View clinical trials related to Spinal Cord Injuries.
Filter by:This is a single blind, sham controlled crossover trial that will evaluate the effectiveness of acute intermittent hypoxia therapy (AIH) combined with transcutaneous (non-invasive) spinal cord stimulation on gait and balance function for individuals after spinal cord injury.
This is a preliminary study of the antihypertensive drug mecamylamine, used in the specific circumstance of hypertension caused by autonomic dysreflexia (AD), a condition that affects people with spinal cord injury (SCI). Initially, mild sensory stimulation of subjects' legs is used to intentionally provoke AD, as reflected by blood pressure elevation during such stimulation. In subsequent testing sessions, mecamylamine is given prior to sensory stimulation, to show the effect of the drug on preventing these AD-related blood pressure elevations.
This multicenter study will enroll 100 patients with acute traumatic cervical and thoracic SCI who have a lumbar intrathecal catheter inserted within 24 hours of their injury. The lumbar intrathecal catheter will be inserted pre-operatively for the measurement of ITP and the collection of cerebrospinal fluid (CSF) samples. SCPP will be calculated as the difference between MAP and the ITP. There are two important distinct yet related objectives in this prospective interventional study. 1. Determine the effect of SCPP maintenance ≥ 65 mmHg in acute SCI on neurologic recovery as measured by ASIA Impairment Scale (AIS) grade conversion and motor score improvement. 2. Collect CSF and blood samples for the measurement of neurochemical biomarkers and storage for future biomarker discovery and validation studies.
Spinal cord injury (SCI) is a kind of severe disease with high morbidity and complications. At present, electroacupuncture has certain advantages in treating motor sensory dysfunction, neuropathologic pain, neurogenic bladder and intestinal dysfunction after spinal cord injury. However, previous clinical studies of acupuncture neglected the brain, which is closely related to the structure and function of spinal cord.So,the aim of this study is to observe and analyse the impact of the changes of gray and white matter volume on whole brain and brain functional re-establish,to reveal the neuroimaging mechanism of improving the motor sensory functions of patients with spinal cord injury, and to provide a theoretical basis for the clinical application of electroacupuncture.
Spinal cord injury (SCI) is a kind of severe disease with high morbidity and complications. At present, electroacupuncture has certain advantages in treating motor sensory dysfunction, neuropathologic pain, neurogenic bladder and intestinal dysfunction after spinal cord injury. However, previous clinical studies of acupuncture neglected the brain, which is closely related to the structure and function of spinal cord.So,the aim of this study is to observe and analyse the impact of the changes of gray and white matter volume on whole brain and brain functional re-establish,to reveal the neuroimaging mechanism of improving the motor sensory functions of patients with spinal cord injury, and to provide a theoretical basis for the clinical application of electroacupuncture.
Patient Power is a patient research network and database (registry) to collect prospective information about demographics, self-reported diagnoses and medications, and willingness to participate in research from participants with rheumatoid arthritis (RA), spondyloarthritis (SpA), other musculoskeletal conditions, chronic neurological conditions like migraine, chronic pulmonary conditions like Chronic Obstructive Pulmonary Disease (COPD), asthma, autoimmune dermatological conditions such as psoriasis, and other chronic inflammatory or immune-mediated conditions. In addition, since patients with chronic conditions often have other co-morbidities like cardiovascular health and obesity-related metabolic disorders, these conditions will also be included. Participants will provide information from their smartphones or personal computers. The information will be used by researchers and clinicians to help patients and their providers make better, more informed decisions about treatment of chronic conditions.
The purpose of this study is to compare energy expenditure and metabolic outcomes of a novel seated battle rope protocol to seated maximal ramped upper extremity ergometry protocol in subjects with spinal cord injury.
This study will utilize short duration and mild levels of reduced oxygen (hypoxia) to induce spinal plasticity while evaluating the appropriate timing schedule for this intervention, as well as, the effects of superimposing sessions of a therapy, in individuals with chronic incomplete SCI. Our aim is to establish the time-course of outcome improvement and decay following a single session or multiple sessions of AIH therapy.
The objective of this study is to better understand the structural and functional changes that the central nervous system (CNS) undergoes following spinal cord injury and how these changes relate to clinical measures. Both macroscopic and microscopic changes of the brain and the spinal cord will be examined in SCI patients and compared to healthy controls. In terms of structural plasticity, we aim to identify MR biomarkers that allow predicting the course of the patient's neurological status and accurately describe the course of the disease and the recovery. Importantly, we aim to investigate which factors scale the patients' symptoms. In terms of functional plasticity, we will combine fMRI with behavioural testing to understand which clinical and behavioural determinants drive functional hand representations in the primary somatosensory and motor cortices to be maintained and which determinants drive reorganisation of functional representations following sensory input loss. We will further investigate the contribution of brainstem reorganisation to plasticity observed at the cortical level and, by doing so, aim to better understand the mechanistic underpinnings of functional reorganisation.
Central neuropathic pain (CNP) is defined as chronic pain due to injury or disease in the central nervous system. This pain is most common among people with a spinal cord injuries (SCI), with a prevalence of about 50%. The central pain usually develops within a few months of spinal cord injury - and this period is significance in terms of this research work. This pain is one of the most complex and challenging pain syndromes. One of the reasons for this stems from its adherence to most treatments. Another reason is that there is partial information about the mechanism responsible for its development. Animal studies suggest that it is possible to prevent and / or reduce its development or reduce its strength by preventive treatment (given immediately after the injury). Currently, the treatments found to prevent or reduce central pain in animals are anti Inflammation and neuronal excitability suppressors such as interleukin 10. The purpose of this study,is to explore whether pre-treatment with pregabalin prior to the development of the central pain will prevent the incidence of pain or reduce its intensity by improving pain regulation and reducing hypersensitivity. The goal of the pharmacotherapy is to reduce the hypersensitivity- lyrica is used to reduce chronic neuropathic pain by reducing the degree of hypersensitivity in the pain system. the objectives of this study are to examine whether early treatment of central pain can prevent or reduce the incidence of pain by improving pain regulation and reducing hypersensitivity. That is, whether there will be a difference between those who take Lyrica-Pregabalin (a drug that reduces hypersensitivity of pain) compared to placebo. Methods: A randomized, double-blind, placebo-controlled study in which people with a fresh SCI will receive lyrica or placebo as soon as possible from their arrival at the rehabilitation hospital for 2-3 months during which pain system characteristics will be measured and monitored for central pain development.