Tag: 2020

Measuring improvement and deterioration in myalgic encephalomyelitis/chronic fatigue syndrome: the pitfalls of the Chalder Fatigue Questionnaire

Adamson et al. considered a 2-point decrease in Chalder Fatigue Questionnaire score to indicate improvement in fatigue and a 2-point increase in Chalder Fatigue Questionnaire score to indicate deterioration in fatigue.1 While intuitively appealing, data exist that suggest a more complex relationship between changes in Chalder Fatigue Questionnaire scores and clinical change.

Collin and Crawley studied treatment outcomes at 11 specialist myalgic encephalomyelitis/chronic fatigue syndrome clinics in England.2 The authors tabulated mean change in Chalder Fatigue Questionnaire score at one year against Clinical Global Impression scores (see additional file 1, table S3). A 2-point decrease in Chalder Fatigue Questionnaire score was reported patients who deemed their health as follows: ‘no change’, ‘a little worse’, ‘much worse’ and ‘very much worse’. The mean changes in Chalder Fatigue Questionnaire score in those categories were similar, with overlapping 95% confidence intervals within the range [4.77, 2.29]. This suggests that a 2-point decrease in Chalder Fatigue Questionnaire score indicates deterioration or no change in the health of a person with myalgic encephalomyelitis/chronic fatigue syndrome, not improvement.

Read the rest of this letter here: https://sci-hub.se/10.1177/0141076820977843

Source: Kirke KD. Measuring improvement and deterioration in myalgic encephalomyelitis/chronic fatigue syndrome: the pitfalls of the Chalder Fatigue Questionnaire. J R Soc Med. 2020 Dec 15:141076820977843. doi: 10.1177/0141076820977843. Epub ahead of print. PMID: 33319615.

Potential causal factors of CFS/ME: a concise and systematic scoping review of factors researched

Abstract:

Background: Chronic fatigue syndrome/myalgic encephalomyelitis (CFS/ME) is understood as a complex condition, likely triggered and sustained by an interplay of biological, psychological, and social factors. Little oversight exists of the field of causal research. This systematic scoping review explores potential causal factors of CFS/ME as researched by primary studies.

Methods: We searched eight databases for primary studies that examined potential causal factors of CFS/ME. Based on title/abstract review, two researchers independently sorted each study’s factors into nine main categories and 71 subordinate categories, using a system developed with input given during a 2018 ME conference, specialists and representatives from a ME patient advocacy group, and using BMJ Best Practice’s description of CFS/ME etiology. We also extracted data related to study design, size, diagnostic criteria and comparison groups.

Results: We included 1161 primary studies published between January 1979 and June 2019. Based on title/abstract analysis, no single causal factor dominated in these studies, and studies reported a mean of 2.73 factors. The four most common factors were: immunological (297 studies), psychological (243), infections (198), and neuroendocrinal (198). The most frequent study designs were case-control studies (894 studies) comparing CFS/ME patients with healthy participants. More than half of the studies (that reported study size in the title/abstract) included 100 or fewer participants.

Conclusion: The field of causal hypotheses of CFS/ME is diverse, and we found that the studies examined all the main categories of possible factors that we had defined a priori. Most studies were not designed to adequately explore causality, rather to establish hypotheses. We need larger studies with stronger study designs to gain better knowledge of causal factors of CFS/ME.

Source: Muller AE, Tveito K, Bakken IJ, Flottorp SA, Mjaaland S, Larun L. Potential causal factors of CFS/ME: a concise and systematic scoping review of factors researched. J Transl Med. 2020 Dec 14;18(1):484. doi: 10.1186/s12967-020-02665-6. PMID: 33317576. https://pubmed.ncbi.nlm.nih.gov/33317576/

Chronic Disease Stakeholders Join SOLVE M.E. in Push for Federally Funded Research into Long COVID

Press Release: LOS ANGELES, Dec. 4, 2020 /PRNewswire/ — Twenty leading chronic disease stakeholders joined the Solve ME/CFS Initiative (Solve M.E.) in authoring a powerful letter urging Congress to fund millions of dollars in new National Institutes of Health (NIH) and Centers for Disease Control and Prevention (CDC) research into the post-viral health complications for long-term COVID-19 (Long COVID) survivors. To view a copy of the letter, click here.

