Exercise – Page 6 – American ME and CFS Society

Exercise Intolerance Associated with Impaired Oxygen Extraction in Patients with Long COVID

Abstract:

Objective: Chronic mental and physical fatigue and post-exertional malaise are the more debilitating symptoms of long COVID-19. The study objective was to explore factors contributing to exercise intolerance in long COVID-19 to guide development of new therapies. Exercise capacity data of patients referred for a cardiopulmonary exercise test (CPET) and included in a COVID-19 Survivorship Registry at one urban health center were retrospectively analyzed.

Results: Most subjects did not meet normative criteria for a maximal test, consistent with suboptimal effort and early exercise termination. Mean O₂ pulse peak % predicted (of 79 ± 12.9) was reduced, supporting impaired energy metabolism as a mechanism of exercise intolerance in long COVID, n=59. We further identified blunted rise in heart rate peak during maximal CPET. Our preliminary analyses support therapies that optimize bioenergetics and improve oxygen utilization for treating long COVID-19.

Source: Norweg A, Yao L, Barbuto S, Nordvig AS, Tarpey T, Collins E, Whiteson J, Sweeney G, Haas F, Leddy J. Exercise Intolerance Associated with Impaired Oxygen Extraction in Patients with Long COVID. Respir Physiol Neurobiol. 2023 Apr 17;313:104062. doi: 10.1016/j.resp.2023.104062. Epub ahead of print. PMID: 37076024; PMCID: PMC10108551. https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10108551/ (Full text)

Exercise Pathophysiology in Myalgic Encephalomyelitis/Chronic Fatigue Syndrome and Post-Acute Sequelae of SARS-CoV-2: More in Common Than Not?

Abstract:

Topic importance: Post-Acute Sequelae of SARS-CoV-2 (PASC) is a long-term consequence of acute infection from coronavirus disease 2019 (COVID-19). Clinical overlap between PASC and myalgic encephalomyelitis/chronic fatigue syndrome (ME/CFS) has been observed, with shared symptoms including intractable fatigue, postexertional malaise, and orthostatic intolerance. The mechanistic underpinnings of such symptoms are poorly understood.

Review findings: Early studies suggest deconditioning as the primary explanation for exertional intolerance in PASC. Cardiopulmonary exercise testing (CPET) reveals perturbations related to systemic blood flow and ventilatory control associated with acute exercise intolerance in PASC, which are not typical of simple detraining. Hemodynamic and gas exchange derangements in PASC have substantial overlap with those observed with ME/CFS, suggestive of shared mechanisms.

Summary: This review aims to illustrate exercise pathophysiologic commonalities between PASC and ME/CFS that will help guide future diagnostics and treatment.

Source: Joseph P, Singh I, Oliveira R, Capone CA, Mullen MP, Cook DB, Stovall MC, Squires J, Madsen K, Waxman AB, Systrom DM. Exercise Pathophysiology in Myalgic Encephalomyelitis/Chronic Fatigue Syndrome and Post-Acute Sequelae of SARS-CoV-2: More in Common Than Not? Chest. 2023 Apr 11:S0012-3692(23)00502-0. doi: 10.1016/j.chest.2023.03.049. Epub ahead of print. PMID: 37054777; PMCID: PMC10088277. https://pubmed.ncbi.nlm.nih.gov/37054777/

Graded exercise therapy and cognitive behavior therapy do not improve employment outcomes in ME/CFS

1 Introduction:

In a 1989 article, Wessely et al. [1] proposed a model of the onset and perpetuation of chronic fatigue syndrome, the illness often called myalgic encephalomyelitis and now frequently referred to as ME/CFS. In this model, patients’ symptoms were attributed to the effects of deconditioning following an acute illness. The symptoms were said to be perpetuated by patients’ persistent but purportedly unwarranted conviction that they continued to suffer from a medical disease that was exacerbated by exertion. The proposed treatment strategy combined gradual increases in activity to reverse the presumed deconditioning with efforts to alter patients’ supposedly misguided perceptions about their ailment.

ME/CFS has long been associated with marked disability and long-term sickness absences [2], with estimated rates of unemployment among patients ranging from 35% to 69% [3]. From the start, the promotion of behavioral and psychological rehabilitation has been intertwined with questions about whether ME/CFS patients with limited capacity to work should be able to receive some form of income or disability support. In a section on “sickness benefits” in the 1989 paper [1], the authors argued that decisions about social welfare payments should be linked to patients’ willingness to undergo behavioral and psychological interventions. “It is reasonable to expect a patient to cooperate with treatment before being labelled as chronically disabled,” noted the authors, notwithstanding the theoretical and unproven status of their model.

