Enhancing Corticospinal Activation for Improved Walking Function

December 29, 2021 updated by: Edelle Field-Fote, PT, PhD, Shepherd Center, Atlanta GA

SCIMS Project 1: Enhancing Corticospinal Activation for Improved Walking Function

For many people with spinal cord injury (SCI), the goal of walking is a high priority. There are many approaches available to restore walking function after SCI; however, these approaches often involve extensive rehabilitation training and access to facilities, qualified staff, and advanced technology that make practicing walking at home difficult. For this reason, developing training approaches that could be easily performed in the home would be of great value. In addition, non-invasive brain stimulation has the potential to increase the effectiveness of communication between the brain and spinal cord. Combining motor skill training with brain stimulation may further enhance the restoration of function in persons with SCI. Based on these findings, the primary aim of this proof-of-concept study is to inform future intervention development. To meet this aim, we will determine if moderate-intensity, motor skill training can improve walking-related outcomes among persons with SCI and to determine if the addition of non-invasive brain stimulation will result in greater improvements in function compared to training alone.

Study Overview

Status

Completed

Conditions

Intervention / Treatment

Detailed Description

For many people with spinal cord injury (SCI), the goal of walking is a high priority. There are many approaches available to restore walking function after SCI; however, these approaches often involve access to intensive training programs, facilities, qualified staff, and advanced technology that make practicing walking at home difficult. For this reason, developing training approaches that could be easily performed in the home would be of great value. In addition, research suggests that enhancing brain excitability might have benefits for improving the communication between the brain and spinal cord. Transcranial direct current stimulation (tDCS) is a type of non-invasive brain stimulation that has been shown to directly increase brain excitability, which may make it easier for the brain and nervous system to respond to training. Combining motor skill exercises with brain stimulation may enhance the restoration of walking function in persons with SCI. Based on these findings, the primary aim of this proof-of-concept study is to inform future intervention development. To meet this aim, we will determine if moderate-intensity, motor skill training can improve walking-related outcomes among persons with SCI and to determine if the addition of non-invasive brain stimulation will result in greater improvements in function compared to training alone.

Participants in the proposed study will complete one baseline testing session, 3 motor training sessions, and one follow-up session over 5 consecutive days. During the first and fifth sessions, participants will complete assessments only, which will take approximately 2-3 hours each day. During the second, third, and fourth sessions, participants will perform a series of 6 standing motor skill exercises designed to challenge balance, lower extremity coordination, agility, and speed. Participants will be randomized to either a motor training only group or a motor training + tDCS group. The motor training + tDCS group will receive brain stimulation during the motor skill training, while the motor training only group will receive sensory level brain stimulation only. Each participant will complete the 6 motor skill exercise circuit 4 times. Motor training exercise sessions will last approximately 25-30 minutes and will be preceded and followed by assessments of walking function, spasticity, and ankle strength in order to determine changes in these measures over time.

Study Type

Interventional

Enrollment (Actual)

25

Phase

  • Not Applicable

Contacts and Locations

This section provides the contact details for those conducting the study, and information on where this study is being conducted.

Study Locations

  • United States
    • Georgia
      • Atlanta, Georgia, United States, 30309
        • Shepherd Center, Inc.

Participation Criteria

Researchers look for people who fit a certain description, called eligibility criteria. Some examples of these criteria are a person's general health condition or prior treatments.

Eligibility Criteria

Ages Eligible for Study

18 years to 65 years (Adult, Older Adult)

Accepts Healthy Volunteers

Yes

Genders Eligible for Study

All

Description

Inclusion Criteria:

  • Have a spinal cord injury (neurological level C3-T10);
  • Chronic SCI (12 months or greater);
  • Neurological impairment classification C or D;
  • Able to stand for at least 5 minutes (with or without an assistive device);
  • Able to move each leg independently for at least 3 steps;
  • Able to rise from sit to stand with moderate assistance from one person;
  • Ability and willingness to consent and authorize use of personal health information.

