View clinical trials related to Fatigue Syndrome, Chronic.
Filter by:There is no approved treatment for fatigue in Myalgic Encephalomyelitis/Chronic Fatigue Syndrome (ME/CFS), a condition with as many as 2.5 million people in the US. Initial case studies have shown an improvement in fatigue in ME/CFS with anhydrous enol-oxaloacetate (AEO). This randomized, double blinded, placebo controlled trial will seek to further evaluate the efficacy of AEO to reduce fatigue in ME/CFS, based on change in the Chalder Fatigue Score (Likert Scoring) of the AEO group against the placebo group at 90 days. As secondary evaluations on other core ME/CFS symptoms, the investigators are measuring the health related quality of life as assessed by the SF-36, hours of upright activity, functional capacity (activity, steps, cognition, and heart rate variability), and general health status (global change, vitals) Finally, this test will gain preliminary insights on the safety, tolerability, and efficacy of AEO in ME/CFS patients.
Chronic fatigue syndrome/Myalgic encephalomyelitis (CFS/ME) can be a serious and disabling condition with a heavy symptom burden and low function. Work disability is common, and social life dramatically affected. CFS/ME is a challenging health problem as well as a societal problem. In recent years, a doubling of the number of patients with a CFS/ME diagnoses has been reported in Norway. The patient group represents a challenge for the health care system, the municipality, and the Norwegian Labour and Welfare Organization (NAV). According to new figures, the NAV pays 100 million Norwegian Kroner (NOK) each month in permanently incapacitated expenses for people with CFS/ME. Municipalities have expenses in form of care, rehabilitation and other measures. There is a lack of effective treatment for CFS/ME. Evidence-based knowledge is highly needed. If the 3-day course shows promising effects, this could have positive consequences for patients, relatives and health personnel, but also financially for the society and the municipality.
Rationale: A common feature in patients with Post-Acute Sequelae of SARS-CoV-2 Infection (PASC) and Myalgic encephalomyelitis/chronic fatigue syndrome (ME/CFS) are skeletal muscle-related symptoms, such as muscle pain, weakness, fatigue and post-exertional malaise. Objective: The primary aim is to determine markers for skeletal muscle structure and function, and circulating factors, in patients with PASC and ME/CFS, and compare with controls. The secondary objective is to determine skeletal muscle structure and function before and after induction of post-exertional malaise, and assess the relationships between the measures obtained from muscle biopsies and parameters of exercise tolerance. Study design: Case-control observational study Study population: Patients with PASC, ME/CFS and healthy human volunteers, 18 - 65 yr old. Intervention (if applicable): none Main study parameters/endpoints: Primary outcome parameters are markers for local inflammation, viral infiltration, mitochondrial respiratory function and myokine concentrations in a muscle biopsy and venous blood before and after induction of post-exertional malaise. Heart rate variability and measures of exercise performance will also be determined. Nature and extent of the burden and risks associated with participation, benefit and group relatedness: Participants will be asked to perform physical exercise tests, give muscle biopsies (2 samples), and various blood samples. There is some extent of burden and risk associated with harvesting muscle biopsies and blood samples, however this will be mitigated by the fact that these procedures will only be carried out by trained physicians. Moreover, the scientific gain from obtaining intracellular information outweighs these relatively quick procedures with minimal discomfort afterwards. The acute risks of the physical exercise measurements are negligible. The main risk for patients is that these patients often suffer from post-exertional malaise, which causes the participants to feel fatigued for some time after the maximal exercise test. It is one of the aims to better understand post-exertional malaise.
Coronavirus-2019 (COVID-19) is a viral disease leading to respiratory dysfunction, but it may also affect the brain and result in the development of myalgic encephalomyelitis/chronic fatigue syndrome (ME/CFS). This may be the result of the COVID-19 virus infecting regions of the brain responsible for respiratory control. The symptoms of COVID-19 long haulers and ME/CFS may be lessened via an 8-week inspiratory muscle training protocol which is a simple and easy training protocol which can be done at a patient's home. Thus, this project will investigate changes in the breathing and cardiovascular responses to stimuli in three groups of participants: 1) healthy control individuals; 2) patients diagnosed with ME/CFS (mild to moderate symptoms); and 3) individuals with previous COVID-19 infection with long-haul symptoms lasting for at least 3 months. Participants will 1) breathe hypoxic gas (10% O2) for 5 minutes; 2) breath hypercapnic gas (5% CO2) for 5 minutes; 3) breathe at a rate of 6 breaths per minute for a total of 8 breaths (paced deep breathing); and 4) complete 10 minutes upright tilt (70 degrees head up on a tilt-table). Patients will also complete 2 questionnaires concerning their symptoms and a 15 minute cognitive function test on a lab laptop. This will allow for the assessment of the brain's control over blood pressure and breathing. Participants will also complete a 6-minute walking exercise test at their own speed as a measure of their aerobic fitness. We hypothesize that COVID-19 survivors will have a worse cardiovascular and autonomic response and lower fitness, similar to ME/CFS patients, compared to healthy participants.Further, this will be improved after 8-weeks of inspiratory muscle training. These results may help clinicians recognize ME/CFS symptoms in patients recovering from COVID-19.