This rehabilitative approach achieved dominance over the next couple of decades, not only in the UK but in the US and many other countries. Graded exercise therapy (GET) and an illness-specific form of cognitive behavior therapy (CBT) became the predominant and most heavily researched ME/CFS interventions and were enshrined in multiple clinical guidelines. A 2005 review of the natural history of the illness [4], which found that only 5% of patients fully recovered spontaneously, noted “increasing evidence” for GET and CBT and therefore advised that “medical retirement should be postponed until a trial of such treatment has been given.”

While many studies have included employment status as a demographic data point [2, 3], fewer have specifically examined the relationship between GET and CBT and employment-related outcomes. Nonetheless, the results from the latter group are consistent and clear: The interventions do not lead to improved outcomes in employment status [5–13].

This question has taken on renewed urgency given the overlaps between ME/CFS and the phenomenon known as long Covid, or more formally as post-acute sequelae of SARS CoV-2 (PASC). A significant proportion of patients with prolonged symptoms after a coronavirus infection appear to suffer from the same cluster of symptoms that characterize ME/CFS, including pronounced exhaustion, relapses after minimal exertion known as post-exertional malaise (PEM), cognitive impairments, and orthostatic intolerance, among others. Like ME/CFS patients, many of this new PASC cohort have found that they are unable to sustain their previous level of employment. While the similarities between the two conditions have been widely noted by clinicians and medical investigators, they have also led to efforts to promote the traditional ME/CFS rehabilitation paradigm for this large wave of post-viral patients.

2 Employment outcomes in the PACE trial

After gaining momentum during the 1990 s and 2000 s, the GET/CBT approach was significantly reinforced with the 2011 publication in the Lancet of the first results of the PACE trial, the largest study of the two interventions for ME/CFS [5]. Additional PACE results were published in 2012 and 2013 [6, 7]. The study was partially funded by the UK’s Department for Work and Pensions (DWP). Officials at the agency presumably believed or hoped that the trial would provide robust data to support the use of these two strategies.

The PACE investigators presumably hoped for that as well; key members of the team maintained strong links with disability insurance companies, advising them that GET and CBT were effective in helping this group of challenging patients recover. In a 2002 essay for a UNUMProvident report on trends in disability [14], Michael Sharpe, a lead PACE investigator, wrote that “symptoms and disability” in patients with unexplained conditions “are shaped by psychological factors,” and in particular by “patients’ beliefs and fears.” He suggested that the promotion of biological disease models by ME/CFS patient advocates could impact health outcomes among insurance claimants.

Commenting on how public messaging and related “social factors” influenced the course of illness for these patients, Sharpe wrote: “Relevant factors include the information patients receive about the symptoms and how to cope with them. This information may be helpful or may stress the chronicity of the illness and promote helplessness. Such unhelpful information is found in “self-help” (!) books and increasingly on the Internet (see for example www.meassociation.org.uk)…Other social factors that perpetuate illness are anger with the person or organisation the illness is attributed to, or toward the insurer for not believing them.” In the article, Sharpe further argued that receiving financial benefits ultimately discouraged such claimants from getting better.

However, the data from PACE did not provide evidence that GET and CBT were effective in helping ME/CFS patients in the employment domain [6]. With 641 participants, PACE was the largest treatment trial for ME/CFS [5]. The investigators themselves referred to it as the “definitive” test of the two interventions [15]. In touting it as a success, they reported that around 60% had improved and 22% had recovered after treatment with GET and CBT, much more than in the other groups [5, 7]. However, these positive findings were all from subjective, self-reported measures. When such measures are paired with unblinded treatments, as in the PACE trial, they are subject to an unknown amount of bias.

PACE also included an employment measure as one of four objective outcomes, along with whether or not the participant was receiving social welfare or disability benefits, a step-test to assess fitness, and a six-minute-walking test. The results were uniformly poor. The first three measures produced null findings across the board, with no advantages conferred by the interventions [6, 7]; in the six-minute walking test, the GET group showed a statistically significant but clinically insignificant improvement [5]. In terms of employment, the percentage of participants in the GET group reporting lost days of work increased from 83% at baseline to 86% at 12 months after randomization; in the CBT group, the percentage was 84% both before and after treatment. In all study arms, the percentage of participants receiving unemployment or disability benefits was higher after treatment [6].

