Arm and Leg Cycling for Accelerated Recovery From SCI

N/AActive Not RecruitingNCT05619146

Shirley Ryan AbilityLab5 enrolled

Overview

The purpose of this study is to examine the ability of simultaneous motorized upper and lower extremity cycling training to regulate spinal movement patterns in order to potentially restore functional abilities (i.e., walking) in individuals with an incomplete spinal cord injury. The researchers hypothesize there will be improved walking function following motorized cycling.

Spinal cord injury (SCI) occurs at an annual rate of 50-60 per million in North America. Paralysis is also accompanied by drastic changes in independence and quality of life. SCI occurs mostly among younger individuals, half in people 16-30 years of age. Two-thirds of all SCIs are incomplete (iSCI), with some preserved neural connections relaying information to and from the brain. People with iSCI benefit most from improvements in walking. In addition to increasing independence, walking helps persons with iSCI remain active, with a variety of beneficial health-related outcomes. Therapy that can significantly increase sensorimotor function to these individuals living with iSCI for multiple decades would be hugely significant. Currently, the most common strategies for restoring walking after an iSCI are manually intensive, including over ground walking with weight and balance support provided by multiple therapists, or with the use of expensive robotic support with controversial outcomes. Thus, the overarching goal of this proposal is to investigate if a non-specific gait rehabilitation paradigm based on motor-assisted arms and legs cycling in AIS C and D iSCI individuals generalizes to improvements in walking that outperform conventional gait specific training (Specific Aim 1). The researchers will also investigate biomechanical and motor coordination changes and adaptations tied to these functional improvements (Specific Aim 2), and the neural mechanisms that explain functional improvements and their retention over time (Specific Aim 3). Specifically, in Specific Aim 1 the researchers will investigate the clinically-relevant gait improvements afforded by the cycling intervention. In Specific Aim 2 the researchers will focus on studying the detailed biomechanical basis for the gait improvements. In Specific Aim 3 the researchers will investigate the neuroplastic mechanisms underlying the gait improvements. For these Aims, the researchers will measure the walking gains with a battery of standard clinical tests focused on motor function, sensation, balance and spasticity (Specific Aim 1). The researchers will use motion tracking, force plates, and EMG measurement to monitor the kinematics and kinetics of gait, the neuromuscular coordination, and oxygen consumption as a measure of these energetics of walking (Specific Aim 2). In addition, the researchers will conduct a battery of physiological tests at 3-week intervals intended to detect changes in the strength of descending and ascending spinal pathways (Specific Aim 3).

Study Type

INTERVENTIONAL

Allocation

Purpose

BASIC_SCIENCE

Masking

NONE

Enrollment

Conditions

Spinal Cord Injuries

Interventions

Motor-assisted arms and legs cyclingDEVICE

The participants will complete 60min of active cycling training paradigm, 5 times a week, for 12 weeks. The cycling ergometer will be used to provide motorized assistance during simultaneous arms and legs cycling to the participant while they are seated.

Eligibility

Sex: ALLMin age: 18 YearsMax age: 75 Years

Medical Language ↔ Plain English

Inclusion Criteria: * Traumatic SCI T11 and above (upper motorneuron lesion) * Incomplete paraplegia or tetraplegia (Classified as AIS C or D) * Age range 18-75 years old, inclusive * At least 1 year post- injury * Independent ambulator (with normal assistive devices or bracing) for at least 10 meters (30 feet) * Walking speed \<0.8 m/s (2.62 ft/s) (or per researcher discretion) * Bilateral arm strength to arm cycle at least 15 minutes without assistance (or per researcher discretion) Exclusion Criteria: * Traumatic SCI T12 and below (or lacking upper motorneuron injury) * Complete paraplegia or tetraplegia (classified as AIS A) * AIS B incomplete paraplegia or tetraplegia * Presence of progressive neurologic disease * Unable to give informed consent to participate in the study * Significant other disease (ex: cardiological or heart disease, renal, hepatic, malignant tumors, mental or psychiatric disorders) that would prevent participants from fully engaging in study procedures * MRI contraindications: * Cardiac pacemaker or pacemaker wires; neurostimulators; implanted pumps * Metal in the body (rods, plates, screws, shrapnel, dentures, metal IUD, etc) * Surgical clips in the head or previous neurosurgery * Cochlear implants * Prosthetic heart valves * Claustrophobia * Tremor * TMS contraindications * Epilepsy or any other type of seizure history * Medications that increase the risk of seizures * Non-prescribed drug or marijuana use * Depression, antidepressant medications, or antipsychotic medications * Pregnancy * Prisoners

Locations (1)

Shirley Ryan AbilityLab

Chicago, Illinois, United States

Outcomes

Primary Outcomes

Change in 10-meter walking test (10MWT)

The 10-meter walking test (10MWT) is a physical function test measuring the total time to ambulate 10 meters in order to calculate walking speed in meters per second. A shorter time indicates a better walking speed.