View clinical trials related to Spinal Cord Injuries.
Filter by:To provide an effective treatment for recovery from paralysis and improved quality of life of veterans, military, and civilians with spinal cord injury/disorder (SCI/D). This is a mechanistic Phase I randomized pilot clinical trial in 16 adults with SCI/D. The investigators will compare the effects of Cognitive Multisensory Rehabilitation (CMR) vs. adaptive fitness on sensorimotor function. Objective 1: Determine if 8 weeks of CMR improves sensory and motor function in adults with SCI/D. Objective 2: Determine if 8 weeks of CMR restores brain activity and connectivity related to sensorimotor function in adults with SCI/D.
Spinal cord associative plasticity (SCAP) is a combined cortical and spinal electrical stimulation technique developed to induce recovery of arm and hand function in spinal cord injury. The proposed study will advance understanding of SCAP, which is critical to its effective translation to human therapy. The purpose of the study is to: 1. Determine whether signaling through the spinal cord to the muscles can be strengthened by electrical stimulation. 2. Improve our understanding of the spinal cord and how it produces movement. 3. Determine whether spinal surgery to relieve pressure on the spinal cord can improve its function. Aim 1 is designed to advance mechanistic understanding of spinal cord associative plasticity (SCAP). Aim 2 will determine whether SCAP increases spinal cord excitability after the period of repetitive pairing. In rats, SCAP augments muscle activation for hours after just 5 minutes of paired stimuli. Whereas Aims 1 and 2 focused on the effects of paired stimulation in the context of uninjured spinal cord, Aim 3 assesses whether paired stimulation can be effective across injured cord segments. Aim 3 will incorporate the experiments from Aim 1 and 2 but in people with SCI, either traumatic or pre-operative patients with myelopathy in non-invasive experiments, or targeting myelopathic segments in intraoperative segments.
In support of the long-term goal of developing new strategies to increase limb function after SCI, the objectives of this proposal are to: 1) Examine the behavioral and physiological effects of TESS on upper-limb muscles after cervical SCI; and 2) Maximize the recovery of reaching and grasping potential by using tailored TESS in a task-specific manner with motor training. Veterans with cervical spinal injuries and healthy volunteers will be recruited for this study.
This trial will study the safety and efficacy of cultured allogeneic adult umbilical cord derived mesenchymal stem cells for the treatment of Spinal Cord Injury.
Previous studies have shown that the neuroplasticity of the residual corticospinal fibers, the motor cortex and the spinal neurons plays an important role in the spontaneous functional recovery of people with neurological or musculoskeletal pathology. However, it is also possible to stimulate the neuroplasticity mechanisms of these structures through techniques aimed at rehabilitating different deficits (for example, motor function or sensitivity). In general, intervention programs are usually carried out, in most cases, using low-cost strategies such as therapeutic physical exercise programs. The objective of this study is to analyze the effectiveness of visual illusion therapies in combination with conventional exercises on the symptoms and signs related to incomplete spinal cord injury that affects the upper limb. The study will include the realization of three measurements that will be carried out one day before starting the program, one day after finishing it, and one month later (follow-up). The clinical assessment will be composed of the study of the following variables: Motor function and motor skills, Upper limb isometric force, Muscle activation, Muscle tone, Quality of life, Functionality. All interventions will last eight weeks and will be planned according to the availability of volunteers. In each session, it will be recorded if any type of adverse effect occurs. There will be four types of interventions: i. Visual Illusion (IV) and therapeutic exercise program (PE), ii.placebo and PE, iii. IV, iv. IV placebo.
In this study patients with Multiple Sclerosis or Spinal Lesions will participate in two different types of treatments that aim to improve sexual and sentimental life. Behavioral (via questionnaires) and brain (via high-density electroencephalogram) effects associated with treatment will be studied.
The objective of this study is to advance personalized, portable, and non-invasive hand-grasp neuro-orthoses that restore naturalistic grasp functions for those with tetraplegia due to spinal cord injury (SCI), designed around their needs and preferences.
Study Design and Subject Recruitment: This was a cross-sectional study in a single centre outpatient setting at the Foot Care and Limb Design Centre, Tan Tock Seng Hospital. As this was a proof-of-concept clinical trial for the introduction of 3D printed AFOs as a patient service, only 5 subjects were recruited based on consecutive sampling. Interventions: Thermoformed AFOs moulded over the subject's lower limb plaster model served as the control intervention. The plaster models were rectified by an orthotist with over 20 years of experience and the AFO design was determined according to the subject's clinical presentation and needs. The AFOs were manufactured from 4 - 5mm thick homopolymer polypropylene. 3D printed AFOs served as the treatment intervention. It was fabricated through 3D scanning with an Artec Eva 3D scanner (Artec 3D, Luxembourg, Luxembourg) and an adjustable Perspex glass foot plate, CAD modelling with the OrtenShape software (Proteor, Saint-Apollinaire, France), and printed using fused deposition modelling with the Fortus 450mc (Stratasys, Minnesota, United States). The 3D printed AFO is printed of Polyamide Nylon-12 material in the same thickness as the thermoformed AFO. There were no blinding procedures as both interventions were distinctly different and it is not possible to blind subjects with daily use of the AFOs. Trial Schedule: A thermoformed and a 3D printed AFO were fitted to each subject in a single session. The QUEST survey was administered post-fitting. Subjects brought home both AFOs and were instructed to wear them during ambulation, alternating between the AFOs daily. Subjects returned for follow-up at 3 weeks and 6 weeks post-fitting for necessary adjustments and the administration of the QUEST surveys was repeated for each AFO.
Women with spinal cord injury frequently experience sexual dysfunction such as disturbances during arousal and an increased time to orgasm. However, little evidence has been found on its therapeutic approach and low adherence. To verify the effectiveness of two interventions: the application of genital vibration and transcutaneous stimulation of the tibial nerve. This is a randomized clinical trial. 54 women will be recruited who suffer from sexual dysfunction.
Spinal cord injury is caused by any harmful process in the spinal cord, impairing its function, generating loss of muscle strength, impairing orthostatism and walking. In rehabilitation, some strategies are used to activate the muscles involved in the gait of these individuals, including the ergometric bicycle and the elliptical. Understanding the pattern of muscle activation generated by these methods is important to answer questions arising from clinical practice. Thus, we seek to verify the pattern of muscle activation of the vastus laterals, vastus medialis, gluteus medius, tibialis previous, rectus abdominis and paravertebral muscles during exercises with ellipticals and ergometric bicycle with and without electromyography biofeedback in individuals with spinal cord injury. Cross-sectional study of the type crossover. Individuals will sign the Informed Consent Form (FICF) and answer the identification form. They will be evaluated for functionality using the Functional Independence Measure (FIM), injury classification by the American Spinal Injury Association (ASIA) and muscle tone by the modified Ashworth scale. Later, they will be randomized to define the order of the devices in which they will be evaluated. Muscle activity will be verified with electromyography of the paravertebral, abdominal, vastus laterals, vastus medialis, gluteus medius and tibialis anterior unilateral muscles on the right side of individuals, comparing muscle activation during exercise cycling, elliptical and adding biofeedback in both modalities. The wash-out interval between each evaluation will be 7 days. We hypothesize that the elliptical with biofeedback will cause greater activation of the assessed muscles.