MC-PP-3: Locomotor and Bladder Function in Individuals With Acute Spinal Cord Injury

Sponsor

University of Louisville (Other)

Overall Status

Recruiting

CT.gov ID

NCT04879862

Collaborator

National Institute of Neurological Disorders and Stroke (NINDS) (NIH)

Enrollment

Location

Arms

47.9

Anticipated Duration (Months)

0.3

Patients Per Site Per Month

Study Details

Study Description

Brief Summary

The loss of movement and walking ability significantly affects quality of life after spinal cord injury. In addition, bladder dysfunction consistently ranks as one of the top disorders affecting quality of life after spinal cord injury. The overall objective of this study is to demonstrate that epidural stimulation may be a method for improving stepping, standing and bladder function in individuals with spinal cord injury. With the use of epidural stimulation, the investigators propose to investigate how well the participant can stand and walk and how well the participant's bladder can store or hold urine as well as void or empty urine. The results of this study may aid in the development of treatments to help individuals with spinal cord injuries that are unable to stand or walk and have impaired bladder function.

Condition or Disease	Intervention/Treatment	Phase
Spinal Cord Injuries	Combination Product: Epidural stimulation + Stand Training Combination Product: Epidural stimulation + Step Training Combination Product: Epidural stimulation + Bladder Capacity Training Combination Product: Epidural stimulation + Bladder Voiding Efficiency Training	N/A

Detailed Description

While the investigators have demonstrated the benefits of scES in chronic SCI with one of the largest series (23 patients to date) the investigators are acutely aware of persistent gaps that need to be filled in order to advance the field of neuromodulation forward. Technological advances to upgrade the stimulator's programming and wireless communication platforms are critically needed in order to integrate multiple training paradigms across multiple systems (i.e. motor and autonomic), as well as take advantage of wireless monitoring technology that could improve the patient experience. The extensive patient self-monitoring, for example regular monitoring of blood pressure during bladder filling cycles, and required manual interaction with the programming device to change parameters for optimal stimulation, remains one of the largest limiting factors in the effective utilization of this technology outside of the laboratory. Without technology components developed specifically for individuals with SCI, treatment effects could be lost due to the burden placed on the individual. Our aim is to develop technology that will interact with currently available systems, to facilitate the implementation and integration of training paradigms for the recovery of locomotion and bladder function in individuals with acute SCI and promote safe long-term use of the technology in the home and community. To this end, this study will provide a flexible communication platform specific for SCI, allow for the evaluation of integrated technology in individuals with high plasticity potential (< 1 year post injury) and allow for the longitudinal evaluation of therapeutic benefits of scES as individuals transition from acute to chronic phase of injury.

Aim 1: To evaluate the use of position based sensors internal to the neurostimulator to modulate stimulation parameters used in the training for motor function recovery following severe SCI.

Aim 2: To identify the scES parameters, using physiological feedback (continuous measures of systolic and diastolic pressure and heart rate), that improve bladder storage and emptying while controlling blood pressure following severe SCI.

Aim 3: To improve device technologies and develop predictive learning algorithms that will allow for the integration of multiple training paradigms used by a single participant.

Study Design

Study Type:

Interventional

Anticipated Enrollment :

16 participants

Allocation:

Non-Randomized

Intervention Model:

Parallel Assignment

Intervention Model Description:

The first 8 participants will be assigned to a group. Once technology is developed the last 8 participants will be randomized to a group.The first 8 participants will be assigned to a group. Once technology is developed the last 8 participants will be randomized to a group.

Masking:

None (Open Label)

Primary Purpose:

Other

Official Title:

Inter-System Closed-Loop Control of Locomotor and Bladder Function in Individuals With Acute Spinal Cord Injury

Actual Study Start Date :

Apr 4, 2022

Anticipated Primary Completion Date :

Apr 1, 2025

Anticipated Study Completion Date :

