View clinical trials related to Spinal Cord Injury.
Filter by:The long-term goal of this project is to develop rehabilitation strategies that facilitate optimal restoration of skilled hand use in individuals with spinal cord injury (SCI). The objective of the studies proposed in this application is to determine whether a protocol of massed practice + somatosensory stimulation (MP+SS) is more effective for improving skilled hand use compared to a somatosensory stimulation (SS) alone, and to determine whether these approaches are each more effective than traditional therapy (consisting of conventional resistance training; CRT). Specific Aim I: In individuals with chronic incomplete tetraplegia, quantify changes in skilled hand use and sensory function associated with either: massed practice training combined with somatosensory stimulation (MP+SS), somatosensory stimulation (SS), or control (conventional resistance training [CRT]), and compare differences among groups. The investigators hypothesize that: H1.1: At the end of 4 weeks, gains in scores on standardized tests of skilled hand motor function (Jebsen-Taylor Hand Function Test and Chedoke-McMaster Arm and Hand Activity Inventory) and sensory function (quantitative sensory tests; QST) will be greater in individuals who are trained using MP+SS compared to the SS and RT groups. H1.2: At the end of 4 weeks, gains in scores on standardized tests of skilled hand motor function and sensory function tests will be greater in individuals who are trained using SS compared to CRT. H1.3: At 6 months post training, motor and sensory gains will be retained by the MP+SS and SS groups. Specific Aim 2: In individuals with chronic incomplete tetraplegia, quantify changes in cortical and spinal neurophysiology associated with either: massed practice combined with somatosensory stimulation (MP+SS), somatosensory stimulation (SS), or control (conventional resistance training [CRT]), and compare differences among groups. The investigators hypothesize that, after 4 weeks: H2.1: Measures representing cortical neurophysiologic function (i.e., motor-evoked potential amplitude and location of cortical map) will show greater change in the direction of more normal values in individuals who are trained using MP+SS compared to the SS and the CRT groups. H2.2: Measures representing spinal neurophysiologic function (i.e., F-wave and H-reflex amplitude) will show greater change in the direction of more normal values in individuals who are trained using SS compared to the MP+SS and the CRT groups. H2.3: There will be a positive relationship between change scores associated with functional outcome measures and cortical neurophysiologic outcome measures in the MP+SS group; there will be a positive relationship between change scores associated with the functional outcome measures and spinal neurophysiologic outcome measures in the SS group. Specific Aim 3: In individuals with chronic incomplete tetraplegia, quantify changes in self-assessment of quality of life and societal participation associated with massed practice combined with somatosensory stimulation (MP+SS), somatosensory stimulation (SS) or control (conventional resistance training [CRT]), and compare difference among groups. The investigators hypothesize that: H3.1: Gains in scores on standardized measures of quality of life (Medical Outcomes Study Short Form 36 [SF-36]) and societal participation (Impact on Participation and Autonomy Questionnaire [IPAQ]) will be greater in individuals who are trained using MP+SS compared to both the SS and the CRT groups. H3.2: Gains in scores on standardized measures of quality of life and societal participation will be greater in individuals who are trained using SS compared to the CRT group. H3.3: At 6 months post training, gains in the quality of life and the societal participation measures will be retained by the MP+SS and SS groups. Risks: This is a low risk study that investigates the effects of standard rehabilitation and exercise interventions on hand/arm function in individuals with SCI. All devices are considered minimal risk devices by the FDA.
The purpose of this study is to evaluate the safety of a new developed catheter in comparison with an catheter on the market. The study is randomised.
The purpose of this study is to determine whether KAI-1678 is effective in the treatment of pain associated with spinal cord injury.
Study is designed to evaluate the efficacy of oral fosamax in prevention on osteoporosis in acute spinal cord injury. Efficacy will be measured by a duel energy X-Ray absorptiometry (DEXA) scan every 6 months. Patients will complete 3 visits, screening, 6 months, 12 months and be required to take oral fosamax versus placebo weekly.
This study was intended to evaluate a new assistive neuro-technology, known as the Tongue Drive System (TDS), by its potential end-users, i.e. individuals with severe disabilities, who are the best experts for indicating the benefits and possible shortcomings of any new ANT. Our goal is to assess the acceptability and usability of the TDS for various tasks that are important in daily lives of these individuals, such as computer access, wheeled mobility, and environmental control.
The purpose of this study is to record signatures from the fluid surrounding the spinal cord from people who have an implanted drug infusion system.
The purpose of this study is to determine whether the novel treatment of transcranial direct current stimulation (tDCS) could decrease the pain perception of those with spinal cord injury. We will also determine whether these changes are correlated with the clinical outcome (pain reduction).
Background: Body weight supported (BWS) locomotor training improves overground walking ability in individuals with motor-incomplete spinal cord injury (SCI). While there are various approaches available for locomotor training, there is no consensus regarding which of these is optimal. The purpose of this ongoing investigation is to compare outcomes associated with these different training approaches. Subjects and Methods: Subjects with chronic motor-incomplete SCI have completed training and initial and final testing. Subjects were randomly assigned to 1 of 4 different BWS assisted-stepping groups, including: 1) treadmill training with manual assistance (TM), 2) treadmill training with stimulation (TS), 3) overground training with stimulation (OG), or 4) treadmill training with robotic assistance (LR). Prior to and following participation the investigators assessed: - Walking-related outcome measures: overground walking speed, training speed, step length and step symmetry. - Spinal cord reflex activity - Electromyographic (EMG) associated with walking Hypotheses: In individuals with incomplete spinal cord injury (SCI): 1. A 12-week period of body weight supported treadmill training with TS will produce improvements in walking function that are significantly greater than those produced by training with TM, OG, LR. 2. TS training will be associated with greater changes to spinal reflex activity than will be observed in subjects trained with manual assistance or non-assisted stepping. Changes to spinal reflex activation will be such that this activity more closely resembles that observed in non-disabled (ND) individuals. 3. Following participation in this walking regimen, EMG activity observed during walking in all groups will be more robust, more consistent and better coordinated than EMG measures obtained prior to training.
The purpose of this pilot study is to investigate whether gait specific robotic supported bodyweight supported treadmill training and lower extremity strength training have similar beneficial effects on walking function and other outcomes.
Loss of hand function is one of the most devastating consequences of tetraplegia because of the severe impact on activities of daily living (ADL) and the resultant dependency on others. This multi-centre study in 78 participants will measure whether additional hand therapy provided via an electrical stimulator glove and specialised computer workstation improves hand function in people with tetraplegia.