Exclusion Criteria:

  • Progressive spinal lesions including degenerative, or progressive vascular disorders of the spine and/or spinal cord;
  • Injuries below the neurological spinal level of T10;
  • History of cardiovascular irregularities;
  • Altered cognitive status;
  • Presence of orthopedic conditions that would adversely affect participation in exercise;
  • Implanted metallic objects in the head;
  • History of seizures;
  • Inability and unwillingness to consent and authorize use of personal health information.

Study Plan

This section provides details of the study plan, including how the study is designed and what the study is measuring.

How is the study designed?

Design Details

  • Primary Purpose: Treatment
  • Allocation: Randomized
  • Interventional Model: Parallel Assignment
  • Masking: Triple

Arms and Interventions

Participant Group / Arm
Intervention / Treatment
Sham Comparator: Motor Training + Sham tDCS
Individuals will participate in 3 consecutive sessions of lower extremity motor skill training while receiving sham transcranial direct current stimulation (tDCS).
Other: Motor Skill Training
Motor skill training will consist of activities that will be performed while standing to promote upright control (the toe-tapping activity will be performed while seated). Participants will perform each of the 6 different activities for one minute each, until 4 cycles of the circuit have been completed (approximately 25 minutes total). Motor training activities will be performed at an intensity of 40-59% of heart rate reserve (HRR). Toe tapping will provide the opportunity for scheduled rest. During MT, all participants will wear a heart rate monitor to ensure that the optimal HR range is achieved. HRR will be calculated from resting and peak heart rate measures obtained during baseline testing via administration of a graded-exercise test.
Experimental: Motor Training + tDCS
Individuals will participate in 3 consecutive sessions of lower extremity motor skill training combined with transcranial direct current stimulation (tDCS) delivered at 2mA to the motor cortex.
Other: Motor Skill Training
Motor skill training will consist of activities that will be performed while standing to promote upright control (the toe-tapping activity will be performed while seated). Participants will perform each of the 6 different activities for one minute each, until 4 cycles of the circuit have been completed (approximately 25 minutes total). Motor training activities will be performed at an intensity of 40-59% of heart rate reserve (HRR). Toe tapping will provide the opportunity for scheduled rest. During MT, all participants will wear a heart rate monitor to ensure that the optimal HR range is achieved. HRR will be calculated from resting and peak heart rate measures obtained during baseline testing via administration of a graded-exercise test.
Device: Transcranial direct current stimulation (tDCS)
The tDCS electrode placement is based on procedures shown to improve gait and balance in a single session when used in combination with gait training activities. tDCS electrodes can simultaneously activate the bilateral leg motor areas when placed at the midline of the scalp slightly anterior to the vertex (anode) and at the inion (cathode), with a current intensity of 2mA. The tDCS device is lightweight, and can be worn in a backpack during the MT activities. As reported previously, participants in the MT-only group will receive sham tDCS to maintain analogous study procedures.

What is the study measuring?

Primary Outcome Measures

Outcome Measure
Measure Description
Time Frame
10 Meter Walk Test (Walk Speed)
Time Frame: D1, D5
Walking speed was the primary outcome measure for walking function, as speed has been the standard measure used in the literature and allowed us to assess outcomes relative to other published studies. Walking speed was determined using the 10-Meter Walk Test. Participants completed 3 walk trials at each time point, separated by 2 minutes of seated rest. The average walking speed of 3 walks was calculated and used in the analyses. Data reported were obtained at baseline at Day 1 (D1) and at follow-up on Day 5 (D5), 24-hours post-intervention.
D1, D5