Chronic fatigue syndrome/myalgic encephalomyelitis (CFS/ME) is a distinct disease entity with an estimated prevalence of 0.3-0.7% and more common in women (3:1 ratio). It can be diagnosed according to the Institute of Medicine (IOM) 2015 consensus definition using 3 major criteria and one of 2 minor criteria. Diagnosis requires that the patient have the following three symptoms: 1. A substantial reduction or impairment in the ability to engage in pre-illness levels of occupational, educational, social, or personal activities that persists for more than 6 months and is accompanied by fatigue, which is often profound, is of new or definite onset (not lifelong), is not the result of ongoing excessive exertion, and is not substantially alleviated by rest, 2. Post-exertional malaise,* and 3. Unrefreshing sleep* At least one of the two following manifestations is also required: 1. Cognitive impairment* or 2. Orthostatic intolerance Note* Frequency and severity of symptoms should be assessed. The diagnosis of ME/CFS should be questioned if patients do not have these symptoms at least half of the time with moderate, substantial, or severe intensity. Currently, individually tailored therapy with emphasis on cognitive behavioral therapy and graduated activity therapy is considered the therapy of first choice, although their effectiveness has been critically questioned in recent years. There are often frustrating treatment courses, a larger proportion of partial remissions, a significantly smaller proportion of full remissions and return to work. The study aims to evaluate patients of the outpatient service for chronic fatigue at the Department of Consultation-Liaison Psychiatry and Psychosomatic Medicine, University Hospital Zurich, Switzerland, in the context of a group therapy for the treatment of CFS/ME in respect to the response to different, non-drug based therapeutic procedures and to gain knowledge about the effects of the therapy. The study is a clinical comparative study of therapeutic procedures/interventions without the use of drugs or a medical product. The interventions are Acceptance Commitment Therapy (ACT) and Micro Breaks in Everyday Life (MBEL) adapted to CFS/ME. The collection of biological samples (saliva, blood) and health-related personal data (actigraphy, psychometric data from questionnaires) is associated with minimal risks and burdens.
The primary objective of the present research is to determine the effectiveness of Family Health Center of San Diego's Long COVID and Fatiguing Illness Recovery Program (LC&FIRP) on clinician- and patient-level outcomes. LC&FIRP is comprised of a teleECHO program focused on multi-specialty case-consultation and peer-to-peer sharing of emerging best practices to support management of complex cases associated with Long COVID, Myalgic Encephalomyelitis/Chronic Fatigue Syndrome (ME/CFS), and other post-infectious fatiguing illnesses (PIFI). Our secondary objective is to determine the feasibility, acceptability, and sustainability of LC&FIRP. Our findings should provide a fuller understanding of the potential impact of innovative technology enabled multi-disciplinary team-based care models in low-resource, community-based primary care settings.
The aim of the study is to compare the effectiveness of two models of rehabilitation: - traditional neurological rehabilitation, and - neurological rehabilitation combined with a rehabilitation robot (Luna by EGZOTech). An additional goal is to test the qualitative diagnostic reference using the surface electromyogram of the Luna robot (certified as a Medical Device) for functional diagnostics based on standardized clinical tests.
The present study is a randomized controlled trial (RCT) with an overall objective to examine the effect of an interdisciplinary complex intervention on the level of fatigue in lymphoma survivors with chronic fatigue. Secondary aims are to examine the effects of the intervention on daily functioning, work status/ability, physical fitness and QoL among the survivors, on QoL of their relatives and on the societal costs.The intervention will last for 12+12 weeks and include four components; patient education, supervised physical exercise, cognitive behavioral program and nutritional counselling. Outcomes will be assessed at baseline,post-intervention (12 weeks after baseline) and at 3-month, 6-month, 12-month and 24-month follow-up after completed intervention.
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.
Severe Acute Respiratory Syndrome Coronavirus 2 (SARS-CoV-2) causing coronavirus disease, Covid-19, has spread rapidly across the globe since its emergence in January 2020. As of January 2021, there are 87.6 million confirmed cases worldwide, with 1.9milion deaths. In conjunction with this high disease incidence, there have also been reports of Covid-19 related sleep disordered breathing, with up 18% in a Chinese study and 57% in an Italian study of individuals with Covid-19 reporting sleep disturbance. Obstructive Sleep Apnea (OSA) is a common, chronic condition due to partial or complete upper airway collapse during sleep. OSA is more common in males & obese individuals, both of which are more adversely affected by SARS-CoV-2 infection. Furthermore, inflammation of the upper airway, or nasal passages leading to congestion could lead to a compromised upper airway during sleep and subsequently, obstructive sleep apnea. We believe that's SARS -CoV-2 infection, and subsequent Covid-19 will lead to an altered microbiome in the upper airway. This is turn will lead to worsening nasal inflammation and congestion, which could predispose individual with previous Covid-19 disease to OSA. Additionally, OSA is treated with Continuous Positive Airway Pressure (CPAP) a machine which delivers pressurized air into the upper airway via a face mask. This keeps the upper airway open during sleep. When CPAP is well tolerated by individuals, it works well to reduce the symptoms of OSA. Unfortunately, many patients find it difficult to tolerate CPAP. One reason often reported for poor tolerance is nasal congestion. We believe that an altered upper airway microbiome, due to previous SARS-CoV-2 infection, will affect treatment adherence to CPAP therapy. Secondly, we will investigate if treatment with CPAP therapy causes any change in the upper airway microbiome.