In promoting GET and CBT as effective, the PACE authors downplayed the findings on employment, receipt of disability or unemployment support, and other objective results, suggesting these should be ignored when determining whether patients had improved and recovered. In correspondence, they challenged the reliability and even the objectivity of the measures they themselves had pre-designated as objective. As they wrote: “Recovery from illness is a health status, not an economic one, and plenty of working people are unwell, while well people do not necessarily work. Some of our participants were either past the age of retirement or were not in paid employment when they fell ill. In addition, follow-up at 6 months after the end of therapy may be too short a period to affect either benefits or employment.” [16].

It is indisputable that other factors besides health status play a role in employment outcomes. Nonetheless, if the PACE trial’s reported results of significant improvement and recovery were accurate, then a measurable benefit from GET and CBT in employment and in the receipt of financial support would have been expected. As has been well-documented, the investigators weakened key subjective outcome measures in ways that dramatically improved their reported results; published re-analyses of trial data have found that no one achieved “recovery” from either of the therapies, and rates of improvement were so marginal that they were likely due to bias and expectation effects [17, 18]. Given these findings, the similarly disappointing results for employment outcomes in PACE should not be surprising.

3 Other studies on CBT/GET and employment outcomes

In a review of treatment studies that included employment outcomes, Vink and Vink-Niese [8] found that the standard interventions did not have an overall positive effect on work status. Besides PACE, among the studies reviewed were two other randomized trials and five observational studies based on data from clinical services. The two other trials, one in the Netherlands with 278 participants and one in England with 153, both investigated CBT and reported no statistically significant differences in employment outcomes between the intervention and control groups [9, 10]. The largest observational study included 952 patients seeking care at specialty clinics in England, although a great many did not provide post-treatment outcomes; among a subgroup of 394, 18% reported having returned to work or increased work hours, while 30% reported having stopped work or reduced work hours [11]. According to a Belgian report, a review of 655 patients attending domestic clinics found that “employment status decreased” when assessed after treatment while the percentage of those “living from a sickness allowance” rose from 54% to 57% [12].

Other observational research had similarly unpromising findings. In the most recent study, Stevelink et al. [13], of 508 patients who attended clinical services between 2007 and 2014, only 316 provided information about post-treatment employment status, among other measures. Of those, 9% had returned to work after not having worked at baseline. On the other hand, 6% had stopped working after having been working at baseline, leaving a net return-to-work after treatment of just 3%–a handful of people. Moreover, that figure is likely to be overstated, given the high loss-to-follow-up from the initial sample of 508. The drop-outs were more seriously ill at baseline, so they might be expected to have worse employment outcomes than those who ended up providing data at the final time point.

According to the authors, “unhelpful beliefs such as fear of activity and exercise and concerns about causing damage, combined with all or nothing behaviour and behavioural avoidance, were associated with not working” [13]. This statement is problematic because “fear of activity,” “concerns about causing damage” and related indications of caution should be considered reasonable and prudent perspectives, not “unhelpful beliefs,” among patients with the core ME/CFS symptom of PEM. Beyond that, the study itself documented little or no change after treatment in the domains of “fear-avoidance,” “catastrophizing,” “embarrassment avoidance,” “symptom focusing,” “all-or-nothing behaviour,” and “avoidance/resting behaviour,” even though such factors were “specifically targeted in CBT and, to some extent, GET.”

Moreover, the authors reported no change in subjective fatigue scores, and only a marginal increase in subjective physical function scores, with participants remaining seriously disabled even after treatment. Thus, although the authors noted correctly that “meaningful occupation is important for well-being and psychosocial needs,” their study documented that their approach failed to impact factors presumed to be essential to helping participants achieve that important goal. (Since Stevelink et al’s senior author was one of the lead PACE investigators, it is unclear why the paper did not mention the null employment results from that “definitive” study.)