With more than 13.9 million coronavirus infections in the U.S., the letter emphasizes the importance of research into chronic conditions known to be associated with viral triggers, such as: Myalgic Encephalomyelitis/Chronic Fatigue Syndrome (ME/CFS), Dysautonomia, Mast Cell Activation Syndrome (MCAS), and Postural Orthostatic Tachycardia Syndrome (POTS), among others. Authors of the letter include: Solve ME/CFS Initiative, National Health Council, National Organization for Women, #MEAction, Open Medicine Foundation, Dysautonomia International, The Mast Cell Disease Society, Body Politic, COVID-19 Longhauler Advocacy Project, Hadassah, American Medical Women’s Association, Nurse Practitioners in Women’s Health, HealthyWomen, Bateman-Horne Center, Institute for Neuro-immune Medicine, Pandora.Org, Sex and Gender Health Collaborative, Minnesota ME/CFS Alliance, The Shane Foundation, Massachusetts ME/CFS & FM Association, & The American Dysautonomia Institute.

Letter serves as a warning about the increasing number of COVID-19 patients experiencing post-viral complications.

“Preliminary evidence suggests that nearly five million Americans will experience Long COVID regardless of infection severity, which will likely result in a post-viral chronic fatigue crisis,” said Oved Amitay, CEO of Solve M.E. “Solve M.E. and our stakeholder allies call on Congress to act now to support new NIH and CDC funding for research into the health needs of this rapidly growing patient population.”

The letter cites warnings from leading public health officials — including Dr. Anthony Fauci, Director of the National Institute of Allergy and Infectious Diseases — about the estimated 3.2 million Americans that could be temporarily or permanently disabled by Long COVID symptoms. Indeed, studies show that 66 percent of patients with post-viral acute respiratory distress syndrome report experiencing severe fatigue after 12 months, consistent with Dr. Fauci’s analysis that Long COVID symptoms are “highly suggestive” of ME/CFS. These alarming statistics underscore the urgent need for funding, research, diagnostics, and treatment into Long COVID.

Chronic disease experts unanimously agree that in order to adequately address Long COVID complications, Congress must act immediately and appropriate the following funds:

$110 million for the establishment of Long COVID Collaborative Research Centers and Centers of Excellence;
$60 million toward expanding post-viral disease research;
$3.5 million for the development and issuance of medical guidance about Long COVID to medical providers and front-line health professionals; and
$300,000 toward convening experts and stakeholders to establish data harmonization.

“We strongly encourage these funds be allocated to the NIH and CDC by way of the congressional appropriations process or a future COVID-19 relief package so this critically important research can begin immediately,” said Amitay.

About Solve ME/CFS Initiative

Solve M.E. is the leading, national non-profit organization solely dedicated to solving ME/CFS. We are committed to making ME/CFS understood, diagnosable, and treatable. Solve M.E. works to accelerate the discovery of safe and effective treatments and strives for an aggressive expansion of funding for research that will lead to a cure.

To learn more, visit our website at www.solveCFS.org

Media Inquiries Only Contact
Emily Taylor
Director of Advocacy and Communications
714-296-1661
ETaylor@solvecfs.org

Informatics Inference of Exercise-Induced Modulation of Brain Pathways Based on Cerebrospinal Fluid Micro-RNAs in Myalgic Encephalomyelitis/Chronic Fatigue Syndrome

Abstract:

Introduction: The post-exertional malaise of myalgic encephalomyelitis/chronic fatigue syndrome (ME/CFS) was modeled by comparing micro-RNA (miRNA) in cerebrospinal fluid from subjects who had no exercise versus submaximal exercise.

