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Clinical Trial Summary

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.


Clinical Trial Description

1. INTRODUCTION AND RATIONALE Post-Acute Sequelae of SARS-CoV-2 Infection (PASC) and Myalgic Encephalomyelitis/Chronic Fatigue Syndrome (ME/CFS) are severely debilitating diseases mainly characterized by chronic fatigue, post-exertional malaise (PEM) and cognitive impairment with autonomic, neuro-endocrine, immunological and cognitive involvement(Davis et al. 2021; Deumer et al. 2021; Soares et al. 2022). The clinical presentation of both diseases is remarkably overlapping. Particularly, skeletal muscle-related complaints, such as extreme fatigue, muscle weakness and muscle pain, are symptoms that tremendously decrease the patients quality of life and overlap in both patient groups, The key symptom, PEM, distinguishes PASC and ME/CFS from other more common fatigue conditions and is characterized by worsening or relapse of symptoms (including sleep dysfunction, cognitive impairment and extreme skeletal muscle fatigue) after physical activity, which can last for days or weeks(Davis et al. 2021; Soares et al. 2022; Stussman et al. 2020). We recently reviewed the skeletal muscle alterations in both acute SARS-CoV-2 infection and patients with Long COVID, and concluded that post-exertional malaise in patients with Long COVID cannot be explained by current knowledge on skeletal muscle structure and function(Soares et al. 2022). A possible lead to the understanding of PEM in Long COVID and ME/CFS pathophysiology is provided by the observation that most cases appear to have an infectious onset(Choutka et al. 2022; Magnus et al. 2015; Tsai et al. 2014). Following SARS-CoV-2 infection, 10-30% of patients exhibit post-infectious fatigue syndrome, called Long COVID or post-COVID condition(Ballering et al. 2022). PEM is the hallmark symptom of Long COVID and ME/CFS and a criterion for CCC, ICCC and IOM case definitions. Little is known about the underlying pathophysiology of skeletal muscle abnormalities, including PEM. No treatment options are available, apart from the advice to patients to avoid exercise or exercise below an (unknown) threshold. Due to the heterogeneity of patients, these muscle-related symptoms may vary dramatically, and is likely multifactorial in nature. Whilst long-term consequences of hospitalization are known, the widespread incidence of muscle-related symptoms suggests that skeletal muscle adaptations seen in non-hospitalized patients with PASC and ME/CFS stand apart from those seen in critical illness myopathy. The muscle weakness can range from mild to severe, and such symptoms may persist long after the viral infection has resolved. The high prevalence of skeletal muscle-related symptoms hint towards structural and functional alterations in skeletal muscle in patients with PASC and ME/CFS(Kerkhoff et al. 2022; McGregor et al. 2019; Noor et al. 2021). In this study, we aim to study alterations in intracellular skeletal muscle structure and function and the immune response that will help to explain why patients with PASC and ME/CFS suffer from post-exertional fatigue. 2. OBJECTIVES To obtain insight whether skeletal muscle adaptations can explain post-exertional fatigue malaise in patients with PASC and ME/CFS, the present study will address the following objectives: Primary objectives: • To determine markers for skeletal muscle structure and function (such as mitochondrial ultrastructure and function, viral infiltration, metabolite concentrations, myokine secretion), the immune response and circulating myokines (muscle-derived molecules), in non-hospitalized patients with PASC, ME/CFS and healthy controls. Secondary objectives: • To determine each of the above variables both before and after induction of post-exertional malaise, and assess the relationships between the measures obtained from muscle biopsies and parameters of exercise tolerance. 3. STUDY DESIGN 3.1. General. Case-control study with assessments before and after an induction of post-exertional malaise. 26 PASC patients, 26 ME/CFS patients and 30 matched healthy controls who have recovered from a SARS-COV-2 infection will be recruited for the study. Participants are required to visit the laboratory for a total of 5 experimental sessions, for a total duration of approximately 8 hours. Four measurements will take place within a time window of 2 weeks. On day 10, patients will fill in a digital questionnaire. The last time point will be 1 year after the start of the study. See Figure 1 for an overview of study design. 26 participants with PASC and 26 patients with ME/CFS (equal split between sexes) between the ages of 18-65 yrs will be recruited for the study. 30 healthy participants matched for age BMI and preferably physical activity levels will be included as a control group Participants will be required to visit the laboratory on 4 separate occasions over a 2 week period immediately prior to and following a maximal exercise test. One year (± three months) we will require one additional visit. After the first visit, participants will be asked to confirm dates for the subsequent visits over the next 2 weeks face-to-face in the laboratory. Participants will be instructed not to consume alcohol or perform strenuous exercise within the 24 h preceding each exercise test, and to abstain from caffeine consumption for at least 3 h. 4. STUDY POPULATION 4.1 Population 26 non-hospitalized participants with diagnosed PASC, 26 ME/CFS patients and 30 healthy participants of similar sex, age, BMI and preferably current physical activity levels between the ages of 18-65 years old will be recruited to the study. All participants with PASC will be recruited from the outpatient clinic of the Amsterdam UMC, ME/CFS patients will be recruited through ME/CFS specialists in the Netherlands, whereas healthy controls will be recruited via specific social media groups, through personal networks and/or posters. All testing will be conducted at the Faculty of Behavioural and Movement Sciences, Vrije Universiteit Amsterdam, Amsterdam under the direct supervision of BA or MvV from the Amsterdam UMC. Therefore, participants should be currently residing in or willing to travel to Amsterdam. ;


Study Design


Related Conditions & MeSH terms


NCT number NCT05225688
Study type Observational
Source Academisch Medisch Centrum - Universiteit van Amsterdam (AMC-UvA)
Contact Michele van Vugt, Prof.
Phone 020 566 9111
Email m.vanvugt@amsterdamumc.nl
Status Recruiting
Phase
Start date January 3, 2022
Completion date December 1, 2025

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