruitment curve for each muscle separately.
The respective values will be averaged over all muscles and used as an outcome measure.
|
Before and during an intervention session (15 minutes)
|
Change in flexion withdrawal reflex root-mean-square
Time Frame: Before and after an intervention session (30 minutes)
|
The cumulative root-mean-square values of the reflex amplitude in a window from 50 to 200 ms after the stimulation pulse over all recorded muscles.
|
Before and after an intervention session (30 minutes)
|
Change in flexion withdrawal reflex root-mean-square (during intervention)
Time Frame: Before and during an intervention session (15 minutes)
|
The cumulative root-mean-square values of the reflex amplitude in a window from 50 to 200 ms after the stimulation pulse over all recorded muscles.
|
Before and during an intervention session (15 minutes)
|
Change in pendulum test index
Time Frame: Before and after an intervention session (30 minutes)
|
The pendulum test provides the spasticity index which is calculated based on the knee angle of the initial horizontal leg position of the pendulum test, the angle at which the leg reversed for the first time from flexion to extension, and the final knee resting angle.
|
Before and after an intervention session (30 minutes)
|
Change in pendulum test index (during intervention)
Time Frame: Before and during an intervention session (15 minutes)
|
The pendulum test provides the spasticity index which is calculated based on the knee angle of the initial horizontal leg position of the pendulum test, the angle at which the leg reversed for the first time from flexion to extension, and the final knee resting angle.
|
Before and during an intervention session (15 minutes)
|
Secondary Outcome Measures
Outcome Measure |
Measure Description |
Time Frame |
---|---|---|
Change in Modified Ashworth Scale
Time Frame: Before and after an intervention session (30 minutes)
|
The total score will be obtained by summing the individual muscle scores (value 1.5 will be used for the 1+ scoring category).
The sum score ranges from 0 to 40 (0, no increase in muscle tone across all 10 tested muscles).
|
Before and after an intervention session (30 minutes)
|
Change in Modified Ashworth Scale (after one week)
Time Frame: Before and after one week
|
The total score will be obtained by summing the individual muscle scores (value 1.5 will be used for the 1+ scoring category).
The sum score ranges from 0 to 40 (0, no increase in muscle tone across all 10 tested muscles).
|
Before and after one week
|
Change in Spinal Cord Assessment Tool for Spastic Reflexes
Time Frame: Before and after an intervention session (30 minutes)
|
Sum of the 4-point scale of three types of spastic behavior (ankle clonus, flexor, extensor leg spasms).
|
Before and after an intervention session (30 minutes)
|
Change in Spinal Cord Assessment Tool for Spastic Reflexes (after one week)
Time Frame: Before and after one week
|
Sum of the 4-point scale of three types of spastic behavior (ankle clonus, flexor, extensor leg spasms).
|
Before and after one week
|
Change in Penn Spasm Frequency Scale
Time Frame: Before and after an intervention session (30 minutes)
|
Sum of spasm frequency (0-5 scale) and spasm severity (0-3 scale).
|
Before and after an intervention session (30 minutes)
|
Change in Penn Spasm Frequency Scale (after one week)
Time Frame: Before and after one week
|
Sum of spasm frequency (0-5 scale) and spasm severity (0-3 scale).
|
Before and after one week
|
Collaborators and Investigators
Collaborators
Investigators
- Principal Investigator: Matthias J Krenn, PhD, University Of Mississippi Medical Center
Publications and helpful links
Helpful Links
Study record dates
Study Major Dates
Study Start (Actual)
Primary Completion (Estimated)
Study Completion (Estimated)
Study Registration Dates
First Submitted
First Submitted That Met QC Criteria
First Posted (Actual)
Study Record Updates
Last Update Posted (Actual)
Last Update Submitted That Met QC Criteria
Last Verified
More Information
Terms related to this study
Keywords
Additional Relevant MeSH Terms
Other Study ID Numbers
- UMMC-IRB-2022-9
Plan for Individual participant data (IPD)
Plan to Share Individual Participant Data (IPD)?
Drug and device information, study documents
Studies a U.S. FDA-regulated drug product
Studies a U.S. FDA-regulated device product
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