Secondary Outcome Measures

Outcome Measure
Measure Description
Time Frame
Spatiotemporal Gait Characteristic (Cadence)
Time Frame: D1, D5
Gait quality was quantified by spatiotemporal gait characteristics (cadence [strides/min], stride length [cm] and step length [cm] of the weaker and stronger limbs) collected via instrumented walkway (GAITRite, CIR Systems Inc., NJ, USA) as participants completed three, 10-Meter Walk Test trials at each time point. Cadence for each walk trial was computed using the GAITRite system, and the average cadence across three walks was used in the analyses. Results are reported for data obtained at baseline Day-1 (D1) and at follow-up on Day-5, 24-hours post-intervention.
D1, D5
Spatiotemporal Gait Characteristic (Stride Length - Weaker Limb)
Time Frame: D1, D5
Gait quality was quantified by spatiotemporal gait characteristics (cadence [strides/min], stride length [cm] and step length [cm] of the weaker and stronger limbs) collected via instrumented walkway (GAITRite, CIR Systems Inc., NJ, USA) as participants completed three, 10-Meter Walk Test trials at each time point. Average stride length of the weaker limb for each walk trial was computed from data obtained from the GAITRite system, and the average stride length across three walks was used in the analyses. Results are reported for data obtained at baseline Day-1 (D1) and at follow-up on Day-5, 24-hours post-intervention.
D1, D5
Spatiotemporal Gait Characteristic (Stride Length - Stronger Limb)
Time Frame: D1, D5
Gait quality was quantified by spatiotemporal gait characteristics (cadence [strides/min], stride length [cm] and step length [cm] of the weaker and stronger limbs) collected via instrumented walkway (GAITRite, CIR Systems Inc., NJ, USA) as participants completed three, 10-Meter Walk Test trials at each time point. Average stride length of the stronger limb for each walk trial was computed from data obtained from the GAITRite system, and the average stride length across three walks was used in the analyses. Results are reported for data obtained at baseline Day-1 (D1) and at follow-up on Day-5, 24-hours post-intervention.
D1, D5
Spatiotemporal Gait Characteristic (Step Length Symmetry - Symmetry Index)
Time Frame: D1, D5
Step length [cm] of the weaker and stronger limbs were collected via instrumented walkway (GAITRite, CIR Systems Inc., NJ, USA) as participants completed three, 10-Meter Walk Test trials at each time point. Average step length of each lower limb for each walk trial was computed from data obtained from the GAITRite system. Lower limbs were classified as stronger or weaker according to manual muscle test scores collected at baseline (D1). The average step length for the stronger and weaker limbs was used to calculate the step symmetry index (SI) using the following formula: SI = ((SLs - SLw)/0.5(SLs + SLw)) x 100; where SLs = stronger limb stride length and SLw = weaker limb stride length. Final values are reported as the absolute % of the ratio difference in step length between the stronger and weaker limbs. A SI value of 0% indicates perfect interlimb step symmetry. Higher SI values indicate greater interlimb step length asymmetry.
D1, D5
Maximal Isometric Dorsiflexor Strength
Time Frame: D1, D5
Ankle dorsiflexion (tibialis anterior) strength was measured with the subject seated and with the test foot strapped to a handheld dynamometer. An ankle dorsiflexion test was selected based on evidence indicating that the tibialis anterior is under the greatest corticospinal control. Maximum dorsiflexion force was calculated based on the highest force measured over three attempts. Results are reported for data obtained at baseline Day-1 (D1) and at follow-up on Day-5, 24-hours post-intervention.
D1, D5
Berg Balance Scale
Time Frame: D1, D5
Balance was measured using the Berg Balance Scale (BBS), which has been found to be valid for use in persons with SCI. The BBS total score was calculated for each participant at each time point, and the median score for each group was calculated. The total range of scores for the BBS equals 0-56, with higher scores from baseline indicating greater balance performance and lower scores from baseline indicating worsened balance performance. Data reported were obtained at baseline Day-1 (D1) and at follow-up on Day-5, 24-hours post-intervention.
D1, D5
Falls Efficacy Scale-International Version (FES-I)
Time Frame: D1, D5
The fear of falling may be a major concern for persons with mobility impairments and may limit one's confidence or ability to perform activities of daily living. Fear of falling may also limit an individual's performance of specific overground motor tasks irrespective of functional ability to perform that task. Therefore, the fear of falling was an important factor to consider relative to the mobility interventions employed in the present study. The FES-I total score was calculated for each participant at each time point, and the median for each group was recorded. The total range of scores possible for the FES-I is equal to 16-64, with lower total scores indicating decreased fear of falling. Data reported were obtained at baseline Day-1 (D1) and at follow-up on Day-5, 24-hours post-intervention.
D1, D5
Spinal Cord Assessment Tool for Spastic Reflexes
Time Frame: D1, D5
The Spinal Cord Assessment Tool for Spastic Reflexes (SCATS) was used to assess the impact of motor skill training + sham stimulation and motor training + tDCS on spasticity. SCATS is well correlated with electrophysiological measures of spasticity and is better correlated with self-reported measures of spasm frequency than the Ashworth test. Total SCATS scores for each limb were summed and median values were obtained for each group. The total range of scores possible for the SCATS is 0-18, with a total score of 0 indicating no lower limb spasticity and higher total scores indicating greater spasticity severity. Data reported were obtained at baseline Day-1 (D1) and at follow-up on Day-5, 24-hours post-intervention.
D1, D5
Modified 5-Times Sit-to-Stand
Time Frame: D1, D5
The modified 5-times sit-to-stand test was used as a measure of functional lower extremity strength. In this test, the participant was seated on a mat table with height adjusted to 80% of lower extremity length. The time required to complete 5 repetitions of standing up and sitting down (without using the upper extremities for assistance) was recorded. The average time to complete the test was calculated at each time point for each group. Lower sit-to-stand times indicate greater functional lower extremity strength. Results are reported for data obtained at baseline Day-1 (D1) and at follow-up on Day-5, 24-hours post-intervention.
D1, D5
Maximal Isometric Quadriceps Strength
Time Frame: D1, D5
Knee extensor (quadriceps) strength was measured with participants seated, with the test leg strapped to a handheld dynamometer. Prior studies have shown that a single session of tDCS improves quadriceps strength in persons with stroke. Maximum knee extensor force was analyzed based on the maximum force produced over three attempts. Results are reported for data obtained at baseline Day-1 (D1) and at follow-up on Day-5, 24-hours post-intervention.
D1, D5
2 Minute Walk Test
Time Frame: D1, D5
Functional walking capacity was measured based on 2-minute walk test distance. The use of the 2-minute rather than the 6-minute walk test allowed us to include individuals whose impairments result in inability to walk for 6 minutes. Total distance walked in 2-minutes was recorded for each participant at each time point, and the average distance was calculated for each group. Results are reported for data obtained at baseline Day-1 (D1) and at follow-up on Day-5, 24-hours post-intervention.
D1, D5

