View clinical trials related to Spinal Cord Injuries.
Filter by:The purpose of this study is to investigate the short-term effects of 3 approved FDA drugs (cyproheptadine (CPH), carbidopa-levodopa (CD-LD), and atomoxetine (ATX)) on motor responses when delivered in combination with hand training exercises in people with chronic spinal cord injury. The goal is to learn how to better strengthen connections between the brain and spinal cord after spinal cord injury, and if this connection is improved by one(or more) of the drugs. Multiple aspects of nerve transmission and muscle response will be measured via noninvasive brain and spinal cord stimulation, along with motor performance (dexterity and strength).
This study will evaluate the long-term effect of chronic spinal cord stimulation to restore volitional movement for patients with chronic spinal cord injuries.
People with a spinal cord injury (SCI) often experience secondary medical complications. One of the methods that may help to prevent or deal with secondary complications in people with SCI is the Wim Hof Method (WHM). The WHM is based on three elements: 1) breathing exercises, 2) gradual cold exposure (cold showers, or cold water immersion), and 3) mindset. The primary objective of this randomized controlled trial is to assess the effects of WHM, involving breathing exercises, mindset (and cold exposure), on health-related quality of life in people with SCI. The secondary objectives are to assess the effects of WHM, involving breathing exercises, mindset (and cold exposure) in people with SCI on: inflammation markers, metabolic health, pulmonary function, body composition, sleep quality, spasticity, stress, and on chronic pain.
Locomotor training (LT) facilitates recovery of spinal locomotor networks after incomplete spinal cord injury (ISCI), but walking impairments persist. A limitation of LT is insufficient excitation of spinal locomotor circuits to induce neuroplastic recovery. Transcutaneous spinal direct current stimulation (tsDCS) is a non-invasive approach to increase spinal excitation and modulate spinal reflexes. The study will examine if tsDCS combined with LT enhances locomotor rehabilitation after ISCI.
This is a prospective, single-blinded, single-center, randomized, comparative, interventional clinical study of systemic mononuclear multiple allogenic cord blood cells administration safety and efficiency in patients having acute severe contusion spinal cord injury (ASIA A/B), phase I/II
Investigators propose to demonstrate that epidural stimulation (ES) can be used to recover significant levels of autonomic control of cardiovascular, urinary and sexual function as well as the ability to voluntarily control leg movements below the injury level. This intervention would provide an immediate therapeutic alternative to individuals who now have no recourse for treatment. In addition investigators suggest to prove on functional magnetic resonance imaging if there are some significant changes before and after the stimulation.
This cross-sectional prospective study will assess the potential association of more severe sleep apnea after spinal cord injury with more intense neuropathic pain, more severe spasticity, and more significant cardiovascular abnormalities including cardiac arrhythmias and blood pressure fluctuations. In addition, the participants' experience when undergoing home-based sleep screening test or hospital-unattended sleep screening test will be assessed in a semi-structured interview.
Building on recent improvements, state-of-the-art functional MRI will be applied as an advanced diagnostic tool for the lumbosacral cord in spinal cord injury (SCI) patients to characterize the remaining neuronal activity of the motor and sensory neurons. Alterations in the activity pattern will reveal the effect upon task-related spinal cord activity of the lower motor neurons and sensory neurons undergoing trauma-induced neurodegeneration, at a spatial specificity that has not been possible so far. Results of this study will be of crucial importance because SCI patients can only profit from regeneration-inducing therapies if spinal neuronal function is preserved below the level of lesion.
The subaxial cervical spine consists of levels C3 through C7 and includes both the bony anatomy as well as the ligamentous anatomy. Injuries to the subaxial cervical spine can be bony, discoligamentous or a combination of both (1). Cervical spine trauma is common resulting from high energy trauma such as falling from height and motor vehicle accident (2). Devastating sequelae of subaxial cervical spine trauma include quadriplegia, functional loss, and permanent disability
The aim of this study is to evaluate the efficacy and safety of intrathecal administration of autologous mesenchymal stem cells in participants with subacute spinal cord injury.