Early Surgical Intervention Combined With Weight-supported Walking Training
Spinal Cord InjuriesTo determine the efficacy of a novel combinatorial treatment involving early surgical intervention and long-term weight-bearing walking training in spinal cord injury (SCI) patients clinically diagnosed as complete or American Spinal Injury Association Impairment Scale Class A (AIS-A).
Caring Connections: A Program to Alleviate Social Isolation and Loneliness in Individuals Living...
Spinal Cord Injuries and Disorders (SCI/D)This study will use a randomized controlled design with an active attention control group to evaluate an intervention intended to reduce social isolation and loneliness in persons with SCI/D. The intervention, Caring Connections, is a peer-based intervention which is important because peers with SCI/D play an important role in improving quality of life, mental health, and social health in persons with SCI/D.
Functional Interval Training for People With Spinal Cord Injury and Their Care Partners
Spinal Cord InjuriesFunctional Interval Training for People with Spinal Cord Injury and Their Care Partners (SCI-FIT) aims to address barriers to physical activity for people with spinal cord injury and their care partners. This research study provides free, twice weekly group-based, adaptable exercise classes for people with spinal cord injury and their care partners.
Safety and Usability of the STELO Exoskeleton in People With Acquired Brain Injury and Spinal Cord...
Spinal Cord InjuryAcquired Brain InjuryGait impairment in people with acquired brain injury (ABI) and spinal cord injury (SCI) can be very heterogeneous. For this reason, STELO has been developed: a new concept of exoskeleton based on modular technology for gait assistance. It allows a personalised configuration according to the functional capacity of each patient, as the therapist can choose which robotic joints to use depending on the therapeutic goal and on the patient recovery phase. The objective is to analyse the usability of the STELO modular exoskeleton in people with ABI and SCI.
24hr Effects of Tiotropium Bromide in Tetraplegia
Spinal Cord InjuryRespiratory complications are the leading cause of death during the initial year after acute SCI, and the third leading cause of death thereafter. Complete or partial loss of respiratory muscle innervations in individuals with cervical and high thoracic injuries leads to inadequate ventilation and inability to effectively clear secretions, often prompting supportive ventilation following initial injury. Development of atelactasis, pneumonias and respiratory failure are the most common respiratory complications observed during the acute phase of injury. It is well known that a restrictive ventilatory defect, dependent upon the level and completeness of injury, is apparent in individuals with chronic cervical SCI. Respiratory functional impairment might be further compromised in these individuals, the majority of whom share many aspects of obstructive airway physiology commonly associated with asthma. The asthma-like features that individuals with chronic cervical SCI demonstrate have been hypothesized to be due to overriding cholinergic airway tone carried by intact vagal (parasympathetic) nerve fibers arising from the brainstem, whereas sympathetic innervations is interrupted at the level of the upper thoracic spinal cord. Whether airway narrowing and AHR in chronic cervical SCI is also related to chronic airway inflammation is unknown, although it is conceivable that repeated respiratory infections or, possibly, a neurogenic component, could contribute to chronic airway inflammation. Therefore, the investigators aim to assess how long-acting bronchodilator (tiotropium bromide) affects various indices of lung function, including: pulmonary function tests, levels of inflammation and cough strength across 24 hours after receiving study drug. Results will be analyzed for baseline, 1 hour, 3 hours, 20 hours and 24 hours post drug inhalation for both active medication and non-active placebo.
Combined Tactile and Proprioception Training After Spinal Cord Injury
Spinal Cord InjuryA novel rehabilitation bike has been developed for patients with incomplete spinal cord injuries that incorporates mechanical stimulators on the bike pedals to stimulate the sensory receptors in the soles of the feet; the effect of mechanical stimulator on muscle strengthening has been reported by NASA to improve muscle atrophy in astronauts in zero-gravity environments. Cycling also stimulates lower limb position sensors. We predict that the combination of mechanical stimulation with cycling may be similar enough to walking over ground to lead to gains in balance and mobility. The present study will evaluate the therapeutic effect of this bike on balance, walking, as well as cortical-spinal and spinal pathways in patients with incomplete spinal cord injuries.
Efficacy of Electrical Pudendal Nerve Stimulation for Neurogenic Lower Urinary Tract Dysfunction...
Spinal Cord InjuriesLower Urinary Tract Symptoms2 moreThe main goal to treat early NLUTS is to relieve lower urinary tract syndrome and prevent from late complications. The present study is to evaluate the efficacy of electrical pudendal nerve stimulation (EPNS) and transanal/transvaginal electrical stimulation (TES) in NLUTD.The study design consists of a non-randomized, parallel controlled trial. A total of 60 eligible patients will be involved and divided into EPNS or TES group according to their location of medical treatment. The primary endpoint is lower urinary tract syndromes (ICIQ-FLUTS/MLUTS). The second endpoint is assessment of daily life Qol (ICIQ-LUTSqol), and residual urine volume.
Utility of an Animated Bowel Biofeedback Training Routine to Improve Bowel Function in Individuals...
Spinal Cord InjuryConstipation2 moreAn injury to the spinal cord results in a number of secondary medical problems, including the inability to voluntarily control the bowels. Depending on the severity and location of the injury, remaining bowel function differs, and can include any combination of the following: constipation (prolonged stool retention), difficulty with evacuation (difficultly moving bowels), fecal incontinence (problems retaining stool until it is appropriate to move the bowels). Most of the current medications and treatment options address problems of constipation and difficulty with evacuation, but there are few options for individuals who suffer from incontinency. In this study, the investigators propose to study, in detail, anorectal muscle function in individuals with spinal injury - the investigators will do so using new technology called high resolution manometry - which will present the investigator with a 3 dimensional representation of the pressure profile of the anorectal muscles as the subject attempts different maneuvers. A subgroup with representatives of all levels and completeness of injury and anorectal muscle function will be enrolled to participate in six weeks of biofeedback training to see if their bowel function can be improved. During these six weeks, the subjects will be asked to visit the laboratory twice a week in order to be trained by the research team on how to improve their anorectal strength and function in response to visual cues. After the six weeks, another manometry study will be performed. Subjects will then be sent home and asked to perform a series of home exercises for another 6 weeks, after which they will asked to return for a third and final manometry study.
Effects of Caffeine and Intermittent Hypoxia on Leg Function in Human Spinal Cord Injury
Spinal Cord InjuriesAccumulating evidence suggests that repeatedly breathing low oxygen levels for brief periods (termed intermittent hypoxia) is a safe and effective treatment strategy to promote meaningful functional recovery in persons with chronic spinal cord injury (SCI). The goal of the study is to understand how caffeine may augment the effects of intermittent hypoxia on motor function and spinal plasticity (ability of the nervous system to strengthen neural pathways based on new experiences) following SCI.
Efficacy Study of the Music Glove Patients With Spinal Cord Injuries
Spinal Cord InjuriesInvestigators are trying to determine the therapeutic effect of the music glove and conventional hand exercise program to patients with spinal cord injuries. All participants will be randomized into two groups: AB and BA. They will all exercise at least 3 times a week for 3 weeks with minimum of 3 hours of exercise time per week. Participants will receive the other intervention at their 3 week post-therapy follow-up visits. Clinical evaluations will be performed at baseline 1 and 2 (3 to 10 days apart), post-therapy after the first intervention, 3-week post-therapy follow up, post-therapy after the second intervention, and 3-week post-second intervention follow up visits.