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Long COVID: mechanisms, risk factors and recovery

Rónan Astin, Amitava Banerjee, Mark R. Baker, Melanie Dani, Elizabeth Ford, James H. Hull, Phang Boon Lim, Melitta McNarry Orcid Logo, Karl Morten, Oliver O'Sullivan Orcid Logo, Etheresia Pretorius, Betty Raman, Demetris S. Soteropoulos, Maxime Taquet, Catherine N. Hall Orcid Logo

Experimental Physiology, Volume: 108, Issue: 1, Pages: 12 - 27

Swansea University Author: Melitta McNarry Orcid Logo

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DOI (Published version): 10.1113/ep090802

Abstract

Long COVID, the prolonged illness and fatigue suffered by a small proportion of those infected with SARS CoV-2, is placing an increasing burden on individuals and society. A Physiological Society virtual meeting in February 2022 brought clinicians and researchers together to discuss current understa...

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Published in: Experimental Physiology
ISSN: 0958-0670 1469-445X
Published: Wiley 2023
Online Access: Check full text

URI: https://cronfa.swan.ac.uk/Record/cronfa62011
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Abstract: Long COVID, the prolonged illness and fatigue suffered by a small proportion of those infected with SARS CoV-2, is placing an increasing burden on individuals and society. A Physiological Society virtual meeting in February 2022 brought clinicians and researchers together to discuss current understanding of long COVID mechanisms, risk factors and recovery. This review highlights the themes arising from that meeting. It considers the nature of long COVID, exploring its links with other post-viral illness such as myalgic encephalolmyelitis/ chronic fatigue syndrome, and highlighting how long COVID research can help us better support those suffering from all post-viral syndromes. Long COVID research started particularly swiftly in populations routinely monitoring their physical performance - namely the military and elite athletes. The review highlights how the high degree of diagnosis, intervention and monitoring of success in these active populations can suggest management strategies for the wider population. We then consider how a key component of performance monitoring in active populations, cardiopulmonary exercise training, has revealed long COVID-related changes in physiology – including alterations in peripheral muscle function, ventilatory inefficiency, and autonomic dysfunction. The nature and impact of dysautonomia are further discussed in relation to Postural Orthostatic Tachycardia Syndrome, fatigue and treatment strategies that aim to combat sympathetic overactivation by stimulating the vagal nerve. We then interrogate the mechanisms that underlie long COVID symptoms, with a focus on impaired oxygen delivery due to micro-clotting and disruption of cellular energy metabolism, before considering treatment strategies that indirectly or directly tackle these mechanisms. These include remote inspiratory muscle training and integrated care pathways that combine rehabilitation and drug interventions with research into long COVID healthcare access across different populations. Overall, this review showcases how physiology research reveals the changes that occur in long COVID and how different therapeutic strategies are being developed and tested to combat this condition.
Keywords: cardiovascular, coagulation, dysautonomia, fatigue, long COVID, ME/CFS, respiratory, SARS-CoV-2
College: Faculty of Science and Engineering
Funders: National Institute for Health and Care Research University College London Hospitals Biomedical Research Centre National Institute for Health Research. Grant Numbers: NIHR200937, COV-LT2-0043 UK Research and Innovation. Grant Number: KTP 11678 NIHR Applied Research Collaboration Kent, Surrey and Sussex Welsh Government Sêr Cymru III. Grant Number: MA/KW/1457/20 The Higher Education Funding Council for Wales Research Wales Innovation Fund. Grant Numbers: FF4, ID 101390, ID 20045, ID 125132 NRF of South Africa. Grant Number: 142142 SA MRC BHF Oxford Centre of Research Excellence. Grant Number: RE/18/3/34214 NIHR Oxford BRC British Medical Association AstraZeneca European Union (Innovative Medicines Initiative). Grant Number: 116074 ME Association MRC. Grant Numbers: MR/S026495/1, MR/V036750/1
Issue: 1
Start Page: 12
End Page: 27

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