View clinical trials related to Transverse Myelitis.
Filter by:The aim of this study is to evaluate the therapeutic benefits of a 10-week online coach-guided EEWP on psychosocial health among adults with SCI.
This protocol proposes to investigate genetic factors that may be involved in the pathogenesis of adverse events of interest with selected covid-19 vaccines: vaccine-induced immune thrombotic thrombocytopenia, and neurological adverse events, such as Guillain-Barré syndrome, acute disseminated encephalomyelitis and transverse myelitis, with the intention of identifying useful biomarkers in identifying people at higher risk, thus reducing the occurrence of these serious adverse events (SAE).
Robotic therapies aim to improve limb function in individuals with neurological injury. Modulation of robotic assistance in many of these therapies is achieved by measuring the extant volitional strength of limb muscles. However, current sensing techniques, such as electromyography, are often unable to correctly measure the voluntary strength of a targeted muscle. The difficulty is due to their inability to remove ambiguity caused by interference from activities of neighboring muscles. These discrepancies in the measurement can cause the robot to provide inadequate assistance or over-assistance. Improper robotic assistance slows function recovery, and can potentially lead to falls during robot-assisted walking. An ultrasound imaging approach is an alternative voluntary strength detection methodology, which can allow direct visualization and measurement of muscle contraction activities. The aim is to formulate an electromyography-ultrasound imaging-based technique to sense residual voluntary strength in ankle muscles for individuals with neuromuscular disorders. The estimated voluntary strength will be involved in the advanced controller's design of robotic rehabilitative devices, including powered ankle exoskeleton and functional electrical stimulation system. It is hypothesized that the ankle joint voluntary strength will be estimated more accurately by using the proposed electromyography-ultrasound imaging-based technique. And this will help the robotic rehabilitative devices achieve a more adaptive and efficient assistance control, and maximize the ankle joint rehabilitation training benefits.
The Swiss-Ped-IBrainD is a national patient registry that collects information on diagnosis, symptoms, treatment, and follow-up of pediatric patients with an inflammatory brain disease in Switzerland. It was first implemented in 2020 in the pediatric clinic of the university hospital in Bern. Further centers all over Switzerland were opened for recruitment in 2021; Aarau, Basel, Bellinzona, Chur, Geneva, Lausanne, Lucerne, St. Gallen, and Zurich. The center in Winterthur is expected to be open for recruitment by autumn 2021. The registry provides data for national and international monitoring and research. It supports research on inflammatory brain diseases in Switzerland and the exchange of knowledge between clinicians, researchers, and therapists. The registry aims to improve the treatment of children with inflammatory brain diseases and optimizing their health care and quality of life.
The UAB Institute for Arts In Medicine (AIM) is currently implementing an expressive emotional writing pilot project for adults with paralysis caused by neurological conditions such as traumatic head or spinal cord injury.
This study is a non-randomized, open-label, partially blinded, sequential cohort, dose-escalation study designed to obtain preliminary data on the safety, tolerability, and early activity of Q-Cells® transplantation in subjects with Transverse Myelitis. For each of the dose levels, transplantation of Q-Cells® unilaterally into spinal cord demyelinated lesions will be evaluated. Subjects will be blinded to side of treatment. Idiopathic Transverse Myelitis is a monophasic disorder characterized predominantly by demyelination. Patients are left with disability from damage to ascending and descending white matter tracts. Q-Cells® are comprised of glial progenitor cells.It is postulated that the Q-Cells® glial progeny (healthy astrocytes and oligodendrocytes) will integrate into the spinal cord lesion site and remyelinate demyelinated axons as well as provide trophic support for damaged axons. Therefore, Q-Cells® have the potential to repair damage that has occurred and could be clinically useful for patients with disability caused by TM. The study is planned to enroll up to 9 subjects. Each subject will be followed for 9 months after transplantation of Q-Cells®. Each subject will receive a single time point administration of Q-Cells®: with transplantation foci targeted to posterior columns in the spinal cord (all transplantation foci below C7) on one side. Study participation consists of Screening, Pre-operative/Treatment, and Post-treatment study periods that will generally last from 9 to 12 months in total. The study data will be assessed for safety and activity until the last subject has completed the 9-month study visit. Following completion of the 9-month follow-up period, subjects who consent will continue to be followed for safety and activity in a separate long-term follow-up protocol.
This study seeks to determine the biologic causes of inflammation in patients with Transverse Myelitis (TM) Neuromyelitis Optica Spectrum Disorder (NMOSD) and related conditions. While patients will be treated according to decisions with their treating physician, this study will collect data and samples from patients prospectively to gain a better understanding of the disease. We are seeking to understand why some patients respond to medications, while others do not. We also seek to understand what happens biologically, preceding relapses. Gathering these data and samples will allow researchers to identify new ways of diagnosing and treating these diseases. Data and samples will be shared with researchers around the world to support collaborative efforts to treat these conditions.