Epidural Stimulation and Resistance Training After SCI

NCT ID: NCT04782947

Last Updated: 2026-01-02

Basic Information

• Recruitment Status: RECRUITING
• Clinical Phase: PHASE2/PHASE3
• Total Enrollment: 20 participants
• Study Classification: INTERVENTIONAL
• Study Start Date: 2021-02-03
• Study Completion Date: 2026-05-31

Brief Summary

Spinal cord injury (SCI) is a devastating health problem for tens of thousands of military personnel, Veterans and civilians annually. Many persons with SCI must use a wheelchair for their entire life. A new scientific breakthrough called "lumbosacral epidural stimulation" or "ES" can help people with SCI to stand, step and even walk again. At present, for ES to work, people must train with a specialized treadmill that requires several other qualified personnel to train them, which makes it hard for many people with SCI to benefit from this technology. On the other hand, there are wearable "robot suits" that can be used with ES, which would make it easier to use. Our research team has already used this "ES Robot Suit" for 3 months in one person with tetraplegia and showed remarkable improvements in motor control. Furthermore, the investigators are aiming to enhance overground motor recovery by adding 6 months of resistance training (RT). The addition of RT will likely to enhance muscle quality as indicated by increasing lean mass, peak torque and increase sensory flux to the central nervous system. Other additional benefits may include improvement in cardiovascular profile and bladder functions. The specific objectives of the current proposal are to compare the impact of EAW+ES following improving lower extremity muscle quality compared to those who will only undergo EAW+ ES without conducting RT on motor recovery, cardio-metabolic health and bladder control in persons with complete SCI. At the conclusion of the current proposal, the work will be readily available for translation into clinical setting to serve Veterans and Civilian survivors with SCI.

Detailed Description

Spinal cord epidural stimulation (ES) is a neuromodulation modality that can facilitate standing, stepping and walking with and without assistive devices in individuals with SCI, however; ES must be accompanied with locomotor training that at present requires a labor-intensive commitment from multiple well-trained personnel using specialized treadmill equipment. Exoskeletal assisted walking (EAW) on the other hand can be safely and efficiently used for ambulation after SCI in combination with ES without the use of other specialized equipment and multiple personnel. The investigators demonstrated that 12-weeks of EAW+ ES resulted in volitional stepping, with improved temporal and rhythmic electromyography (EMG) patterns and speed and with a reduction in EAW assistance to 35%. Unfortunately, EAW+ES does not appear to effectively restore lean mass below the level of injury, which impacts proprioceptive feedback to the spinal locomotor centers. Thus, in addition the investigators have demonstrated that 16-weeks of electrically-evoked resistance training (RT) resulted in robust muscle hypertrophy of the paralyzed knee and hip extensor muscle groups. Therefore, this proposal leverages these research programs by addressing two major gaps; 1) the use of combination EAW+ES as an activity-dependent plasticity tool for restoration of over ground locomotion and 2) enhancement of muscle quality using RT to provide afferent leverage for neuromodulation techniques.

Specific Aims:

1. To determine the impact of 12 months of EAW+ES+RT on 10-meter over ground walking-speed, number of EAW unassisted steps and EMG patterning compared to 12-months of EAW+ delayed-ES +no-RT (control group).

2. To determine the impact of 12-months of EAW+ES+RT on blood pressure, total and regional body composition, oxygen uptake as well as anabolic and inflammatory biomarkers compared to the control group.

3. To determine the impact of 12-months of EAW+ES+RT on parameters of bladder filling and emptying as measured by urodynamic studies compared to the control group.

Conditions

Spinal Cord Injuries

Study Design

• Allocation Method: RANDOMIZED
• Intervention Model: PARALLEL
• Primary Study Purpose: HEALTH_SERVICES_RESEARCH
• Blinding Strategy: NONE

Study Groups

EAW+ES+RT

The exoskeletal assisted walking with epidural simulation and resistance training (EAW+ES+RT) group will undergo 6 months of supervised EAW +ES (3X per week) followed by additional 6 months of EAW+ES (3X per week) and progressive RT twice weekly (2X per week). In the EAW+ES+RT group, RT will be administered for 12 weeks using an open kinematic chain approach of applying surface NMES and ankle weights followed by 12 weeks twice weekly of gradually using the implanted ES to perform sit-to-stand approach (i.e. using their body weights to load the exercising muscles in a closed kinematic fashion).

Group Type: EXPERIMENTAL

Exoskeletal assisted walking

Intervention Type: DEVICE

Exoskeletal assisted walking includes the use of robotic suit to train participant to walk with different level of assistance.

Epidural Stimulation

Intervention Type: DEVICE

lumbo-sacral epidural simulation at the beginning of the study.

Resistance Training

Intervention Type: PROCEDURE

Using two forms of resistance training to increase muscle size. The first form includes seated leg extension exercise for 12 weeks followed by a second form that includes sit-to-stand exercise using participant's body weight.

EAW+ delayed-ES +no-RT

The control exoskeletal assisted walking with delayed epidural simulation and without resistance training (EAW+ delayed-ES +no-RT) group will enroll in 6 months of EAW without ES (3X per week) and then this will be followed by additional 6 months (3x per week) of EAW+ES (i.e., delayed entry approach) without conducting RT and will perform either passive movement of passive stretching (2X per week).