Materials and Methods: Differentially expressed miRNAs were examined by informatics methods to predict potential targets and regulatory pathways affected by exercise.

Results: miR-608, miR-328, miR-200a-5p, miR-93-3p, and miR-92a-3p had higher levels in subjects who rested overnight (nonexercise n=45) compared to subjects who had exercised before their lumbar punctures (n=15). The combination was examined in DIANA MiRpath v3.0, TarBase, Cytoscape, and Ingenuity software® to select the intersection of target mRNAs. DIANA found 33 targets that may be elevated after exercise, including TGFBR1, IGFR1, and CDC42. Adhesion and adherens junctions were the most frequent pathways. Ingenuity selected seven targets that had complementary mechanistic pathways involving GNAQ, ADCY3, RAP1B, and PIK3R3. Potential target cells expressing high levels of these genes included choroid plexus, neurons, and microglia.

Conclusion: The reduction of this combination of miRNAs in cerebrospinal fluid after exercise suggested upregulation of phosphoinositol signaling pathways and altered adhesion during the post-exertional malaise of ME/CFS.

Clinical Trial Registration Nos.: NCT01291758 and NCT00810225.

Source: Narayan V, Shivapurkar N, Baraniuk JN. Informatics Inference of Exercise-Induced Modulation of Brain Pathways Based on Cerebrospinal Fluid Micro-RNAs in Myalgic Encephalomyelitis/Chronic Fatigue Syndrome. Netw Syst Med. 2020 Nov 18;3(1):142-158. doi: 10.1089/nsm.2019.0009. PMID: 33274349; PMCID: PMC7703497.  https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7703497/ (Full text)

High Prevalence of Perineural Cysts in Patients with Fibromyalgia and Chronic Fatigue Syndrome

Abstract:

Objective: Pain in fibromyalgia (FM) and chronic fatigue syndrome (CFS) is assumed to originate from central sensitization. Perineural cysts or Tarlov cysts (TCs) are nerve root dilations resulting from pathologically increased cerebrospinal fluid pressure. These cysts initially affect sensory neurons and axons in dorsal root ganglia and produce sensory symptoms (pain and paresthesia). Symptomatic TC (STC) patients often complain about widespread pain and fatigue. Consequently, STC patients may initially be diagnosed with FM, CFS, or both. The objective of this study was to document the prevalence of TCs in patients diagnosed with FM or CFS.

Design: A retrospective study.

Setting: An outpatient clinic for musculoskeletal disorders.

Subjects: Patients diagnosed with FM according to the 1990 American College of Rheumatology criteria or with CFS according to the 1994 Centers for Disease Control criteria were selected.

Methods: Review of lumbar and sacral magnetic resonance imaging scans including TCs ≥5 mm in size.

Results: In total, 197 patients with FM, CFS, or both underwent magnetic resonance imaging. Ninety-one percent were women. The mean age was 48.1 (±11.9) years. TCs were observed in 39% of patients, with a mean size of 11.8 (±5.2) mm. In males, the prevalence was 12%, vs. 42% in females.

Conclusions: In patients diagnosed with FM or CFS, the prevalence of TCs was three times higher than that in the general population. This observation supports the hypothesis that STCs, FM, and CFS may share the same pathophysiological mechanism, i.e., moderately increased cerebrospinal fluid pressure, causing irritation of neurons and axons in dorsal root ganglia.

Source: Hulens M, Bruyninckx F, Dankaerts W, Rasschaert R, De Mulder P, Stalmans I, Vansant G, Bervoets C. High Prevalence of Perineural Cysts in Patients with Fibromyalgia and Chronic Fatigue Syndrome. Pain Med. 2020 Dec 1:pnaa410. doi: 10.1093/pm/pnaa410. Epub ahead of print. PMID: 33260218. https://pubmed.ncbi.nlm.nih.gov/33260218/

Role of mitochondria, oxidative stress and the response to antioxidants in myalgic encephalomyelitis/chronic fatigue syndrome: a possible approach to SARS-CoV-2 ‘long-haulers’?

