View clinical trials related to Spinal Cord Injury.
Filter by:The purpose of this study is to examine impact of Sleep Disordered Breathing (SDB) treatment in persons with chronic Spinal Cord Injury (SCI). The central hypothesis is that the treatment of SDB with Positive Airway Pressure (PAP) will improve cognition, sleep quality, health related quality of life (HRQOL), pain and Cardiovascular Disease (CVD) surrogate measures in persons with chronic SCI.
1. Design and develop web-based self-management intervention to improve catheter-related outcomes and quality of life in people with spinal cord injury (SCI). 2. Conduct a pilot study to assess the feasibility (i.e., acceptability and usability of the website application) and preliminary effectiveness of this new self-management intervention. 3. Develop and test the reliability of new/modified measures (intermittent catheter self-efficacy and self-management).
The study goes on 24 months, with recruiting, treatment and follow period for all patients. The first day for each patient will be the first cellular administration. 3 doses will be administrated every 3 months from first dose. When the clinical trial finishes, it will be done a completed check of all obtained parameters.
Dyspnea is "a subjective experience of breathing discomfort that consists of qualitatively distinct sensations that vary in intensity". It is known that sensory information from the respiratory system activates regions of the cerebral cortex to produce the perception of dyspnea but far less is known about the neurophysiology of dyspnea than about vision, hearing, or even pain. Dyspnea likely arises from multiple nervous system sources, but the exact locations have not been well identified. Investigations of the mechanisms underlying respiratory sensations have included studies of airway anesthesia, chest wall strapping, exercise, heart-lung transplantation, hyperventilation, and opioid use. Study of the perception of breathing sensations in individuals with a spinal cord injury presents additional opportunity. The goal of the proposed project is to examine the effects of increasingly severe levels of spinal cord injury on the perception of breathing sensations in participants who are able to breathe without the use of a ventilator. The investigators hypothesize that the perception of breathing varies with the extent of somatosensory information that reaches cerebral cortex.
Each year over 12,000 spinal cord injuries (SCI) occur in the United States. These injuries result in incredibly difficult, long-term, life adjustments both for patients and their caregivers. Many families continue to struggle with the physical, emotional and social impacts of SCI for months and years after the injury. Family education and support improves the outcomes of other challenging long-term conditions such as Traumatic Brain Injury, but little effort has been made to provide such interventions for persons with SCI and their caregivers. The proposed study will address this problem by refining and testing a group treatment for SCI called Multi-family Group (MFG) intervention. The groups will include people with SCI and their primary caregivers, and will be facilitated by an "educator" who is a health care provider who works with people with SCI. By providing education about the management of SCI and support in an MFG format, quality of life for persons with SCI is predicted to be improved. In turn, it is expected that caregivers will also benefit from the information, problem-solving activities, and social support that they receive from the educators and other group members. The investigators will recruit 32 individuals with SCI who have been discharged from inpatient rehabilitation within the previous three years and their primary caregivers. Participants will be randomized to the MFG intervention or to an education control condition and tested before and after treatment and 6 months following treatment. It is hypothesized that participants receiving MFG-SCI will have better outcomes than controls on measures of quality of life, health, and adjustment. The study will also test whether participants who are more recently discharged from inpatient rehabilitation will experience greater benefit from the MFG intervention or the education control intervention. If the outcomes support the hypotheses, the MFG intervention should be made available to those with SCI and their caregivers.
This clinical study is designed to investigate the mechanisms of blood pressure regulation and respiratory motor function affected by spinal cord injury (SCI). We hypothesize that impaired blood pressure regulation in individuals with chronic SCI can be improved by restoring respiratory motor function by using Respiratory Motor Training (RMT).
The purpose of this study is to analyze the safety and efficacy of mesenchymal stem cell transplantation through percutaneous injection in patients with chronic spinal cord injury.
The study aims at discerning specific gait patterns and elucidating locomotor control of spinal cord injured patients in order to find sensitive kinematic and electromyographic outcome measures that are able to reveal information on underlying mechanisms of normal and aberrant gait control and its recovery over time. These measures may also be used to compare the outcome across different neurological disorders.
In patients with chronic spinal cord injury, imaging of the spinal cord and brain above the level of the lesion provides evidence of neural degeneration; however, the spatial and temporal patterns of progression and their relation to clinical outcomes are uncertain. New interventions targeting acute spinal cord injury have entered clinical trials but neuroimaging outcomes as responsive markers of treatment have yet to be established. We aim to use MRI to assess neuronal degeneration above and below the level of the lesion after acute spinal cord injury. In our prospective longitudinal study, we enroll patients with acute traumatic spinal cord injury and healthy controls. We assess patients clinically and by MRI at baseline, 2 months, 6 months, 12 months, and if possible 24 months and 60 months follow-up, and controls by MRI at the same timepoints. We assess cervical atrophy in white and gray matter and use cross-sectional spinal cord area measurements to assess atrophy at cervical level (C2/C3) and in the lumbar enlargement. We use myelinsensitive magnetisation transfer (MT) and longitudinal relaxation rate (R1) maps in the brain to assess microstructural changes associated with myelin. We also use diffusion tensor imaging acquired in the spinal cord at C2/C3 and in the lumbar enlargement to identify axonal loss and demyelination in the spinal white matter. Finally, we assess associations between MRI parameters and clinical improvement.
This project will build and test the first rehabilitation system employing virtual reality (VR)-based observation, motor imagery and execution to treat lower-limb neuropathic pain and motor dysfunction in participants with an incomplete spinal cord injury or another neurological disorder, eg. stroke: iCTuS-L (Interactive Computer-based Therapy System for legs). Patients using the system will control virtual representations of their legs to engage in entertaining gaming interactions.