View clinical trials related to Fatigue Syndrome, Chronic.
Filter by:In recent years, it has been suggested that nutritional deficiencies may be of causal relevance in individuals with ME/CFS. These include deficiencies of vitamins and trace elements. It is likely that the observed nutritional deficiencies contribute to the core symptoms of the disease. Coenzyme Q10 (CoQ10) has been studied as an alternative and complementary therapy in ME/CFS for fatigue, pain, tiredness, neurocognitive impairment, and sleep problems. This demonstrates how alterations in energy metabolism, mitochondrial dysfunction, oxidative stress, imbalance of the immune-inflammatory response, and activation of the NLRP3 inflammasome are likely consequences of low levels of CoQ10 and selenium, which are related to the main symptoms in ME/CFS. Hypothesis: CoQ10 and selenium levels are decreased in ME/CFS patients. A natural therapeutic alternative in the treatment of common symptoms in ME/CFS could be the oral CoQ10 (Ubiquinone) plus selenium supplementation to module redox status and inflammation response in ME/CFS. Aims: To evaluate the efficacy of oral Ubiquinone + selenium supplementation on clinical outcome and circulating biomarkers in ME/CFS. We enrolled 42 ME/CFS patients diagnosed according to the 1994 CDC/Fukuda criteria who have received oral treatment of 400 mg Ubiquinone + 200 microgram selenium daily for 8 weeks. Demographic, clinical characteristics and laboratory variables, and validated outcome measures to perceived fatigue, sleep disturbances, and quality of life will be also evaluated. In addition, plasma biomarkers related to oxidative stress status (total antioxidant capacity and lipoperoxide levels), inflammatory response (pro-and anti-inflammatory cytokines), and cardiovascular dysfunction (FGF-21 and NT-proBNP) will be assayed.
Preliminary research from our group indicates that up to half of COVID-19 patients are experiencing symptoms consistent with severe fatigue a median of 10 weeks after their initial illness, while almost one third of those previously employed have not returned to work. At present, most clinical and research measurements of fatigue have relied upon self-reported perception of sensations such as exhaustion or weariness. Using such tools, there is an inherent challenge for clinicians in differentiating between patients who are experiencing fatigue at a psychosocial level, versus those who are actively physiologically and neurocognitively deconditioned. The TROPIC study will use our existing clinical expertise and technology assisted solutions to address features of post-COVID-19 fatigue by quantifying physiological signatures of adverse sequelae in adult patients previously diagnosed with COVID-19, who are now COVID-19 negative. Our suite of assessments will encompass four systems; physical deconditioning, orthostatic instability, neurocognitive deficits and respiratory sequelae. This will not only inform accurate objective diagnostics of post-COVID-19 Chronic Fatigue Syndrome, but will also guide clinicians in directing the most appropriate therapeutic interventions with maximum efficacy and specificity, bringing not only patient-related but also health system and economic benefits.
The proposed placebo-controlled pilot study will examine hydrogen water as a treatment for myalgic encephalomyelitis/chronic fatigue syndrome (ME/CFS). 25 subjects who meet strict criteria for ME/CFS will be recruited. The 30 day trial will involve subjects ingesting 1-5 8 oz. glasses of hydrogen-dissolved water per day. The placebo condition will involve the same daily ingestion schedule but with an inert placebo pill instead of the active hydrogen treatment pill. The proposed study is intended to establish feasibility of the clinical protocol and examine potential treatment effects of hydrogen water which may include symptom reduction and possibly improved functioning. If feasibility and apparent treatment effects are confirmed, a large clinical trial will be proposed for submission to NIH. In addition to potential therapeutic properties, H2 water is portable, easily administered and safe to ingest. Self-report assessments for ME/CFS symptoms, fatigue, autonomic symptoms, physical function, anxiety, and depression will be done in the week before and the week after the 30 day trial. In addition, 7-day home-based objective assessments of heart rate variability (a measure of parasympathetic function) and accelerometry (a physical activity assessment) will be scheduled before and after the intervention period.