Collaborators and Investigators

This is where you will find people and organizations involved with this study.

Sponsor

Shepherd Center, Atlanta GA

Collaborators

National Institute on Disability, Independent Living, and Rehabilitation Research

Publications and helpful links

The person responsible for entering information about the study voluntarily provides these publications. These may be about anything related to the study.

General Publications

Study record dates

These dates track the progress of study record and summary results submissions to ClinicalTrials.gov. Study records and reported results are reviewed by the National Library of Medicine (NLM) to make sure they meet specific quality control standards before being posted on the public website.

Study Major Dates

Study Start (Actual)

March 1, 2017

Primary Completion (Actual)

March 1, 2020

Study Completion (Actual)

July 1, 2021

Study Registration Dates

First Submitted

July 13, 2017

First Submitted That Met QC Criteria

July 28, 2017

First Posted (Actual)

August 2, 2017

Study Record Updates

Last Update Posted (Actual)

January 12, 2022

Last Update Submitted That Met QC Criteria

December 29, 2021

Last Verified

December 1, 2021

More Information

Terms related to this study

Additional Relevant MeSH Terms

Other Study ID Numbers

  • SCIMS1-703

Drug and device information, study documents

Studies a U.S. FDA-regulated drug product

No

Studies a U.S. FDA-regulated device product

Yes

product manufactured in and exported from the U.S.

No

This information was retrieved directly from the website clinicaltrials.gov without any changes. If you have any requests to change, remove or update your study details, please contact register@clinicaltrials.gov. As soon as a change is implemented on clinicaltrials.gov, this will be updated automatically on our website as well.

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