View clinical trials related to Spinal Cord Injuries.
Filter by:Assess the relationship between body composition, metabolism, and dietary needs in people with spinal cord injury compared to their healthy controls that are age and sex matched.
Aim of the current study is to evaluate the effect functional electrical stimulation and therapeutic exercise on traumatic spinal cord injured participants'skeletal muscle characteristics, sitting balance, lung function and quality of life.
The main aim of this study is to gain an in-depth knowledge of cardiopulmonary and autonomic health consequences, and related risk factors among people with long-term high-level spinal cord injury. The result of this study will form the basis for further research to improve prevention strategies and risk prediction of cardiopulmonary disorders in people with spinal cord injury.
The objective of the study is to evaluate the effectiveness of remote training to teach clinicians how to train others in wheelchair skills.
Individuals with spinal cord injury (SCI) have significant functional loss and poor quality of life. Individuals with cervical SCI are suffering much worse sickness within the SCI population. Tetraplegia resulting from cervical SCI bring a formidable emotional, physical, and financial burden in our society. Hand function is especially important to people with tetraplegia. Hand function is associated with independence in many activities, and impairments in upper extremity function can compound difficulties in many other areas, such as bowel and bladder management. Thus, it is not surprising that restoring hand function was found to be a priority for individuals with tetraplegia. Nowadays, magnetic resonance imaging (MRI) plays an essential role in the diagnosis of SCI and helps to monitor disease progression and efficacy of therapies. Advanced MRI techniques, such as diffusion tensor imaging (DTI) and functional MRI (fMRI), have shown the potential to improve the understanding of human spinal cord in healthy and pathological condition, and serve as imaging biomarkers to characterize damage degree, monitor the response to treatment, and predict the outcome of intervention. Meanwhile, multi-channel EMG (Electromyography) recordings can provide a mapping of neuromuscular activities from an electrode-array. The application of robotics in upper extremity function restoration of SCI patients has been started to help SCI patients to recovery upper extremity function. Combined DTI and fMRI to monitor the recovery of upper extremity function of SCI patients, this project will provide a tailored-made EMG driven soft-robotic hand prosthesis for tetraplegia individuals. We will provide the individuals with neuromuscular rehabilitation to preserve the residual function and to enhance the functional recovery. The eventual goal is to further design a useful robotic hand for regaining partial daily function to improve the quality of life for those individuals with tetraplegia.
This study is for people who have a paralyzed arm and hand from a spinal cord injury, who have also received a recording electrode array in the brain as part of the BrainGate study. The study will look at the ability of these participants to control different grasping patterns of the hand, both in virtual reality and in his/her actual hand. Movement of the participant's hand is controlled by a functional electrical stimulation (FES) system, which involves small electrodes implanted in the arm, shoulder and hand that use small electrical currents to activate the appropriate muscles.
Study to investigate the safety, tolerability, pharmacokinetics and pharmacodynamics of Rec 0/0438 in subjects with neurogenic detrusor overactivity due to spinal cord injury
The objective of the study is to assess the efficacy of the Exo-H2 robotic exoskeleton for walking rehabilitation of people with incomplete spinal cord injury.
A pre-post descriptive study was performed to examine the immediate effects of ultrasound (US) guided femoral nerve block with phenol (UGFNBwP) in managing lower limb spasticity of individuals with traumatic spinal cord injury (SCI).
The goal of this study is to collect and describe patient and caregiver reported outcomes regarding surgical and non-surgical treatment for improving hand and arm function in the setting of cervical spinal cord injury. Eligible study participants will be recruited across the 4 sites and the investigators plan to recruit the following groups and numbers of participants: 1. Nerve or tendon transfer recipients: people who have elected to undergo nerve (N=10) or tendon (N=10) transfer surgery to restore some hand and arm function as part of their standard clinical care and their caregiver (N=20) 2. Non-surgical control group: people with cervical SCI (N=20) and their caregiver (N=20)