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Exercise Intolerance in Post-COVID Patients
Sponsor: Karolinska Institutet
Summary
The post-COVID syndrome poses an unprecedented challenge to modern society, affecting millions of people worldwide. Persistent fatigue and exercise intolerance are among the most common complaints of these subjects. The mechanisms of exercise intolerance in post-COVID subjects are remained yet unknown, which make the rehabilitation efforts complex and challenging. The overall goals of this project are to: 1) improve physiological understanding of symptoms in this clinical condition, 2) elucidate plausible mechanisms to explain exercise intolerance/symptom exacerbation, and finally 3) provide knowledge that can be directly applied in the clinical setting to improve diagnosis, care, and individualized rehabilitation of subjects with post-COVID syndrome. Post-COVID subjects and age/sex matched healthy controls will undertake a comprehensive set of physiological and functional assessments, followed by 3 experimental visits (in a randomized order), where acute exercise responses will be assessed in either continuous moderate intensity aerobic exercise, high intensity interval exercise, or strength training. The same set of physiological assessments will also be performed after 1 year in both post-COVID subjects and healthy-matched controls to better understand the time course of the syndrome. It is hypothesized that the mechanism responsible for exercise intolerance is linked to specific symptoms and will vary across subjects. However, it is expected that most post-COVID subjects will respond well to at least one type of exercise.
Official title: Physiological Characterization of Functional Limitations and Exercise Intolerance in Post-COVID Patients
Key Details
Gender
All
Age Range
18 Years - 64 Years
Study Type
INTERVENTIONAL
Enrollment
62
Start Date
2022-09-01
Completion Date
2025-12-31
Last Updated
2025-09-03
Healthy Volunteers
Yes
Conditions
Interventions
High-Intensity-Interval-Exercise
Subjects will perform high-intensity-interval exercise, where the acute exercise responses will be closely monitored, including measurements of O2 saturation, heart rate, blood pressure, borg scale and blood lactate. In addition, symptoms via multiple validated questionnaries and blood samples will be collected before, immediately after each exercise session to describe leukocyte and cytokine release as well as systemic metabolism. After a 48-hour rest period subjects will return to the laboratory for symptom assessment, submaximal exercise response (CPET), and blood sampling.
Moderate-Intensity-Continuous-Exercise
Subjects will perform moderate intensity continuous exercise, where the acute exercise responses will be closely monitored, including measurements of O2 saturation, heart rate, blood pressure, borg scale and blood lactate. In addition, symptoms via multiple validated questionnaries and blood samples will be collected before, immediately after each exercise session to describe leukocyte and cytokine release as well as systemic metabolism. After a 48-hour rest period subjects will return to the laboratory for symptom assessment, submaximal exercise response (CPET), and blood sampling.
Strength training
Subjects will perform a series of a whole-body resistance exercises, where the acute exercise responses will be closely monitored, including measurements of O2 saturation, heart rate, blood pressure, borg scale and blood lactate. In addition, symptoms via multiple validated questionnaries and blood samples will be collected before, immediately after each exercise session to describe leukocyte and cytokine release as well as systemic metabolism. After a 48-hour rest period subjects will return to the laboratory for symptom assessment, submaximal exercise response (CPET), and blood sampling.
Baseline assessment
Subjects will perform a series of baseline assessment including neurophysiological function, circulatory and vascular function, blood volume assessment, respiratory/ventilatory function, maximal oxygen uptake, strength, physical function and fitness, blood status and muscle biopsy.
1 year follow-up
Subjects will perform the same series of baseline assessment in 1-year time, including neurophysiological function, circulatory and vascular function, blood volume assessment, respiratory/ventilatory function, maximal oxygen uptake, strength, physical function and fitness, blood status and muscle biopsy.
Locations (1)
Karolinska University Hospital Huddinge
Stockholm, Huddinge, Sweden