Apr 1, 2026

Arms and Interventions

Arm	Intervention/Treatment
Experimental: Locomotion Participants will receive 160 locomotor training sessions with epidural stimulation. These sessions may occur once a day (stand and step will alternate days) or twice a day (stand and step on the same day) as recommended by the study physician. Participants will train 5 days per week and each session will last between 1 to 1.5 hours.	Combination Product: Epidural stimulation + Stand Training Participants may use a standing apparatus or a less assistive device such as walker or cane. In case of upper limbs and trunk control insufficient for safely using the standing apparatus, participants will be placed on the treadmill, and a body weight support system. In this case, the level of body weight support will be continuously reduced as the individuals increase their ability to bear weight. A trainer positioned behind the participant will aid in pelvis and trunk stabilization. Trainer(s) positioned at the lower limb will provide manual facilitation for knee extension during standing. Manual facilitation at the trunk-pelvis and at the legs will be used only when needed.Participants will be encouraged to stand for as long as possible throughout the training session, with the goal to stand for 60 minutes with the least amount of assistance. Combination Product: Epidural stimulation + Step Training Participants may be placed on the treadmill in an upright position and suspended in a harness. All trainers are careful to provide manual assistance only when needed. A trainer positioned behind the research participant will aid in pelvis and trunk stabilization, as well as appropriate weight shifting and hip rotation during the step cycle. Trainers positioned at each limb will provide manual assistance to promote knee extension and knee flexion and toe clearance. Research participants will step at various body weight load and speed. Research participants will take a break and rest at any time they feel the need to during the session. If independence is achieved during stepping, some training might be performed overground with appropriate assistive device and manual assistance to maintain participant safety. Participants will be encouraged to step for 60 minutes with the least amount of assistance. Seated or standing resting periods will occur when requested by the individuals
Experimental: Bladder+Locomotion Participants will receive 80 sessions of bladder training alone followed by 80 sessions of locomotor training sessions with epidural stimulation. They will be asked to continue with your bladder training once you start locomotor training. Locomotor Training sessions may occur once a day (stand and step will alternate days) or twice a day (stand and step on the same day) as recommended by the study physician. Participants will train 5 days per week and each session will last between 1 to 1.5 hours.	Combination Product: Epidural stimulation + Stand Training Participants may use a standing apparatus or a less assistive device such as walker or cane. In case of upper limbs and trunk control insufficient for safely using the standing apparatus, participants will be placed on the treadmill, and a body weight support system. In this case, the level of body weight support will be continuously reduced as the individuals increase their ability to bear weight. A trainer positioned behind the participant will aid in pelvis and trunk stabilization. Trainer(s) positioned at the lower limb will provide manual facilitation for knee extension during standing. Manual facilitation at the trunk-pelvis and at the legs will be used only when needed.Participants will be encouraged to stand for as long as possible throughout the training session, with the goal to stand for 60 minutes with the least amount of assistance. Combination Product: Epidural stimulation + Step Training Participants may be placed on the treadmill in an upright position and suspended in a harness. All trainers are careful to provide manual assistance only when needed. A trainer positioned behind the research participant will aid in pelvis and trunk stabilization, as well as appropriate weight shifting and hip rotation during the step cycle. Trainers positioned at each limb will provide manual assistance to promote knee extension and knee flexion and toe clearance. Research participants will step at various body weight load and speed. Research participants will take a break and rest at any time they feel the need to during the session. If independence is achieved during stepping, some training might be performed overground with appropriate assistive device and manual assistance to maintain participant safety. Participants will be encouraged to step for 60 minutes with the least amount of assistance. Seated or standing resting periods will occur when requested by the individuals Combination Product: Epidural stimulation + Bladder Capacity Training We will initially conduct daily training for capacity in a supervised on-site lab setting. Optimal configurations will be used. The storage phase configuration will be used until the time for voiding/catheterization. The training procedure will be repeated for up to 8 hours daily on-site until three consecutive stable days of maintaining a consistent capacity values are achieved and deemed safe. In the home setting, participants will record blood pressure values, voided and residual volumes. Participants will return to the lab the following day for monitoring and testing. If assessments show stable outcomes, participants will be allowed to train at home for 7 consecutive days, prior to returning to the lab for clinical evaluation (urodynamics and questionnaires). On the return visit, if their storage/voiding outcomes remained stable over the 7 days, they will be able to start the home-based training for bladder capacity. Combination Product: Epidural stimulation + Bladder Voiding Efficiency Training We will conduct training for voiding efficiency in a supervised on-site lab setting while the participant continues his/her training for capacity. Voiding without catheterization will be attempted. The training procedure will be repeated for up to 8 hours on-site until three stable days of maintaining a consistent voiding efficiency are achieved and deemed safe. The participant will be sent home for one day to perform the stimulation at home. In the home setting, participants will record blood pressure values, voided and residual volumes. Participants will return to the lab the following day for monitoring and testing. If assessments show stable outcomes, participants will be allowed to train at home for 7 consecutive days, prior to returning to the lab for clinical evaluation and questionnaires. On the return visit, if their storage/voiding outcomes remained stable over the 7 days, they will be able to start the home program integrating bladder training for capacity and voiding

Arm

Intervention/Treatment

Experimental: Locomotion

Participants will receive 160 locomotor training sessions with epidural stimulation. These sessions may occur once a day (stand and step will alternate days) or twice a day (stand and step on the same day) as recommended by the study physician. Participants will train 5 days per week and each session will last between 1 to 1.5 hours.

Combination Product: Epidural stimulation + Stand Training

Participants may use a standing apparatus or a less assistive device such as walker or cane. In case of upper limbs and trunk control insufficient for safely using the standing apparatus, participants will be placed on the treadmill, and a body weight support system. In this case, the level of body weight support will be continuously reduced as the individuals increase their ability to bear weight. A trainer positioned behind the participant will aid in pelvis and trunk stabilization. Trainer(s) positioned at the lower limb will provide manual facilitation for knee extension during standing. Manual facilitation at the trunk-pelvis and at the legs will be used only when needed.Participants will be encouraged to stand for as long as possible throughout the training session, with the goal to stand for 60 minutes with the least amount of assistance.