The theoretical illness model underlying all of these studies is essentially the one outlined by Wessely et al. more than three decades ago [1]. That illness model is at odds with the extensive physiological abnormalities that have been found in ME/CFS [17, 19]. Research findings have also undermined two core assumptions of the model–specifically, that ME/CFS patients are deconditioned and have an unwarranted fear of activity or exercise. [20–22]. In 2017, the US Centers for Disease Control and Prevention dropped its recommendations for GET and CBT as ME/CFS treatments. In 2021, the UK National Institute for Health and Care Excellence (NICE) reversed its earlier support for the interventions in new ME/CFS guidelines; in its analysis, NICE assessed the quality of the evidence supporting GET and CBT as either “very low” or merely “low” [23]. These developments are consistent with the failure of GET and CBT to lead to improved employment outcomes in PACE and other studies.

4 Conclusion

In a recent study of employment status among clinic attendees, Stevelink et al. [13] wrote that “work-related outcomes should be targeted” in treatment for ME/CFS. It is certain that people with ME/CFS experience disrupted occupational lives and that it would be desirable to identify treatments that could restore their full capacity for employment. However, the most common behavioral and psychological interventions— that is, GET and CBT–have already been tested sufficiently to reach a conclusive assessment that they do not lead overall to meaningful improvements in work status. These poor results are consistent across randomized trials, including the high-profile and “definitive” PACE study, as well as observational studies of patients seeking clinical services for their illness.

Some investigators and medical experts continue to promote GET and CBT as treatments for ME/CFS patients based on subjective findings from flawed studies. They also seek to extend these recommendations to patients with long Covid, or PASC, many of whom are receiving ME/CFS diagnoses and facing employment challenges. It is time to state the obvious: The objective data on work outcomes indicate that GET and CBT do not lead to readily apparent benefits in this domain. In consequence, they should no longer be recommended to ME/CFS patients as a strategy for achieving occupational rehabilitation and related benefits.

Source: Tuller D, Vink M. Graded exercise therapy and cognitive behavior therapy do not improve employment outcomes in ME/CFS. Work. 2023 Mar 10. doi: 10.3233/WOR-220569. Epub ahead of print. PMID: 36911962. https://content.iospress.com/articles/work/wor220569 (Full text)

Sex differences in post-exercise fatigue and function in myalgic encephalomyelitis/chronic fatigue syndrome

Abstract:

To assess biobehavioral sex differences in myalgic encephalomyelitis/chronic fatigue syndrome (ME/CFS) utilizing a low burden exercise protocol, 22 females and 15 males with ME/CFS and 14 healthy controls underwent two six-min walk tests.

Fifteen daily assessments were scheduled for fatigue and function ratings and heart monitoring. Six-min walk tests were conducted on days 8 and 9. The ME/CFS group showed high self-report fatigue and impaired physical function, whereas healthy controls did not show fatigue or function abnormalities.

In patients, no significant post-exercise changes were found for heart rate variability (HRV); however, heart rate decreased in ME/CFS males from Day 14 to Day 15 (p = 0.046). Female patients showed increased fatigue (p = 0.006) after the initial walk test, but a downward slope (p = 0.008) in fatigue following the second walk test. Male patients showed a decrease in self-report work limitation in the days after exercise (p = 0.046). The healthy control group evidenced a decrease in HRV after the walk tests from Day 9-14 (p = 0.038).

This pilot study did not confirm hypotheses that females as compared to males would show slower exercise recovery on autonomic or self-report (e.g. fatigue) measures. A more exertion-sensitive test may be required to document prolonged post-exertional abnormalities in ME/CFS.

Trial registration: NCT NCT03331419.

Source: Friedberg F, Adamowicz JL, Bruckenthal P, Milazzo M, Ramjan S, Zhang X, Yang J. Sex differences in post-exercise fatigue and function in myalgic encephalomyelitis/chronic fatigue syndrome. Sci Rep. 2023 Apr 3;13(1):5442. doi: 10.1038/s41598-023-32581-w. PMID: 37012343. https://www.nature.com/articles/s41598-023-32581-w (Full text)

Heart Rate Variability and Salivary Biomarkers Differences between Fibromyalgia and Healthy Participants after an Exercise Fatigue Protocol: An Experimental Study

Abstract:

Previous studies showed that people with Fibromyalgia (FM) suffer from dysautonomia. Dysautonomia consists of persistent autonomic nervous system hyperactivity at rest and hyporeactivity during stressful situations. There is evidence that parameters reflecting the complex interplay between the autonomic nervous system and the cardiovascular system during exercise can provide significant prognostic information. Therefore, this study aimed to investigate the differences between people with FM and healthy controls on heart rate variability (HRV) and salivary parameters (such as flow, protein concentration, enzymatic activities of amylase, catalase and glutathione peroxidase) in two moments: (1) at baseline, and (2) after an exercise fatigue protocol.

