Clinical Trials Directory

Trials / Unknown

UnknownNCT02309983

Activity Dependent Rehabilitation Model to Improve Bone and Muscle Outcomes

Activity Dependent Rehabilitation Model In Incomplete Spinal Cord Injury: Neuromuscular and Skeletal Changes

Status
Unknown
Phase
N/A
Study type
Interventional
Enrollment
21 (estimated)
Sponsor
Kessler Foundation · Academic / Other
Sex
All
Age
18 Years – 58 Years
Healthy volunteers
Not accepted

Summary

For many after spinal cord injury (SCI) there is immobilization, muscle atrophy, bone loss, fracture risk during transferring (or falls), and the risk of secondary complications, and increase in attendance care and cost. It is important to develop multi dimensional rehabilitation strategies for people after SCI to enhance functional recovery towards walking, and enhance an increase in muscle and bone to potentially prepare the injured nervous system in the event of a cure. Locomotor training (Stand retraining and step re training) an activity-based rehabilitative approach generates muscle activity and provides weight bearing and joint contact kinetics, even in individuals who are unable to stand or step independently. Cross-sectional animal and human SCI studies have demonstrated that locomotor training (LT) (stand retraining and step retraining using body weight support treadmill training) has improved the capacity to stand independently and walk at faster speeds. Neuromuscular stimulation (NMS) or electrical stimulation (ES) training is a rehabilitative approach that generates muscle activity, alternating leg extension and flexion even in individuals who are unable to stand or step independently. NMS studies for individuals after SCI have shown improvements in bone density and muscle strength after cycling and resistance training. The main purpose of this study is to address whether stand retraining and NMS compared to stand retraining alone or NMS alone will increase neural and musculoskeletal gains and provide a greater functional recovery towards independent standing. This project will be completed at two sites: Kessler Foundation Research Center (the grant PI site) and Frazier Rehabilitation Institute, University of Louisville, Kentucky.

Detailed description

There will be three groups in this study. Each group will receive 1.25 hr of intervention per session, for a total of 60 sessions (3 - 4 x week, 15- 20 weeks). Participants in Group 1 will receive 1hr of ES while lying down in the chair followed by 15 min of overground training. Group 2 will receive standing retraining using BWS followed by 15 minutes of overground training. Group 3 will receive standing retraining with ES, followed by 15 min of overground training. Participants will complete the study after 20 weeks of training. The participant will be able to miss 8 consecutive training sessions before being dropped from the study. PRIMARY AIMS Specific Aim 1: To examine the effectiveness of standing retraining with ES for alterations in muscle volume (MV) and BMD in the lower limb: Hypothesis 1.1. SRT with ES compared to SRT alone or ES alone will increase muscle volume(MV) and muscle cross sectional area(MCSA) and potential muscle torque(PMT) at hip, knee and ankle joints (compared to baseline). Hypothesis 1.2. SRT with ES compared to SRT alone or ES alone will increase absolute BMD in the lower limbs(compared to baseline) Hypothesis 1.3. SRT with ES compared to SRT alone or ES alone will increase markers for bone formation and a decrease in markers for bone resorption commensurate with the observed increase in BMD (compared to baseline) SECONDARY AIMS Specific Aim 2 To examine the effectiveness of standing with ES for improvements in functional outcome and alterations in EMG in lower limb. Hypothesis 2.1. SRT with ES compared with SRT alone or ES alone will improve functional performance(as measured by standing time on the treadmill and overground) Hypothesis 2.2. SRT with ES compared to SRT alone and ES alone will experience a greater increase in the electromyography (EMG) amplitude for all leg muscles examined (compared to baseline) during standing. Hypothesis 2.3. LT with ES compared to SRT alone and ES alone will experience significantly greater cardiac output (CO) and/or stroke volume SV (compared to baseline). .

Conditions

Interventions

TypeNameDescription
OTHERElectrical StimulationElectrical stimulation is a rehabilitative approach that generates muscle activity by alternating leg extension and flexion even in individuals who are unable to stand or step independently. Electrical stimulation will be applied to multiple muscles of the lower limb.
OTHERStand Retraining with Body Weight Support (BWS)Locomotor training consists of (step training and stand retraining) on the treadmill, over ground training, and community ambulation. BWS will be given when a subject can not maintain his/her body weight while executing limb locomotion.

Timeline

Start date
2006-12-01
Primary completion
2017-12-01
Completion
2018-12-01
First posted
2014-12-05
Last updated
2017-03-28

Locations

1 site across 1 country: United States

Source: ClinicalTrials.gov record NCT02309983. Inclusion in this directory is not an endorsement.