Combination Product: Epidural stimulation + Step Training

Participants may be placed on the treadmill in an upright position and suspended in a harness. All trainers are careful to provide manual assistance only when needed. A trainer positioned behind the research participant will aid in pelvis and trunk stabilization, as well as appropriate weight shifting and hip rotation during the step cycle. Trainers positioned at each limb will provide manual assistance to promote knee extension and knee flexion and toe clearance. Research participants will step at various body weight load and speed. Research participants will take a break and rest at any time they feel the need to during the session. If independence is achieved during stepping, some training might be performed overground with appropriate assistive device and manual assistance to maintain participant safety. Participants will be encouraged to step for 60 minutes with the least amount of assistance. Seated or standing resting periods will occur when requested by the individuals

Experimental: Bladder+Locomotion

Participants will receive 80 sessions of bladder training alone followed by 80 sessions of locomotor training sessions with epidural stimulation. They will be asked to continue with your bladder training once you start locomotor training. Locomotor Training sessions may occur once a day (stand and step will alternate days) or twice a day (stand and step on the same day) as recommended by the study physician. Participants will train 5 days per week and each session will last between 1 to 1.5 hours.

Combination Product: Epidural stimulation + Stand Training

Combination Product: Epidural stimulation + Step Training

Combination Product: Epidural stimulation + Bladder Capacity Training

We will initially conduct daily training for capacity in a supervised on-site lab setting. Optimal configurations will be used. The storage phase configuration will be used until the time for voiding/catheterization. The training procedure will be repeated for up to 8 hours daily on-site until three consecutive stable days of maintaining a consistent capacity values are achieved and deemed safe. In the home setting, participants will record blood pressure values, voided and residual volumes. Participants will return to the lab the following day for monitoring and testing. If assessments show stable outcomes, participants will be allowed to train at home for 7 consecutive days, prior to returning to the lab for clinical evaluation (urodynamics and questionnaires). On the return visit, if their storage/voiding outcomes remained stable over the 7 days, they will be able to start the home-based training for bladder capacity.

Combination Product: Epidural stimulation + Bladder Voiding Efficiency Training

We will conduct training for voiding efficiency in a supervised on-site lab setting while the participant continues his/her training for capacity. Voiding without catheterization will be attempted. The training procedure will be repeated for up to 8 hours on-site until three stable days of maintaining a consistent voiding efficiency are achieved and deemed safe. The participant will be sent home for one day to perform the stimulation at home. In the home setting, participants will record blood pressure values, voided and residual volumes. Participants will return to the lab the following day for monitoring and testing. If assessments show stable outcomes, participants will be allowed to train at home for 7 consecutive days, prior to returning to the lab for clinical evaluation and questionnaires. On the return visit, if their storage/voiding outcomes remained stable over the 7 days, they will be able to start the home program integrating bladder training for capacity and voiding

Outcome Measures

Primary Outcome Measures

Ambulation [80 sessions, approximately 3 months]
Ability to take independent steps
Bladder storage/voiding [80 sessions, approximately 3 months]
voiding and/or residual volume (ml)

Eligibility Criteria

Criteria

Ages Eligible for Study:

18 Years to 65 Years

Sexes Eligible for Study:

All

Accepts Healthy Volunteers:

Inclusion Criteria:

At least 18 years of age
non-progressive SCI
stable medical condition
Inability to stand and step independently
unable to voluntarily move all individual joints of the legs
no current anti-spasticity medication regimen
must not have received botox injections in the prior six months
Bladder dysfunction as a result of SCI
SCI between T1 and T10
no greater than 1 year post injury

Exclusion Criteria:

ventilator dependent
untreated painful musculoskeletal dysfunction, fracture or pressure sore
untreated psychiatric disorder or ongoing drug abuse
cardiovascular, respiratory, bladder, or renal disease unrelated to SCI
pregnant at the time of enrollment or planning to become pregnant during the time course of the study.

Contacts and Locations

Locations

	Site	City	State	Country	Postal Code
1	Kentucky Spinal Cord Injury Center - University of Louisville	Louisville	Kentucky	United States	40202

Sponsors and Collaborators

University of Louisville
National Institute of Neurological Disorders and Stroke (NINDS)

Investigators

None specified.

Study Documents (Full-Text)

None provided.

More Information

Publications

None provided.

Responsible Party:

Claudia Alejandra Angeli, Assistant Professor, University of Louisville

ClinicalTrials.gov Identifier:

NCT04879862

Other Study ID Numbers:

17-1024 MC-PP-3
1UH3NS116238

First Posted:

May 10, 2021

Last Update Posted:

Aug 15, 2022

Last Verified:

May 1, 2022

Individual Participant Data (IPD) Sharing Statement:

Yes

Plan to Share IPD:

Yes

Studies a U.S. FDA-regulated Drug Product:

Studies a U.S. FDA-regulated Device Product:

Yes

Keywords provided by Claudia Alejandra Angeli, Assistant Professor, University of Louisville

locomotion

epidural stimulation

bladder function

Additional relevant MeSH terms:

Spinal Cord Injuries

Wounds and Injuries

Study Results

No Results Posted as of Aug 15, 2022