A total of 37 participants, twenty-one were people with fibromyalgia and sixteen were healthy controls, participated in this cross-sectional study. HRV and salivary samples were collected before and after an exercise fatigue protocol. The fatigue protocol consisted of 20 repetitions of knee extensions and flexions of the dominant leg at 180 °·s^-1 (degrees per second).

Significant differences were found in the HRV (stress index, LF and HF variables) and salivary biomarkers (with a higher concentration of salivary amylase in people with FM compared to healthy controls). Exercise acute effects on HRV showed that people with FM did not significantly react to exercise. However, significant differences between baseline and post-exercise on HRV significantly induce alteration on the HRV of healthy controls. Catalase significantly increased after exercise in healthy controls whereas salivary flow significantly increased in women with FM after an exercise fatigue protocol.

Our study suggests that a higher α-amylase activity and an impaired HRV can be used as possible biomarkers of fibromyalgia, associated with a reduction in salivary flow without changes in HRV and catalase activity after a fatigue exercise protocol. More studies should be carried out in the future to evaluate this hypothesis, in order to find diagnostic biomarkers in fibromyalgia.

Source: Costa AR, Freire A, Parraca JA, Silva V, Tomas-Carus P, Villafaina S. Heart Rate Variability and Salivary Biomarkers Differences between Fibromyalgia and Healthy Participants after an Exercise Fatigue Protocol: An Experimental Study. Diagnostics (Basel). 2022 Sep 14;12(9):2220. doi: 10.3390/diagnostics12092220. PMID: 36140620; PMCID: PMC9497903. https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9497903/ (Full text)

The Behavior of Muscle Oxygen Saturation, Oxy and Deoxy Hemoglobin during a Fatigue Test in Fibromyalgia

Abstract:

Previous studies have reported that people with fibromyalgia (FM) could suffer from mitochondrial dysfunction. However, the consumption of muscle oxygen during physical exercise has been poorly studied. Therefore, this study aimed to explore the response of muscle oxygen during a fatigue protocol in people with FM and healthy controls (HC). In addition, the peak torque and the total work were assessed.

A total of 31 participants (eighteen were people with fibromyalgia and thirteen were healthy controls) were enrolled in this cross-sectional study. All the participants underwent a fatigue protocol consisting of 20 repetitions at 180°·s−1 of quadriceps flexions and extensions using a Biodex System 3. The muscle oxygen saturation (SmO2), total hemoglobin (THb), deoxygenated hemoglobin (HHb) and oxygenated hemoglobin (O2Hb) values were measured using a portable near-infrared spectroscopy (NIRS) device. Significant differences between people with FM and healthy controls were found at baseline: SmO2 (FM: 56.03 ± 21.36; HC: 77.41 ± 10.82; p = 0.036), O2Hb (FM: 6.69 ± 2.59; HC: 9.37 ± 1.31; p = 0.030) and HHb (FM: 5.20 ± 2.51; HC: 2.73 ± 1.32; p = 0.039); during the fatigue protocol: SmO2 (FM: 48.54 ± 19.96; HC: 58.87 ± 19.72; p = 0.038), O2Hb (FM: 5.70 ± 2.34; HC: 7.06 ± 2.09; p = 0.027) and HHb (FM: 5.69 ± 2.65; HC: 4.81 ± 2.39; p = 0.048); and in the recovery at three min and six min for SmO2, O2Hb and HHb (p < 0.005).

Furthermore, healthy control values of SmO2, O2Hb and HHb have been significantly altered by the fatigue protocol (p < 0.005). In contrast, people with FM did not show any significant alteration in these values. Moreover, significant differences were found in the peak torque at extension (FM: 62.48 ± 24.45; HC: 88.31 ± 23.51; p = 0.033) and flexion (FM: 24.16 ± 11.58; HC: 42.05 ± 9.85; p = 0.010), and the total work performed at leg extension (FM: 1039.78 ± 434.51; HC: 1535.61 ± 474.22; p = 0.007) and flexion (FM: 423.79 ± 239.89; HC: 797.16 ± 194.37; p = 0.005).

