I have just subitted the following rapid response. Not sure how often this journal publishes RRs, and this might be too off-topic for a sports medicine journal, so I'm posting here. It was helpful to get my thoughts in order, but now I need a break.
--
Post-exertional malaise cannot be reduced to exercise intolerance and often does not respond well to traditional rehabilitation approaches
I applaud Charlton et al. [1] for challenging the assertion that cardiovascular deconditioning plays a significant role in the development and persistence of long covid and that patients can be rehabilitated through appropriately tailored exercise training [2].
Charlton et al. instead argue that deconditioning alone is not sufficient to explain known cardiac alterations in all long covid patients, and that a growing body of evidence of biological abnormalities and pathophysiological findings in long covid (some of which replicate previous findings in ME/CFS) point to different mechanisms. This, they argue, has implications for the treatment and care of long covid patients, particularly in how rehabilitative strategies are designed and implemented.
Interestingly, despite seeing only a limited role for deconditioning, Charlton et al. reach similar conclusions to the AHA statement and recommend individually tailored rehabilitation strategies, albeit with the addition of certain safeguards to mitigate the harms (i.e., symptom exacerbation and further loss of function) associated with post-exertional malaise (PEM).
The focus placed by Charlton et al on PEM — the cardinal and defining feature of ME/CFS — is warranted, because it is found in a sizeable subset of long covid patients. The authors provide a prevalence rate of 80%, but this is considerably higher than other estimates, including those from systematic reviews and meta-analyses, [3, 4] and likely reflects unrepresentative clinical data.
Presence of PEM, much like absence of deconditioning, has important implications for how long covid is understood and treated. Presence of PEM in long covid helps define a specific ME/CFS(-like) phenotype describing patients with a highly debilitating, perverse reaction to exertion that is not seen in other patients.
Reading the long covid literature, I have noticed that PEM is still widely misunderstood and too frequently mischaracterised. Charlton et al. present a better understanding of PEM than most, but simplistic models based on ‘baselines’ and ‘thresholds’ do not fully capture PEM's inexorability and unpredictability. Further, the incessant focus on physical fitness/activity minimises the role of mental and cognitive exertion in triggering PEM and the significant role that ‘cognitive/neurological’ and ‘immune’ symptoms play in determining overall symptom burden and function capacity in these patients. The presence of these symptoms is generally independent of cardiovascular fitness or physical activity; this in itself should provide a clear rebuttal of the deconditioning myth.
Matters are further complicated by conflation of PEM and exercise intolerance, including in many long covid studies. The AHA long covid statement is really a statement about identifying and treating exercise intolerance (as per its title), not PEM. Confusingly, exercise intolerance might be present in long covid patients in the absence of PEM, and, in some patients, might well be explained by deconditioning and therefore respond well to physical rehabilitation.
I am concerned that many of the mistakes made in ME/CFS research are being repeated in long covid patient populations, particularly in trials of exercise and rehabilitation. Some of these mistakes include: complete ignorance of PEM [5]; poor identification and monitoring of PEM status (and associated harms) in patients; and/or exclusion of the most severely ill patients from research and clinical trials. Because of these mistakes, there remains an absence of evidence that these interventions improve patient outcomes and do not lead to deterioration or other harms, particularly in the most severely ill patients.
I therefore have doubts about the promotion of ‘tailored rehabilitation plans’ for patients with (correctly identified) PEM, particularly if there is no evidence of deconditioning. After all, reversing apparent deconditioning has always been the primary justification for exercise-based programmes in post-infectious chronic conditions. PEM and growing evidence of associated pathophysiological mechanisms can help explain why rehabilitative approaches very rarely ‘shift the dial’ in these conditions, and why many patients report them to be inaccessible, inefficacious, and counterproductive.
Acknowledgments: Comments from members of the Science for ME (S4ME) forum helped shape this response.
[1] Charlton BT, Janssen K, Systrom DM, et al. Post-exertional malaise and the myth of cardiac deconditioning: rethinking the pathophysiology of long covid. British Journal of Sports Medicine Published Online First: 10 February 2026. doi:10.1136/bjsports-2025-111387
[2] Cornwell III WK, Levine BD, Baptiste D, et al. Exercise Intolerance and Response to Training in Patients With Postacute Sequelae of SARS-CoV2 (Long COVID): A Scientific Statement From the American Heart Association. Circulation. 2025 Aug 5;152(5):e50-62. doi:10.1161/CIR.0000000000001348
[3] Li X, Zhang Y, Li J, et al. Prevalence and measurement of post-exertional malaise in post-acute COVID-19 syndrome: a systematic review and meta-analysis. Gen Hosp Psychiatry 2025;92:1-10. doi:10.1016/j.genhosppsych.2024.10.011
[4] Pouliopoulou DV, Hawthorne M, MacDermid JC, et al. Prevalence and impact of postexertional malaise on recovery in adults with post-COVID-19 condition: a systematic review with meta-analysis. Arch Phys Med Rehabil 2025;106(8):1267-1278. doi:10.1016/j.apmr.2025.01.471
[5] Spichak S. Less than 20% of Long COVID trials involving exercise even mention post-exertional malaise. The Sick Times. 2025 Nov 21. Available from:
https://thesicktimes.org/2025/11/21...xercise-even-mention-post-exertional-malaise/.