Group Type: EXPERIMENTAL

Exoskeletal assisted walking

Intervention Type: DEVICE

Exoskeletal assisted walking includes the use of robotic suit to train participant to walk with different level of assistance.

delayed-ES

Intervention Type: DEVICE

lumbo-sacral epidural simulation starting 6 months after the beginning of the study.

no-Resistance training

Intervention Type: PROCEDURE

The participants will perform 24 weeks of passive movement or passive stretching from seated position.

Interventions

Exoskeletal assisted walking

Exoskeletal assisted walking includes the use of robotic suit to train participant to walk with different level of assistance.

Intervention Type: DEVICE

Epidural Stimulation

lumbo-sacral epidural simulation at the beginning of the study.

Intervention Type: DEVICE

Resistance Training

Using two forms of resistance training to increase muscle size. The first form includes seated leg extension exercise for 12 weeks followed by a second form that includes sit-to-stand exercise using participant's body weight.

Intervention Type: PROCEDURE

delayed-ES

lumbo-sacral epidural simulation starting 6 months after the beginning of the study.

Intervention Type: DEVICE

no-Resistance training

The participants will perform 24 weeks of passive movement or passive stretching from seated position.

Intervention Type: PROCEDURE

Other Intervention Names

EAW; ES; RT; no-RT

Eligibility Criteria

Inclusion Criteria

1. All participants will be between 18-60 years old, male or female, with traumatic motor complete SCI and level of injury of T10 and above, as determined by EMG testing and International Standards for Neurological Classification of SCI (ISNCSCI) exam.

2. Participants' knee extensors must respond to standard surface NMES procedures (frequency: 30 Hz; pulse duration:450 μs and amplitude of the current:200 mA) to ensure intact neural circuitry below the level of SCI.

3. All participants will undergo ISNCSCI examination for neurological level and function and only those with American Spinal Injury Classification (AIS A and B; i.e. motor deficit below the level of injury) will be included.

Exclusion Criteria

1. Diagnosis of neurological injury other than SCI, including cauda equina or distal conus injuries resulting in limb or sacral areflexia;

2. Unhealed fracture in either lower or upper extremities;

3. Severe scoliosis, hip knee range of motion (ROM) or flexion knee contractures preventing positioning in an exoskeleton or plantarflexion contracture greater than 20 degrees.

4. Untreated or uncontrolled hypertension defined as high resting blood pressure greater than 140/90 mmHg and severe orthostatic hypotension (drop greater than 20 mmHg compared to resting supine blood pressure) or incapable to maintain a sitting or EAW standing posture;

5. Other medical conditions including cardiovascular disease, uncontrolled type II DM, uncontrolled hypertension, and those on insulin, pressures sores stage 3 or greater, or symptomatic urinary tract infection;

6. Unable to fit in the device for any reason;

7. Taking anti-coagulants or anti-platelet agents, including aspirin if unable to be off this medication for medical reasons;

8. Implanted pacemakers and/or implanted defibrillator devices;

9. DXA T-Score less than -2.5. Scans done will include total body, dual hips and knees. Total hip BMD T-scores < -3.5 and knee BMD scores of less than 0.6 g/cm2 68-71;

10. Functional upper and lower extremity ROM, strength, spasticity and skin integrity will also have assessed prior to enrollment in the program. The Modified Ashworth Scale will be used to ensure safety of the participants prior to engagement in the rehabilitation program. Participants with severe spasticity or limited ROM will be excluded from the trial. This is based on the Ekso® manufacturer's recommendations72;

11. Untreatable severe spasticity judged to be contraindicated by the site Physician;

12. Pressure ulcer of the trunk, pelvic area, or lower extremities of grade 3 or more;

13. Psychopathology documentation in the medical record or history that may conflict with study objectives;

14. Any condition that, in the judgment of the principal investigator or medical provider, precludes safe participation in the study and/or increases the risk of infection.

• Minimum Eligible Age: 18 Years
• Maximum Eligible Age: 60 Years
• Eligible Sex: ALL
• Accepts Healthy Volunteers: No

Sponsors

Central Virginia VA Health Care System

UNKNOWN

Sponsor Role: collaborator

United States Department of Defense

FED

Sponsor Role: lead

Responsible Party

Ashraf S. Gorgey

Director of SCI Research

Responsibility Role: PRINCIPAL_INVESTIGATOR

Principal Investigators

Ashraf S Gorgey, PhD

Role: PRINCIPAL_INVESTIGATOR

Virginia Commonwealth University

Locations

Hunter Holmes McGuire VA Medical Center

Richmond, Virginia, United States

Site Status: RECRUITING

Countries

United States

Central Contacts

Ashraf S Gorgey, PhD

Role: CONTACT

ashraf.gorgey@va.gov

804675500 ext. 3386

Robert Trainer, MD

Role: CONTACT

robert.trainer@va.gov

8046755110

Facility Contacts

Ashraf S Gorgey, MPT,PhD, FACSM

Role: primary

ashraf.gorgey@va.gov

804-675-5000 ext. 3386

Lance Goetz, MD

Role: backup

lance.Goetz@va.gov

804-675-5000 ext. 2475

References

Gorgey AS, Goldsmith J, Alazzam A, Trainer R. Effects of percutaneously-implanted epidural stimulation on cardiovascular autonomic function and spasticity after complete spinal cord injury: A case report. Front Neurosci. 2023 Feb 16;17:1112853. doi: 10.3389/fnins.2023.1112853. eCollection 2023.

Reference Type: DERIVED

PMID: 36875669 (View on PubMed)

Other Identifiers

SC190107

Identifier Type: -

Identifier Source: org_study_id