Abstract:

A significant number of SARS-CoV-2 (COVID-19) pandemic patients have developed chronic symptoms lasting weeks or months which are very similar to those described for myalgic encephalomyelitis/chronic fatigue syndrome. This paper reviews the current literature and understanding of the role that mitochondria, oxidative stress and antioxidants may play in the understanding of the pathophysiology and treatment of chronic fatigue. It describes what is known about the dysfunctional pathways which can develop in mitochondria and their relationship to chronic fatigue. It also reviews what is known about oxidative stress and how this can be related to the pathophysiology of fatigue, as well as examining the potential for specific therapy directed at mitochondria for the treatment of chronic fatigue in the form of antioxidants. This review identifies areas which require urgent, further research in order to fully elucidate the clinical and therapeutic potential of these approaches.

Source: Wood E, Hall KH, Tate W. Role of mitochondria, oxidative stress and the response to antioxidants in myalgic encephalomyelitis/chronic fatigue syndrome: a possible approach to SARS-CoV-2 ‘long-haulers’? Chronic Dis Transl Med. 2020 Nov 21. doi: 10.1016/j.cdtm.2020.11.002. Epub ahead of print. PMID: 33251031; PMCID: PMC7680046.  https://pubmed.ncbi.nlm.nih.gov/33251031/

Multi-omics examination of Q fever fatigue syndrome identifies similarities with chronic fatigue syndrome

Abstract:

Background: Q fever fatigue syndrome (QFS) is characterised by a state of prolonged fatigue that is seen in 20% of acute Q fever infections and has major health-related consequences. The molecular mechanisms underlying QFS are largely unclear. In order to better understand its pathogenesis, we applied a multi-omics approach to study the patterns of the gut microbiome, blood metabolome, and inflammatory proteome of QFS patients, and compared these with those of chronic fatigue syndrome (CFS) patients and healthy controls (HC).

Methods: The study population consisted of 31 QFS patients, 50 CFS patients, and 72 HC. All subjects were matched for age, gender, and general geographical region (South-East part of the Netherlands). The gut microbiome composition was assessed by Metagenomic sequencing using the Illumina HiSeq platform. A total of 92 circulating inflammatory markers were measured using Proximity Extension Essay and 1607 metabolic features were assessed with a high-throughput non-targeted metabolomics approach.

Results: Inflammatory markers, including 4E-BP1 (P = 9.60-16 and 1.41-7) and MMP-1 (P = 7.09-9 and 3.51-9), are significantly more expressed in both QFS and CFS patients compared to HC. Blood metabolite profiles show significant differences when comparing QFS (319 metabolites) and CFS (441 metabolites) patients to HC, and are significantly enriched in pathways like sphingolipid (P = 0.0256 and 0.0033) metabolism. When comparing QFS to CFS patients, almost no significant differences in metabolome were found. Comparison of microbiome taxonomy of QFS and CFS patients with that of HC, shows both in- and decreases in abundancies in Bacteroidetes (with emphasis on Bacteroides and Alistiples spp.), and Firmicutes and Actinobacteria (with emphasis on Ruminococcus and Bifidobacterium spp.). When we compare QFS patients to CFS patients, there is a striking resemblance and hardly any significant differences in microbiome taxonomy are found.

Conclusions: We show that QFS and CFS patients are similar across three different omics layers and 4E-BP1 and MMP-1 have the potential to distinguish QFS and CFS patients from HC.

