Lessons from Myalgic Encephalomyelitis/Chronic Fatigue Syndrome for Long COVID: Postexertional Symptom Exacerbation is an Abnormal Response to Exercise/Activity

Prolonged symptoms after infection with the novel coronavirus 2019 (SARS-COV-2) are an emerging challenge to individual patients, society, and clinicians. In a previous post on the JOSPT Blog, we identified several lessons from research and clinical practice in myalgic encephalomyelitis/chronic fatigue syndrome (ME/CFS) that are important lessons for long COVID. The purpose of this post is to discuss the phenomenon of postexertional symptom exacerbation (PESE) and its clinical identification to recognize the potential onset of long COVID.

Data from a large international web-based patient survey indicate substantial symptom overlap between postacute SARS-COV-2 infection (long COVID) and ME/CFS at 6 months following the onset of first symptoms. Three quarters of respondents noted disabling fatigue and over half noted cognitive dysfunction.4 A unique finding of this survey was that 75% of respondents noted PESE, which is a worsening of symptoms after activity/exercise.4 PESE is foundational to the diagnosis of ME/CFS and it is common with long COVID.4,5 This observation suggests we can further extend lessons from ME/CFS to develop our understanding of long COVID.

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Source: Todd E. Davenport Staci R. Stevens Jared Stevens Christopher R. Snell J. Mark Van Ness. Lessons from Myalgic Encephalomyelitis/Chronic Fatigue Syndrome for Long COVID: Postexertional Symptom Exacerbation is an Abnormal Response to Exercise/Activity. Published online on February 2, 2022 https://doi.org/10.2519/jospt.blog.20220202

Diagnostic challenges posed by intersections between post-acute covid syndrome and neurocognitive disorders

Introduction:

COVID-19 initially was considered an acute respiratory illness. Its severity was classified on the basis of symptoms of respiratory distress for example, tachypnoea and hypoxia. Accordingly, 80% cases reported asymptomatic or mild illness, about 5–15% being moderate severity and the last 5% requiring hospital-based care (COVID, 2021). Almost everyone was expected to tide over the infection in a couple of weeks. In the acute phase of the illness, central nervous system (CNS) involvement manifests as headaches, confusion, cerebrovascular events like strokes, dizziness and seizures (Wang et al., 2020–Pezzini et al., 2020). Infecting cells bearing the ACE- 2 receptor, it involves multiple organ systems, some of which are now known to run a chronic course. Its understanding as an acute infection has changed as more and more persons now report persistent symptoms running over months (Revised Guidelines on Clinical Management, 2021).

Studies report that between 30% and 40% of those recovered from COVID-19 infections report of lasting symptoms (Chopra et al., 2021). Accurate estimates of persons suffering from Post Acute Covid Syndrome (PACS) are unreliable as yet considering ongoing community transmissions and limitations in health care access. With over 215 million reported cases (coronavirus.jhu.edu, 2021), numbers of those with PACS can overrun any health system. Symptoms persisting beyond 4 weeks after recovery from acute infection range from chest pain and palpitations, shortness of breath, muscle and joint aches and pains, headaches, neuropathy and paraesthesia, fatigue, anosmia, ageusia, myalgia, cardiopulmonary insufficiency, increased propensity for thromboembolic phenomena, micro vascular coagulopathies, demyelinating conditions, cognitive dysfunctions, psychological distress and even sleep and mood disturbances. Collectively, these neuropsychiatric symptoms are sometimes referred to as “brain fog” and can be incapacitating. It is also unclear how long these symptoms will last.

Pathophysiology of COVID-19 related complications is largely unknown. Current research suggests that the chronic inflammation and aberrant immune responses in the host can be a cause of chronic inflammation, resulting in long-term neuropsychiatric symptoms (weeks – months post-acute infection) (Bechter, 2013). Inflammatory markers take much longer to return to pre morbid levels: correlations with PACS are however unclear. Data from the National Survey of Residential Care Facilities in the United States showed that 70% of individuals in these facilities had some cognitive issues, out of which 29% had mild and 19% had severe cognitive impairment (Zimmerman et al., 2014). Coronavirus infection outbreaks in the past like for Severe Acute Respiratory Syndrome (2002–04) and Middle East Respiratory Syndrome (2012) have also had neuropsychiatric symptoms: depressed mood, anxiety, insomnia, irritability, and memory impairments were noted. Psychological factors may also contribute to the development of some long term neuropsychiatric symptoms.

Roughly, 10% of the current global population is aged 65 or older (United Nations, 2021). Estimates of people living with neurocognitive disorder (NCDs) hover around 50 million worldwide with 10 million new cases added yearly. Globally, 80% of the deaths attributable to COVID-19 infections have occurred amongst persons 65 or older: however, age disaggregated data for COVID-19 infection, survival, lasting morbidity and mortality are unavailable.

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Source: Philip S, Shoib S, Gregor Issac T, Javed S. Diagnostic challenges posed by intersections between post-acute covid syndrome and neurocognitive disorders. Asian J Psychiatr. 2022 Jan;67:102936. doi: 10.1016/j.ajp.2021.102936. Epub 2021 Nov 21. PMID: 34844177; PMCID: PMC8606183. https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8606183/ (Full text)