View clinical trials related to Cervical Spinal Cord Injury.
Filter by:The goal of this observational study is to determine if nerve transfer surgeries improve upper extremity function and quality of life in patients with a high level cervical spinal cord injury. Participants will: - undergo standard of care pre- and post-op testing and study exams - complete pre- and post-questionnaires - undergo standard of care nerve transfer surgeries - follow-up with surgeon at 6/12/18/24/36 and potentially at 48 months - attend therapy at local therapist for up to 2 years postop.
The goal of this study is to investigate the effects of cervical epidural spinal stimulation with upper extremity training. This is an investigational study. The device used for epidural spinal stimulation (ESS) to deliver spinal stimulation is called the CoverEdgeX 32 Surgical Lead system. This device is approved by the Food and Drug Administration (FDA) for the treatment of severe pain and to manage chronic pain when other treatments have not been effective. In this study, the device is considered an investigational device because it is not approved for use in the treatment of spinal cord injury
Neuralis is an innovative assistive technology designed for individuals with severe neuromuscular conditions, enabling wheelchair control through EEG signals. This study aims to assess the safety, feasibility, and efficacy of Neuralis in restoring mobility and independence. The device is a discreet EEG headset which specializes in decoding signals from visual cortex, allowing users to initiate precise wheelchair movements through focused attention. This research seeks to demonstrate Neuralis' potential in revolutionizing assistive technology by offering a non-invasive, user-friendly solution for individuals facing motor impairments, ultimately enhancing their quality of life.
The goal of this clinical trial is to determine whether people with paralysis due to a spinal cord injury can benefit from breathing short intermittent bouts of air with low oxygen (O2) combined with slightly higher levels of carbon dioxide (CO2), interspaced by breathing room air. The technical name for this therapeutic air mixture is 'acute intermittent hypercapnic-hypoxia,' abbreviated as AIHH. Following exposure to the gas mixture, participants will receive non-invasive electrical stimulation to the spinal cord paired with specific and targeted exercise training. The main question this trial aims to answer is: Can the therapeutic application of AIHH, combined with non-invasive electrical stimulation to the spinal cord plus exercise training, increase the strength of muscles involved in breathing and hand function in people with paralysis due to a spinal cord injury? Participants will be asked to attend a minimum of five study visits, each separated by at least a week. During these visits, participants will be required to: - Answer basic questions about their health - Receive exposure to the therapeutic air mixture (AIHH) - Undergo non-invasive spinal electrical stimulation - Complete functional breathing and arm strength testing - Undergo a single blood draw - Provide a saliva sample Researchers will compare the results of individuals without a spinal cord injury to those of individuals with a spinal cord injury to determine if the effects are similar.
The goal of this pilot clinical study is to investigate the NeuroLife EMG-FES Sleeve System, a closed-loop approach to functional electrical stimulation, in adults (n=12) with chronic (>12 months) tetraplegia due to spinal cord injury. Briefly, the NeuroLife EMG-FES System is a completely non-invasive system (surface electrodes only, no implantable components) worn on the forearm which has up to 160 electrodes that can record electromyography (EMG), or muscle activity, and also electrically stimulate (FES) muscles. The main questions this study aims to answer are: 1) What is the safety, feasibility, and early efficacy of the NeuroLife EMG-FES system on upper extremity outcomes in chronic SCI survivors with tetraplegia, and 2) Can EMG be used as a biomarker of recovery over time in chronic SCI participants undergoing rehabilitation? Participants will complete an intensive, task-oriented rehabilitation protocol using the NeuroLife EMG-FES System (3x/week x 12 weeks) in an outpatient setting. We will assess functional outcomes using standardized clinical measures of hand and arm function at six timepoints.
To evaluate the safety and effectiveness of individualized, precise and standardized open-door posterior cervical surgery through a single-center, exploratory clinical study, so as to provide a more reliable basis for the treatment of cervical spinal stenosis.
The purpose of this research study is to learn more about the connections between the brain, nerves, and diaphragm after experiencing a cervical spinal cord injury (SCI).The main question it aims to answer is: Changes in respiratory function and recovery using stimulation and respiratory exercise training in spinal cord-injured individuals. Participants will complete a maximum of 55 study visits. They will be asked to complete about 40 treatment sessions which include multiple stimulation sessions over the scalp and neck, followed by about 60 minutes of respiratory training. Assessment sessions will be completed prior at baseline, after 20 sessions and after 40 sessions of study treatment.
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
Cervical spinal cord stimulation can elicit arm and hand movements through recruitment of proprioceptive neurons in the dorsal roots. In participants with cervical spinal cord injury, the spare roots bellow the lesion can be used to reactivate motor function. Decoding of motor intentions can be achieved through implantable electrocorticography (ECoG) devices. In this study, the investigators will use an investigational system using ECoG signal recording over the motor cortex to drive muscle specific electrical epidural spinal cord stimulation (EES). The investigators will assess the safety and preliminary efficacy of this system in 3 participants.
A multicenter, international, prospective, observational case series patient cohort with incomplete cervical SCI without instability will be enrolled to obtain information and data that could inform the feasibility of administering a set of additional core and optional outcome assessments in cervical SCI patients to capture the aspects of neurologic impairment. Baseline, intraoperative, and postoperative characteristics, including demographics, injury details, treatment details, neurological assessments, gait and balance assessments and upper extremity assessments, will be recorded for adult patients.