Coronavirus disease 2019 (COVID-19) is a serious respiratory disease that results from infection with a newly discovered coronavirus (SARS-COV-2). Unfortunately, COVID-19 is not only a short-term infection but that patients (pts) recovering from SARS-COV2 infection complain of persisting symptoms including: fatigue, diffuse myalgia and weakness, which may lead to chronic fatigue syndrome. There is currently no evidence that nutritional supplements and/or physical exercise can assist in the recovery of pts with chronic fatigue syndrome. 1-Methylnicotinamide (1-MNA) is an endogenic substance that is produced in the liver when nicotinic acid is metabolized. 1-MNA demonstrates anti-inflammatory and anti-thrombotic properties. Therefore, we investigated whether 1-MNA supplements could improve exercise tolerance and decrease fatigue among patients recovering from SARS-COV-2.
To collect blood and urine samples from patients with Chronic Fatigue Syndrome (CFS), myalgic encephalomyelitis (ME), and SEID (Systemic Exertion Intolerance Syndrome) and controls for genomic, viral and metabolomic testing.
Even though, current treatments including IVIG, corticosteroids, biological agents can provide positive effects on MS symptoms, MS cannot be cured completely today. Therefore, in addition to the available medical treatment options, patients may tend towards complementary and integrative therapies. Relaxation techniques are one of the non-pharmacological and side-effect-free therapy options that are currently used to alleviate the symptoms of many different chronic diseases. Progressive muscle relaxation exercise (PMR) and Benson relaxation technique (BRT) are two common types of relaxation techniques recommended for symptom management in chronic diseases owing to simple to learn and apply compared to other complementary and integrative methods for patients. PMR is uncomplicated and low-cost method, originally designed by Jacobson (1938), which helps individuals to feel calmer through consecutive muscle tension and relaxation of a muscle group. This method can relieve muscle tension, facilitate sleep, and reduce severity of pain and fatigue. There are studies in the literature reporting the positive effects of PMR on fatigue, sleep quality, quality of life, anxiety and stress in MS patients. One of these techniques which is well tolerated is BRT, designed by Herbert Benson in the 1970s as a nonpharmacologic and behavioral method. This technique led to relaxation using mental imagery and mediation. BRT creates a relaxation influence in the body by decreasing the sympathetic nervous system activity and increasing the parasympathetic nervous system activity. There are few studies in the literature reporting that BRT is beneficial on pain and fatigue in MS patients.To the best of our knowledge, there is no study on the impact of relaxation techniques on pain, fatigue and kinesophobia in MS patients. The aim of this study was to examine and compare the effects of PMR and BRT on abovementioned symptoms in MS patients.
COVID-19 survivors commonly exhibit a marked extra-respiratory complication affecting the cardiac (arrhythmias and myocardial injury), renal (acute kidney injury), gastrointestinal, nervous (neuropathy, encephalopathy), endocrine and musculoskeletal (weakness, pain, and fatigue) systems. In this context, several studies have found that resistance training intervention promotes important health-related benefits, including cardiac function, compared to aerobic exercise training. Other exercise adaptations include increased skeletal muscle metabolism function, yet physio/psychological adaptations are known to be limited in COVID-19 survivors. Hence, given that resistance training intervention is implemented in a manner that is tolerable to the individual patient, it may be a potential beneficiary "personalized" rehabilitation treatment for patients with COVID-19 syndrome ambulatory. The "EXER-COVID Clinical Study" project aims at determining the role of personalized exercise intervention in the treatment of post-COVID-19 syndrome ambulatory patients.
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.
Chronic fatigue syndrome is a common problem in society. The treatment of this problem is limited. Acupressure is a treatment method that has become widespread and promising in recent years. For this purpose, the effect of acupressure treatment on chronic fatigue syndrome was investigated.
A retrospective study on clinical and radiological findings in ME/CFS