View clinical trials related to Myalgic Encephalomyelitis.
Filter by:The term recovery from COVID-19 caused by SARS-CoV-2 is unverified because the infection leaves many symptoms due to permanent effects on multiple organs; The primary objective of this research is to understand acute and chronic long COVID symptoms by asking questions detecting patient's experience especially symptoms lasting for several months which is known as chronic fatigue syndrome(Myalgic encephalitis). The study focuses on symptoms describing Myalgic encephalitis which may still affect COVID patients for several months after the infection along with making a big picture about rare symptoms that may the patient experienced during or after the infection. A secondary objective of this research is to focus on the long-term sequelae effects and comorbidities following COVID-19 vaccination.
Myalgic Encephalomyelitis/Chronic Fatigue Syndrome (ME/CFS) is a neurological disease. Currently there is no effective treatment for ME/CFS due to unclear etiology of the disease. The aim of this randomized double-blind placebo-control clinical trial is to study the efficacy of the probiotic food supplement "GutMagnificâ„¢" in ME/CFS and comorbid gastrointestinal complications. The outcome of the study will be assessed based on the data from different self-reporting questionnaires and intestinal microbial flora analysis.
The purpose of this study is to examine cardiopulmonary function in Chronic Fatigue Syndrome (CFS) patients and determine how it relates to the common symptom of Post-exertional malaise (PEM). Subjects will complete a maximal exercise test on 2 subsequent days. Total blood volume will be measured prior to each exercise test, and patient with hypovolemia on day 1, will be randomized to either a saline or sham infusion prior to the 2nd exercise test. A total of 80 CFS patients will be enrolled.
This study is an 8-week single center, randomized, double-blind, placebo-controlled, flexible titration trial evaluating the efficacy of solriamfetol in the treatment of fatigue symptoms in adult patients with chronic fatigue syndrome. Subjects will be randomized to a solriamfetol group or placebo group. The investigators will utilize an intent to treat model and impute data. The overall goal of this study is to determine the efficacy and effectiveness of solriamfetol for treating chronic fatigue syndrome.
Chronic fatigue syndrome/myalgic encephalomyelitis (ME/CFS) is an unexplained multisymptom/multisystem disorder for which there are currently no validated treatments. The present exploratory clinical trial aims to advance our understand of the mechanisms of in situ GSH synthesis control through assessment of the response of brain GSH and plasma markers of oxidative stress to different doses of NAC in comparison to placebo, as a potential treatment for ME/CFS that would provide neuroprotection against oxidative stress by restoring cortical GSH reserves. If successful, this exploratory clinical trial would address a significant public health concern by shedding new light onto the mechanisms of action of NAC in brain GSH restoration, which could open a new avenue for the development of potentially effective treatments for a disorder, ME/CFS, that currently has none.
Chronic Fatigue Syndrome, also known as Myalgic Encephalomyelitis (CFS / MS) is a medical entity characterized mainly by debilitating and prolonged fatigue lasting more than 6 months, post-exertion fatigue (physical and / or mental), non-sleep restorative, cognitive impairment and orthostatic intolerance with prolonged recovery that is not relieved by rest. Currently, the etiopathogenic mechanisms of the disease are not known, although mitochondrial dysfunction with bioenergetic immuno-metabolism alterations, oxidative stress, and immuno-inflammatory response stands out. At present, there is no diagnostic test, nor effective treatment in the disease. ImmunoVita, is a food supplement composed of the latest yeast beta-glucans, in addition to vitamin D3, vitamin B6 and zinc, which could contribute to the normal functioning of the immune system and the inflammatory response.
This study seeks to correlate microbiome sequencing data with information provided by patients and their medical records regarding Myalgic Encephalomyelitis/Chronic Fatigue Syndrome (ME/CFS).
This study aims to collect and identify key outcome measures or disease parameters in ME/CFS that are altered during elevated symptoms relative to baseline by gathering information before and after symptom provocation using a two-day cardiopulmonary exercise test.
This is a single-center stratified (on gender and donor), block randomized, placebo-controlled, parallel group trial with 12-months follow-up of 80 chronic fatigue syndrome/encephalomyelitis (CFS/ME) participants. Participants will be randomized to treatment by preprocessed thawed donor fecal microbiota transplant or preprocessed thawed autologous fecal microbiota transplant. Primary endpoint is the efficacy of FMT at three months by the Fatigue Severity Scale. The investigators will use patient reported outcomes for primary and secondary outcome measures. Previous studies suggest that a dysbiosis of the gut microbiota may be a key feature in CFS/ME. We hypothesize that A: CFS/ME is caused by a dysbiosis in the gut flora causing barrier leakage of bacterial products, a low grade systemic immune activation and disturbances in the host energy metabolism. B: Recovery of a normal gut flora by fecal microbiota transplantation (FMT) alleviates symptoms and may even induce remission of CFS/ME. This project aims to determine if there is a true cause and effect relationship between a dysbiotic gut flora and CFS/ME by testing if treatment of the observed dysbiosis by FMT also can resolve CFS/ME symptoms. In this process, collection of blood, fecal, and urine samples before and after FMT will open the possibility to explore the relationship between the gut flora, immune response, host energy metabolism and CFS/ME using technologies of microbiomics, metabolomics and immunological characterizations for a better understanding of the pathobiology of CFS/ME.
Myalgic encephalomyelitis/Chronic fatigue syndrome (ME/CFS), otherwise known as Chronic fatigue syndrome (CFS) or myalgic encephalomyelitis (ME), is an under-recognized disorder whose cause is not yet understood. Suggested theories behind the pathophysiology of this condition include autoimmune causes, an inciting viral illness, and a dysfunctional autonomic nervous system caused by a small fiber polyneuropathy. Symptoms include fatigue, cognitive impairments, gastrointestinal changes, exertional dyspnea, and post-exertional malaise. The latter two symptoms are caused in part by abnormal cardiopulmonary hemodynamics during exercise thought to be due to a small fiber polyneuropathy. This manifests as low biventricular filling pressures throughout exercise seen in patients undergoing an invasive cardiopulmonary exercise test (iCPET) along with small nerve fiber atrophy seen on skin biopsy. After diagnosis, patients are often treated with pyridostigmine (off-label use of this medication) to enhance cholinergic stimulation of norepinephrine release at the post-ganglionic synapse. This is thought to improve venoconstriction at the site of exercising muscles, leading to improved return of blood to the heart and increasing filling of the heart to more appropriate levels during peak exercise. Retrospective studies have shown that noninvasive measurements of exercise capacity, such as oxygen uptake, end-tidal carbon dioxide, and ventilatory efficiency, improve after treatment with pyridostigmine. To date, there are no studies that assess invasive hemodynamics after pyridostigmine administration. It is estimated that four million people suffer from ME/CFS worldwide, a number that is thought to be a gross underestimate of disease prevalence. However, despite its potential for debilitating symptoms, loss of productivity, and worldwide burden, the pathophysiology behind ME/CFS remains unknown and its treatment unclear. By evaluating the exercise response to cholinergic stimulation, this study will shed further light on the link between the autonomic nervous system and cardiopulmonary hemodynamics, potentially leading to new therapeutic targets.