View clinical trials related to Encephalomyelitis.
Filter by:The aim of this study is to establish a real-world clinical neuroimmune disease research cohort, to follow up and observe the prognosis of patients with different subtypes and subgroups, and to provide support for the treatment, early warning, and outcome prediction research of neuroimmune diseases.
The aim of this 16-week pilot randomized trial is to explore the potential benefit of the OTC supplement hydrogen water, for the symptoms of chronic fatigue syndrome (CFS). Methods: This 16-week home-based trial will compare two groups: (1) low dose hydrogen water (2-3 glasses/day) for all 16 weeks; and (2) low dose followed by high dose hydrogen water (up to 5 glasses/day). Condition (2) involves an initial 8 weeks of low dose H2 followed by 8 weeks of high dose H2 in order to test the premise that the higher dosage will be more effective with fewer adverse effects if preceded by several weeks of low dose H2. Outcomes measures will include online assessments of fatigue, physical function and stress. A salivary biomarker for oxidative stress, Uric Acid, will also be assessed.
This clinical study aims to evaluate the use of i3.1 probiotic in participants who meet the Institute of Medicine (Canadian Consensus Criteria) case definition for ME/CFS and who may or may not be diagnosed with irritable bowel syndrome (IBS). The main questions it aims to answer are: - how effective is the usage of the i3.1 probiotic to reduce gastrointestinal (GI) inflammation and normalize the GI and systemic/brain interface? - how well is it working on IBS severity? The study sample is 100 male and female participants aged 45 to 70 years with ME/CFS (per the Canadian Consensus Criteria); one-half of the participants will have co-morbid IBS (per Rome IV criteria). Participants will receive an i3.1 or a placebo and be assessed at baseline, at eight weeks, and at 12 weeks (four weeks post-treatment completion).
The Munich cohort study MUC-CFS aims at the characterization and long-term follow-up of myalgic encephalitis/chronic fatigue syndrome (ME/CFS) in young people aged up to 25 years, as well as at the identification of pathomechanisms, biomarkers, and targets for future treatment approaches.
It is a one-arm open-label interventional study with transcranial direct current stimulation in an remote home-based setting with the aims to evaluate the feasibility (usability of the device, compliance of patients, usability of the teletherapy), the effectiveness (clinical ratings) and the compatability of this intervention in 20 patients with myalgic encephalomyelitis/chronic fatigue syndrome.
Chronic fatigue syndrome (syn. myalgic encephalomyelitis or ME/CFS) is a relatively common, but pathogenetically still insufficiently understood, complex, severe, chronic disease. It has been classified by the WHO as a neurological disorder (ICD-10 G93.3). The leading symptoms are pathological exhaustion (fatigue) and prolonged, inadequate deterioration of condition after exertion (syn. post-exertional malaise or PEM). In addition, pain, sleep disturbances, flu-like symptoms, and cognitive, autonomic, and neuroendocrine symptoms are typically found. In the majority of patients*, the trigger is a viral disease, including infectious mononucleosis caused by Epstein-Barr virus (EBV), which is particularly common in young patients, but also influenza or coronavirus disease 2019 (Covid-19) at any age. Causative factors are discussed to be autoimmune mechanisms as well as a genetic predisposition. The general activity level and quality of life of patients are usually significantly reduced due to the disease. A large proportion of those affected are confined to a wheelchair, home or bed. ME/CFS is one of the most common reasons for long absences from school due to illness. Because no reliable biomarkers are available, ME/CFS is a diagnosis of exclusion. The diagnosis is made using internationally established clinical criteria and after careful differential diagnosis. To date, no causal, but only symptom-oriented, non-standard treatment approaches are found. With appropriate care, the prognosis in childhood and adolescence is better than in adults. Long-term recovery is possible in two-thirds of young patients, whereas less than one-third of adult patients can expect recovery. In Germany, there are currently two special outpatient clinics for patients with ME/CFS, one for adult patients* at the Charité Fatigue Centrum in Berlin, headed by Prof. Scheibenbogen, and one for children, adolescents and young adults up to 25 years of age at the ME/CFS focus of the Children's Polyclinic of the MRI of the TUM in Munich, headed by Prof. Behrends. A joint data collection of these ME/CFS centers has not been established. The proposed ME/CFS registry study (MECFS-R) is intended to initially pool medical data from specialized routine care on a bicenter basis and, after recruitment of additional German centers, on a multicenter, longitudinal, and web-based basis, as extensive as possible, and to make this data available for research. Following the example of already well-established European registry studies (e.g., the ESID registry of the European Society for Immunodeficiencies), digital data acquisition should take place in a tiered approach according to cost-benefit analysis. Medical institutions can decide, based on capacity, whether a clearly defined core data set (level 1) or more complex data sets (level 2 or 3) should be digitally captured. The digital implementation is to be carried out in collaboration with the Munich-based IT company Bitcare, whose database concepts have proven successful in the context of the Transplantation Cohort (Tx Cohort) of the German Center for Infection Research (DZIF) or the Covid-19 study of the MRI of TUM (COMRI) and with whom the team at the MRI of TUM has been working successfully for many years. The aim of the MECFS-R is to accurately describe the clinical picture and its course in Germany clinically and epidemiologically as well as to derive epidemiological or medical risk factors, if applicable, and to define subcohorts for future treatment approaches.
To further characterize Long COVID-19 by collecting data from individuals who already own wearable devices or are provided with a wearable device along with basic and enhanced educational materials to determine if both can improve Long COVID-19 symptom management and post-exertional malaise.
Microparticles (MPs) as a mode of therapeutic delivery can selectively deliver immunomodulatory treatment to the phagocytic cells, particularly dendritic cells (DCs), inducing their tolerogenic phenotype and function and T regulatory (Treg) cell expansion. The study will characterize the in vitro response of cGAMP immunomodulator incapsulated microparticles on the capacity of DCs and Tregs to regulate the inflammatory response.
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).
The aim of the study is to investigate the effects of oral melatonin and zinc supplementation on core features in individuals with ME/CFS