Source: Villafaina S, Tomas-Carus P, Silva V, Costa AR, Fernandes O, Parraca JA. The Behavior of Muscle Oxygen Saturation, Oxy and Deoxy Hemoglobin during a Fatigue Test in Fibromyalgia. Biomedicines. 2023 Jan 4;11(1):132. doi: 10.3390/biomedicines11010132. PMID: 36672640; PMCID: PMC9856161. https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9856161/ (Full text)

An international survey of experiences and attitudes towards pacing using a heart rate monitor for people with myalgic encephalomyelitis/chronic fatigue syndrome

Abstract:

Background: Myalgic encephalomyelitis (ME) is a complex, multi-system neurological condition. The defining feature of ME is post-exertional malaise (PEM) with over 30 symptoms triggered by physical, cognitive, emotional and social activity.

The cause of PEM is unclear but one area of research using cardio-pulmonary exercise tests show a reduced ventilatory anaerobic threshold (VAT) with repeated tests leading to PEM.

Pacing with heart rate monitoring (HRM) provides feedback to maintain activity intensity below the VAT. There is only one piece of research investigating the use of HRM although a number of guidelines recommend it.

Objective: To identify the experiences and attitudes of people with ME towards HRM.

Methods: A 40 question online survey was devised and released on ME websites, Twitter and Facebook pages. People with ME read the information sheet and followed an online link to the survey. The survey was open for three weeks and all answers were anonymous.

Results: 488 people with ME completed the survey. Most participants were female, 35-50 years and with a reported illness of greater than 5 years. Over 100 types of HR monitor used. Over 30 benefits and over 30 negatives identified. HRM reduced severity of ME and severity and duration of PEM.

Conclusion: Although there are limitations, HRM has many benefits including helping PwME to understand and manage their PEM and support them to increase their activities, including work. There is a need for more research and education of healthcare professionals in the safe use of HRM.

Source: Clague-Baker N, Davenport TE, Madi M, Dickinson K, Leslie K, Bull M, Hilliard N. An international survey of experiences and attitudes towards pacing using a heart rate monitor for people with myalgic encephalomyelitis/chronic fatigue syndrome. Work. 2023 Mar 13. doi: 10.3233/WOR-220512. Epub ahead of print. PMID: 36938766. https://content.iospress.com/articles/work/wor220512 (Full text)

Two symptoms can accurately identify post-exertional malaise in myalgic encephalomyelitis/chronic fatigue syndrome

Abstract:

Background: Post-exertional malaise (PEM) is the hallmark symptom of myalgic encephalomyelitis/chronic fatigue syndrome (ME/CFS) yet its diverse manifestations make it difficult to recognize. Brief instruments for detecting PEM are critical for clinical and scientific progress.

Objective: To develop a clinical prediction rule for PEM.

Method: 49 ME/CFS and 10 healthy, sedentary subjects recruited from the community completed two maximal cardiopulmonary exercise tests (CPETs) separated by 24 hours.

At five different times, subjects reported symptoms which were then classified into 19 categories. The frequency of symptom reports between groups at each time point was compared using Fisher’s exact test.

Receiver operating characteristics (ROC) analysis with area under the curve calculation was used to determine the number of different types of symptom reports that were sufficient to differentiate between ME/CFS and sedentary groups. The optimal number of symptoms was determined where sensitivity and specificity of the types of symptom reports were balanced.

Results: At all timepoints, a maximum of two symptoms was optimal to determine differences between groups. Only one symptom was necessary to optimally differentiate between groups at one week following the second CPET. Fatigue, cognitive dysfunction, lack of positive feelings/mood and decrease in function were consistent predictors of ME/CFS group membership across timepoints.

Conclusion: Inquiring about post-exertional cognitive dysfunction, decline in function, and lack of positive feelings/mood may help identify PEM quickly and accurately. These findings should be validated with a larger sample of patients.

Source: Davenport, Todd E; Chu, Lily; Stevens, Staci R; Stevens, Jared; Snell, Christopher R; Van Ness, J. Mark. Two symptoms can accurately identify post-exertional malaise in myalgic encephalomyelitis/chronic fatigue syndrome. Work. 1 Jan. 2023 : 1 – 15. https://content.iospress.com/articles/work/wor220554 (Full text)

Recovery from Exercise in Persons with Myalgic Encephalomyelitis/Chronic Fatigue Syndrome (ME/CFS)

Abstract:

Background and Objectives: Post-exertional malaise (PEM) is the hallmark of myalgic encephalomyelitis/chronic fatigue syndrome (ME/CFS), but there has been little effort to quantitate the duration of PEM symptoms following a known exertional stressor.

