Clinical Research Directory

Abdominal Functional Electrical Stimulation to Improve Bowel Function in Spinal Cord Injury

The primary objective of this study is to gather information about the effectiveness of abdominal FES to improve bowel management time (BMT) for people with chronic SCI. This study will also evaluate whether abdominal FES can improve: 1) bowel-related quality of life, 2) participant-reported bowel function, 3) bowel management strategy, 4) bladder symptoms, and 5) unplanned hospital admissions. In addition, we will also explore participant perspectives and experiences about the stimulation sessions and use of the device.

Bowel Continence Across the Lifespan in People With Spina Bifida

The goal of this observational study is to learn how different enema programs affect bowel control in children and adults with spina bifida. An enema program involves putting liquid into the large intestine (colon) to help someone poop. The main questions it aims to answer are: 1. How well do different enema programs prevent bowel accidents? 2. How do these enema programs affect independence, bowel symptoms, and quality of life? Researchers will compare two types of enema programs to see which works better and is easier for participants to manage. Participants starting a new enema program will answer online survey questions at 3 different timepoints over the course of 1 year.

Improving Pelvic Rehabilitation Using Epidural Stimulation After Spinal Cord Injury

The investigators will recruit up to 20 volunteers with chronic, supra-sacral SCI. Following screening, eligible participants will enter 'Phase I', they will complete baseline outcome measures and then have the epidural spinal cord stimulator (eSCS) implanted with either percutaneous or paddle electrodes. Preoperative and intraoperative testing will determine exact location of electrodes. Mapping and optimisation of stimulation parameters will be performed simultaneously with urodynamic investigations of bladder function, and anorectal physiology investigations of bowel function. The acute effects of eSCS to suppress bladder overactivity, facilitate voiding, prevent unwanted reflex sphincter activity, and pelvic floor function will guide development of eSCS programmes for use at home. In 'Phase II', participants will use eSCS at home for 12-weeks. Participants will also be taught how to perform bladder and pelvic floor muscle training (PFMT) in combination with eSCS. Outcome measures assessing bladder, bowel, sexual function, quality of life, motor function and spasticity will be captured prior to and following the 12-week intervention, and at 3 and 6 month follow up.

Transcutaneous Spinal Cord Stimulation for Bowel Management in Individuals with Motor Complete Spinal Cord Injury

The primary goals of this pilot trial are to understand the feasibility and safety of thoracolumbar transcutaneous spinal cord stimulation for neurogenic bowel management in individuals with new onset, traumatic, cervicothoracic spinal cord injury admitted to inpatient rehabilitation. The secondary goal is to understand the clinical impact of thoracolumbar spinal cord stimulation on bowel function. Study participants will receive a 10-day course of transcutaneous spinal cord stimulation at T10-T11 and T12-L1. Each daily treatment will consist of 30 minutes of stimulation. Feasibility will be evaluated by documenting how many stimulation sessions were attended per participant, and the average duration of stimulation provided per session (with a maximum value of 30 minutes). It is believed that transcutaneous spinal cord stimulation will be feasible to deliver for participants receiving inpatient rehabilitation. Safety will be evaluated by documenting hemodynamic parameters (heart and blood pressure) and pain levels during each stimulation session. The skin will be evaluated after treatment to ensure no pressure injuries. Participants will be asked to document bladder continence before and after the two-week stimulation protocol, to understand if there are any changes on bladder function, given similar nerve root innervation as bowel function. Investigators expect that transcutaneous spinal cord stimulation will be safe, with minimal adverse effects on heart, blood pressure, skin integrity, pain levels and bladder continence. The impact on bowel function will be evaluated by completing a bowel diary documenting the time spent on bowel care per day per participant. Participants will also rate their satisfaction with bowel care before, immediately after and two weeks after the 10-day stimulation protocol. Peak cough flow will be collected before, immediately after and two weeks after the 10-day stimulation protocol, as surrogate measures of abdominal strength, which is important for timely bowel evacuation. It is believed that transcutaneous spinal cord stimulation will reduce time spent on bowel care and improve participant-reported satisfaction with bowel care, and it will be associated with improvements in peak cough flow.