Source: Raijmakers RPH, Roerink ME, Jansen AFM, Keijmel SP, Gacesa R, Li Y, Joosten LAB, van der Meer JWM, Netea MG, Bleeker-Rovers CP, Xu CJ. Multi-omics examination of Q fever fatigue syndrome identifies similarities with chronic fatigue syndrome. J Transl Med. 2020 Nov 26;18(1):448. doi: 10.1186/s12967-020-02585-5. PMID: 33243243. https://translational-medicine.biomedcentral.com/articles/10.1186/s12967-020-02585-5  (Full text)

ME (Ramsay) and ME-International Case Criteria (ME-ICC): two distinct clinical entities

Excerpt:

The review of the differences and similarities in the different case definitions for myalgic encephalomyelitis (ME)/chronic fatigue syndrome (CFS) by Lim and Son [1] deserves appreciation. Based on their analysis the authors acknowledge the “distinct view of ME and CFS” [2] and recognize four categories of case definitions: ME, ME/CFS, CFS [3] and Systemic Exertion Intolerance Disorder (SEID) [4].

Indeed these labels reflect very different case definitions [5]. According to Lim and Son [1] the first category comprises two ‘ME’ case definitions: ME (Ramsay) [6] and ME according to the International Case Criteria (ME-ICC) [7]. However as can be deduced from Table 2 [1], ME [6] and ME-ICC [7] are two distinct clinical entities [8].

Source: Twisk FNM. ME (Ramsay) and ME-International Case Criteria (ME-ICC): two distinct clinical entities. J Transl Med. 2020 Nov 25;18(1):447. doi: 10.1186/s12967-020-02617-0. PMID: 33239008. https://translational-medicine.biomedcentral.com/articles/10.1186/s12967-020-02617-0 (Full text)

The Interplay between Oxidative Stress, Exercise, and Pain in Health and Disease: Potential Role of Autonomic Regulation and Epigenetic Mechanisms

Abstract:

Oxidative stress can be induced by various stimuli and altered in certain conditions, including exercise and pain. Although many studies have investigated oxidative stress in relation to either exercise or pain, the literature presents conflicting results. Therefore, this review critically discusses existing literature about this topic, aiming to provide a clear overview of known interactions between oxidative stress, exercise, and pain in healthy people as well as in people with chronic pain, and to highlight possible confounding factors to keep in mind when reflecting on these interactions. In addition, autonomic regulation and epigenetic mechanisms are proposed as potential mechanisms of action underlying the interplay between oxidative stress, exercise, and pain.

This review highlights that the relation between oxidative stress, exercise, and pain is poorly understood and not straightforward, as it is dependent on the characteristics of exercise, but also on which population is investigated. To be able to compare studies on this topic, strict guidelines should be developed to limit the effect of several confounding factors. This way, the true interplay between oxidative stress, exercise, and pain, and the underlying mechanisms of action can be revealed and validated via independent studies.

Source: Hendrix J, Nijs J, Ickmans K, Godderis L, Ghosh M, Polli A. The Interplay between Oxidative Stress, Exercise, and Pain in Health and Disease: Potential Role of Autonomic Regulation and Epigenetic Mechanisms. Antioxidants (Basel). 2020 Nov 23;9(11):1166. doi: 10.3390/antiox9111166. PMID: 33238564; PMCID: PMC7700330. https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7700330/  (Full text)

Fibromyalgia and Chronic Fatigue Syndrome in the Age of COVID-19

Excerpt:

It has been demonstrated that clinical outcomes of COVID-19 are significantly worse in persons with advanced age and those with “traditional” medical comorbidities (cardiovascular disease, pulmonary disease, diabetes, malignancy, and immunosuppression). But what about the ever-increasing group of people in our society, many of whom do not have “traditional” medical comorbidities, who suffer chronically from pain, fatigue, and functional decline? We are referring to patients with fibromyalgia (FM) and chronic fatigue syndrome (CFS): 2 conditions that, although medically distinct, share a common pathophysiological etiology: central sensitization (CS).

Source: Mohabbat AB, Mohabbat NML, Wight EC. Fibromyalgia and Chronic Fatigue Syndrome in the Age of COVID-19. Mayo Clin Proc Innov Qual Outcomes. 2020 Nov 13. doi: 10.1016/j.mayocpiqo.2020.08.002. Epub ahead of print. PMID: 33204998; PMCID: PMC7661943. https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7661943/ (Full text)