Motor & Autonomic Concomitant Health Improvements With Neuromodulation & Exercise Training: An SCI RCT (MACHINE)

Spinal cord injury (SCI) is a severe disorder resulting in not only in motor deficits (i.e. paralysis) but also a myriad of autonomic dysfunctions (i.e. urinary tract/bowel/sexual impairments and blood pressure instability). The restoration of motor as well as autonomic functions remains among the top priorities for individuals with SCI. Individuals with SCI develop cardiovascular (CV) disease at a younger age and at greater rates than individuals without injury. Both low levels of physical activity and profound blood pressure (BP) instability, commonly experienced by individuals with injuries at or above the sixth thoracic level, likely explains the heightened risk.

Neurogenic lower urinary tract (LUT) dysfunction impacts over 90% of individuals with SCI. This dysfunction leads to vesico-ureteral-renal reflux, urinary tract infections, bladder stone formation, and impaired renal function - ultimately leading to significant disease burden and poorer health-related quality of life. Bowel function is also significantly compromised after SCI, presenting as constipation, impaired colonic motility and loss of volitional control resulting in episodes of fecal incontinence - predisposing an individual to increased risk of long-term complications. Over 60% report that bowel dysfunction adversely impacts quality of life. Lastly, severe impairments in sexual function following SCI include erectile dysfunction, ejaculatory disorders/ anejaculation in men and reduced vaginal lubrication in women, with both sexes experiencing orgasmic difficulties or anorgasmia as well as alterations in sexual drive and sexual satisfaction.

Activity-based therapy (ABT) is a common and an effective means to improve walking function post-injury and can facilitate general health maintenance; this includes an enhancement of neural BP control, as well as bladder, bowel, and sexual functions.

Neuromodulation, potentially activating isolated spinal cord neuronal circuitry, has received significant recognition in recent years as a promising approach to target various neurological dysfunctions. The immense therapeutic potential of epidural spinal cord stimulation demonstrates mitigation of spasticity in individuals with motor-incomplete injuries. Moreover, this stimulation improved ability to generate rhythmic, locomotor-like limb movements, and restored voluntary control of functional movements in individuals with motor-complete injuries. Our past exciting and ground-breaking pilot work highlights the capacity for TSCS to modulate spinal circuits (An Autonomic Neuroprosthesis: Noninvasive Electrical Spinal Cord Stimulation Restores Autonomic Cardiovascular Function in Individuals with Spinal Cord Injury. J Neurotrauma. 2018;35(3):446- 451. doi:10.1089/neu.2017.5082). To administer TSCS, small adhesive electrodes are placed on the skin around the spinal cord and hips. The electrodes are connected to a machine that generates a small electric current. After turning the machine on, the participant may feel a small electric current under the electrodes, though it should not elicit any pain.

Despite literature supporting the benefits of TSCS and ABT, the effects of pairing TSCS with ABT is largely unknown. These therapies are adaptable, non-invasive, and relatively affordable, with the potential to simultaneously benefit both motor and autonomic functions. Randomized controlled trials are needed to better validate these interventions for clinical settings.

Project Rationale:

Motor paralysis and autonomic dysfunctions have been identified as a major priority for recovery by individuals with SCI. Addressing these dysfunctions may ultimately translate to improved health-related quality of life (HRQOL). The use of ABT with non-invasive and adaptable TSCS has the potential to reduce CV disease risk factors and other autonomic dysfunctions in this at-risk population.