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Clinical Trial Summary

Spinal cord injury (SCI) results in damage to the descending neural pathways and leads to the immediate dysfunction of multiple physiological systems below the level of injury. Like adults, children with SCI suffer from neuromuscular paralysis which results in the inability to sit, stand, and walk. Current therapeutic interventions largely aim to compensate for paralysis to achieve mobility based on the assumption that damage to the central nervous system is permanent and irreversible, e.g. use of braces, standers, and wheelchairs. The objective of this proposal is to investigate the use of transcutaneous spinal stimulation (TcStim) to enable stepping in children with chronic SCI. The investigators will recruit 8 participants, ages 4-12 years with chronic, acquired SCI, T10 and above and non-ambulatory. The aims of this proposal are to 1) investigate the mechanisms of locomotor-specific regulation in the spinal neural circuitry of children with acquired SCI using single vs. multi-site TcStim, 2) investigate the capacity of the lumbosacral spinal cord for integration of task-specific input (e.g. load, speed) during facilitated stepping with and without TcStim, and 3) investigate the training effects of TcStim on the ability to step. Outcomes will provide a necessary initial step in the translation of scientific findings for neuromodulation from adults with SCI to children.


Clinical Trial Description

Like in adults, children with spinal cord injury (SCI) in children suffer from neuromuscular paralysis which results in the inability to sit, stand, and walk. Current therapeutic interventions, e.g. leg braces, wheelchairs, largely aim to compensate for paralysis based on the assumption that damage to the central nervous system is permanent and irreversible.The discovery of the "intelligent" spinal cord, known as the central pattern generator (CPG), has demonstrated that complex neuronal networks are capable of generating rhythmic and coordinated motor patterns and has set forth a major paradigm shift in the investigators expectation of the possibility for recovery even with severe SCI. Studies have demonstrated, first, that after SCI, the CPG can be "accessed", reactivated, and retrained via sensory feedback arising from the muscles and joints during activity-based locomotor training (AB-LT). Second, application of epidural and transcutaneous stimulation (TcStim) to the spinal cord below the level of lesion can augment the neuromuscular capacity for voluntary movement, standing and stepping in adults with chronic motor complete SCI. While neural mechanisms for stepping regulation have been demonstrated in adults testing single vs. multi-site stimulation, this inherent capacity must be examined in children with SCI. Similarly, the addition of stimulation during AB-LT in adults with motor complete SCI has resulted in remarkable recovery of over ground walking. The immediate and long-term response of such combined therapeutic exposure and subsequent training has yet to be examined in children. Children with SCI may not only benefit from these novel therapeutic approaches but also demonstrate greater improvements in neuromuscular recovery due to inherent plasticity. The investigators' preliminary work has demonstrated the safety and feasibility of TcStim in children with SCI. Therefore, the specific aims of this proposal are to 1) investigate the spinal mechanisms for regulation of locomotor circuitry in children with SCI using TcStim, 2) assess whether the combination of task-specific AB-LT and TcStim can acutely potentiate lower limb muscle activity during facilitated stepping, and 3) assess training effects of TcStim combined with AB-LT to promote stepping capacity in non-ambulatory children with SCI. For this pilot study 8 participants, ages 4-12 years with chronic, acquired SCI, T10 and above and non-ambulatory will be recruited. For Aim 1, n=8, TcStim will be used to stimulate a single or multi site spinal levels to produce stepping/locomotor activity in lower limbs. Knee, hip, ankle kinematics and electromyography (EMG) of the lower limb muscles in response to stimulation will be recorded during the experiments. The investigators will determine the stimulation parameters that produce rhythmic movements with the greatest increase in lower limb joint excursions as well as EMG amplitude. For Aim 2, n=8, TcStim will be delivered while participants attempt to take a step overground and while stepping on a computerized treadmill with an overhead partial body weight support (BWS) system. The participants will be stepped at age-appropriate speeds and BWS optimizing the stepping kinematics. The speed and the amount of body weight support provided during the assessment as well as full body kinematics and EMG signals from trunk and lower limb muscles will be recorded during facilitated stepping with and without TcStim. For Aim 3, n=6, participants will receive 60 sessions of AB-LT+Tcstim. Ability to initiate and complete a step overground with and without stimulation along with full body kinematics and electromyographic (EMG) signals from trunk and lower limb muscles will be recorded at baseline, 20, 40, and 60 sessions of the combined therapy of AB-LT plus TcStim. ;


Study Design


Related Conditions & MeSH terms


NCT number NCT04077346
Study type Interventional
Source University of Louisville
Contact
Status Enrolling by invitation
Phase N/A
Start date April 12, 2021
Completion date January 2025

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