Using a Symptom Severity Scale (SSS) that includes nine common symptoms of ME/CFS, we sought to characterize the duration and severity of PEM symptoms following two cardiopulmonary exercise tests separated by 24 h (2-day CPET).

Materials and Methods: Eighty persons with ME/CFS and 64 controls (CTL) underwent a 2-day CPET. ME/CFS subjects met the Canadian Clinical Criteria for diagnosis of ME/CFS; controls were healthy but not participating in regular physical activity. All subjects who met maximal effort criteria on both CPETs were included.

SSS scores were obtained at baseline, immediately prior to both CPETs, the day after the second CPET, and every two days after the CPET-1 for 10 days.

Results: There was a highly significant difference in judged recovery time (ME/CFS = 12.7 ± 1.2 d; CTL = 2.1 ± 0.2 d, mean ± s.e.m., Chi² = 90.1, p < 0.0001).

The range of ME/CFS patient recovery was 1–64 days, while the range in CTL was 1–10 days; one subject with ME/CFS had not recovered after one year and was not included in the analysis.

Less than 10% of subjects with ME/CFS took more than three weeks to recover. There was no difference in recovery time based on the level of pre-test symptoms prior to CPET-1 (F = 1.12, p = 0.33).

Mean SSS scores at baseline were significantly higher than at pre-CPET-1 (5.70 ± 0.16 vs. 4.02 ± 0.18, p < 0.0001). Pharmacokinetic models showed an extremely prolonged decay of the PEM response (Chi² > 22, p < 0.0001) to the 2-day CPET.

Conclusions: ME/CFS subjects took an average of about two weeks to recover from a 2-day CPET, whereas sedentary controls needed only two days. These data quantitate the prolonged recovery time in ME/CFS and improve the ability to obtain well-informed consent prior to doing exercise testing in persons with ME/CFS. Quantitative monitoring of PEM symptoms may provide a method to help manage PEM.

Source: Moore GE, Keller BA, Stevens J, Mao X, Stevens SR, Chia JK, Levine SM, Franconi CJ, Hanson MR. Recovery from Exercise in Persons with Myalgic Encephalomyelitis/Chronic Fatigue Syndrome (ME/CFS). Medicina. 2023; 59(3):571. https://doi.org/10.3390/medicina59030571 (Full text)

Urine Metabolomics Exposes Anomalous Recovery after Maximal Exertion in Female ME/CFS Patients

Abstract:

Myalgic encephalomyelitis/chronic fatigue syndrome (ME/CFS) is a debilitating disease with unknown etiology or effective treatments. Post-exertional malaise (PEM) is a key symptom that distinguishes ME/CFS patients. Investigating changes in the urine metabolome between ME/CFS patients and healthy subjects following exertion may help us understand PEM.

The aim of this pilot study was to comprehensively characterize the urine metabolomes of eight female healthy sedentary control subjects and ten female ME/CFS patients in response to a maximal cardiopulmonary exercise test (CPET). Each subject provided urine samples at baseline and 24 h post-exercise. A total of 1403 metabolites were detected via LC-MS/MS by Metabolon^® including amino acids, carbohydrates, lipids, nucleotides, cofactors and vitamins, xenobiotics, and unknown compounds.

Using a linear mixed effects model, pathway enrichment analysis, topology analysis, and correlations between urine and plasma metabolite levels, significant differences were discovered between controls and ME/CFS patients in many lipid (steroids, acyl carnitines and acyl glycines) and amino acid subpathways (cysteine, methionine, SAM, and taurine; leucine, isoleucine, and valine; polyamine; tryptophan; and urea cycle, arginine and proline).

Our most unanticipated discovery is the lack of changes in the urine metabolome of ME/CFS patients during recovery while significant changes are induced in controls after CPET, potentially demonstrating the lack of adaptation to a severe stress in ME/CFS patients.

Source: Glass KA, Germain A, Huang YV, Hanson MR. Urine Metabolomics Exposes Anomalous Recovery after Maximal Exertion in Female ME/CFS Patients. International Journal of Molecular Sciences. 2023; 24(4):3685. https://doi.org/10.3390/ijms24043685 https://www.mdpi.com/1422-0067/24/4/3685 (Full text available as PDF file)