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

Spinal cord injury (SCI) disrupts many aspects of life, including the loss of volitional movement and involuntary control of bodily functions; both crucial functional recovery priorities for this population. Mobility impairments and secondary complications limit an individual's ability to exercise, a behavior known to have wide-ranging functional and health benefits. This trial will investigate whether activity-based therapy (ABT), using body-weight-supported treadmill training (BWSTT), can change the strength of signals from the brain that control volitional movement, leading to improvements in seated balance as well as other important involuntary bodily (i.e. cardiovascular, urinary tract, bowel and sexual) functions. The investigators aim to determine whether these improvements can be augmented with the addition of non-invasive transcutaneous spinal cord stimulation (TSCS). This therapy has been shown to re-awaken dormant spinal circuits. In this randomized controlled trial, TSCS with ABT, using BWSTT (three sessions/week for twelve weeks), will be compared to ABT+SHAM in individuals with chronic motor-complete spinal cord injury (SCI). Those in the ABT+SHAM group will be given the option to complete an ABT+TSCS open-label follow-up. Before and after training, the following outcomes will be assessed by validated methods: corticospinal excitability, motor function, and seated balance (Hypothesis 1 - Motor Function); severity and frequency of blood pressure instability, urinary tract, bowel, and sexual dysfunctions (Hypothesis 2 - Autonomic Functions); and general health (Hypothesis 3 - Quality of Life). This collaborative project is between consumers with SCI and clinicians/scientists with expertise in SCI care (kinesiologists, physiotherapists, physiatrists, sexual health clinicians). Compared to ABT alone, the investigators anticipate that ABT+TSCS will result in superior improvements in motor and autonomic functions in individuals with SCI.

Below the Belt: Non-invasive Neuromodulation to Treat Bladder, Bowel, and Sexual Dysfunction Following Spinal Cord Injury

Recent findings have demonstrated that electrical stimulation to the spinal cord (i.e. implanted electrodes) can significantly recover bladder, bowel, and sexual function after injury. While promising, a major drawback is that individuals must undergo a highly invasive and expensive surgical procedure to implant the stimulator on top of the spinal cord. Moreover, the inability to re-position the implanted stimulator considerably limits the flexibility of this procedure. In this project, the investigators propose a comprehensive clinical study examining the effects of TCSCS in promoting recovery of these crucial functions in individuals with spinal cord injury (SCI). This non-invasive therapeutic modality uses electrodes applied over the skin to deliver electrical stimulation. It is based on the same principles of ground-breaking work from the investigator's group and others, showing that stimulation of the spinal cord can promote motor and autonomic (cardiovascular, bladder, bowel) recovery in individuals with chronic SCI.

Neostigmine and Glycopyrrolate by Iontophoresis

To determine a lower effective dose of neostigmine to induce bowel evacuation by transcutaneous administration by iontophoresis.

Use of Point-of-care Neuro-sacral Electrophysiology Following Spinal Cord Injury

Assessing the sacral nerves is an integral aspect of the evaluation after a spinal cord injury. Being located at the lower end of the spinal cord, the sacral nerves reflect how signals travel through the injured spinal cord. Sacral assessment is therefore essential to determine the level and severity of the spinal cord injury, which helps selecting the proper treatment and predicting recovery (worse when abnormal sacral function. The current assessment relies solely on a manual evaluation, which depends heavily on the physician's experience and does not provide any quantitative value of the dysfunction. The lack of a quantitative method adapted to the clinical setting is a major barrier limiting our knowledge on the impact of sacral function on recovery. We have recently developed an electrophysiological method providing quantitative sacral assessment at bedside after spinal cord injuries. Using this method, we will quantify sacral function in 250 patients with acute spinal cord injuries, and determine its association with recovery 6 months post-injury. We hypothesize that sacral function assessed early within the first 6 weeks after the injury with our method is associated with a better 6-month recovery of motor, sensory, bowel and bladder function. Our objectives are to assess the changes is sacral function during the first 6 months after the injury, and the relationship between early sacral function and 6-month recovery. Sacral function and recovery will be assessed up to 6 months post-injury by the attending physician, in order to measure the electromyographic magnitude of voluntary anal contraction, electromyographic magnitude of anal contraction elicited through sacral reflex testing, and minimal electrical stimulation for which anal sensation is present. The analysis will determine if and how sacral function evolves in time, and if there are specific quantitative criteria of sacral function that physicians can use to determine if patient will have a favorable recovery.