A systematic review of enteric dysbiosis in chronic fatigue syndrome/myalgic encephalomyelitis

Abstract:

BACKGROUND: Chronic fatigue syndrome or myalgic encephalomyelitis (CFS/ME) is an illness characterised by profound and pervasive fatigue in addition to a heterogeneous constellation of symptoms. The aetiology of this condition remains unknown; however, it has been previously suggested that enteric dysbiosis is implicated in the pathogenesis of CFS/ME. This review examines the evidence currently available for the presence of abnormal microbial ecology in CFS/ME in comparison to healthy controls, with one exception being probiotic-supplemented CFS/ME patients, and whether the composition of the microbiome plays a role in symptom causation.

METHODS: EMBASE, Medline (via EBSCOhost), Pubmed and Scopus were systematically searched from 1994 to March 2018. All studies that investigated the gut microbiome composition of CFS/ME patients were initially included prior to the application of specific exclusion criteria. The association between these findings and patient-centred outcomes (fatigue, quality of life, gastrointestinal symptoms, psychological wellbeing) are also reported.

RESULTS: Seven studies that met the inclusion criteria were included in the review. The microbiome composition of CFS/ME patients was compared with healthy controls, with the exception of one study that compared to probiotic-supplemented CFS/ME patients. Differences were reported in each study; however, only three were considered statistically significant, and the findings across all studies were inconsistent. The quality of the studies included in this review scored between poor (< 54%), fair (54-72%) and good (94-100%) using the Downs and Black checklist.

CONCLUSIONS: There is currently insufficient evidence for enteric dysbiosis playing a significant role in the pathomechanism of CFS/ME. Recommendations for future research in this field include the use of consistent criteria for the diagnosis of CFS/ME, reduction of confounding variables by controlling factors that influence microbiome composition prior to sample collection and including more severe cases of CFS/ME.

Source: Du Preez S, Corbitt M, Cabanas H, Eaton N, Staines D, Marshall-Gradisnik S. A systematic review of enteric dysbiosis in chronic fatigue syndrome/myalgic encephalomyelitis. Syst Rev. 2018 Dec 20;7(1):241. doi: 10.1186/s13643-018-0909-0. https://systematicreviewsjournal.biomedcentral.com/articles/10.1186/s13643-018-0909-0 (Full article)

The link between idiopathic intracranial hypertension, fibromyalgia, and chronic fatigue syndrome: exploration of a shared pathophysiology

Abstract:

PURPOSE: Idiopathic intracranial hypertension (IICH) is a condition characterized by raised intracranial pressure (ICP), and its diagnosis is established when the opening pressure measured during a lumbar puncture is elevated >20 cm H2O in nonobese patients or >25 cm H2O in obese patients. Papilledema is caused by forced filling of the optic nerve sheath with cerebrospinal fluid (CSF). Other common but underappreciated symptoms of IICH are neck pain, back pain, and radicular pain in the arms and legs resulting from associated increased spinal pressure and forced filling of the spinal nerves with CSF. Widespread pain and also several other characteristics of IICH share notable similarities with characteristics of fibromyalgia (FM) and chronic fatigue syndrome (CFS), two overlapping chronic pain conditions. The aim of this review was to compare literature data regarding the characteristics of IICH, FM, and CFS and to link the shared data to an apparent underlying physiopathology, that is, increased ICP.

METHODS: Data in the literature regarding these three conditions were compared and linked to the hypothesis of the shared underlying physiopathology of increased cerebrospinal pressure.

RESULTS: The shared characteristics of IICH, FM, and CFS that can be caused by increased ICP include headaches, fatigue, cognitive impairment, loss of gray matter, involvement of cranial nerves, and overload of the lymphatic olfactory pathway. Increased pressure in the spinal canal and in peripheral nerve root sheaths causes widespread pain, weakness in the arms and legs, walking difficulties (ataxia), and bladder, bowel, and sphincter symptoms. Additionally, IICH, FM, and CFS are frequently associated with sympathetic overactivity symptoms and obesity. These conditions share a strong female predominance and are frequently associated with Ehlers-Danlos syndrome.

CONCLUSION: IICH, FM, and CFS share a large variety of symptoms that might all be explained by the same pathophysiology of increased cerebrospinal pressure.

Source: Hulens M, Rasschaert R, Vansant G, Stalmans I, Bruyninckx F, Dankaerts. The link between idiopathic intracranial hypertension, fibromyalgia, and chronic fatigue syndrome: exploration of a shared pathophysiology. J Pain Res. 2018 Dec 10;11:3129-3140. doi: 10.2147/JPR.S186878. eCollection 2018. https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6292399/ (Full article)

Stress, inflammation and natural treatments

Abstract:

Stress and inflammation have become the curses of our times and are the main pathogenetic factors in multiple diseases that are often comorbid and include allergies and asthma, eczema and psoriasis, fibromyalgia syndrome, mast cell activation syndrome, irritable bowel syndrome, myalgic encephalomyelitis/chronic fatigue syndrome and autism spectrum disorder (ASD). Unfortunately, there are no effective drugs.

Cross-talk between mast cells and microglia in the hypothalamus and amygdala could explain stress-induced inflammation. We recently showed that the “alarmin” IL-33 could play a major role through its synergistic action with the neuropeptide substance P to stimulate human mast cell secretion of the pro-inflammatory molecules IL-1β, TNF and VEGF. A new formulation using pure luteolin with Ashwagandha has now been developed and could be of significant benefit to patients suffering from these diseases.

Source: Theoharides TC, Kavalioti M. Stress, inflammation and natural treatments. J Biol Regul Homeost Agents. 2018 Nov-Dec;32(6):1345-1347. https://www.ncbi.nlm.nih.gov/pubmed/30574737

WE’RE PROVIDING HELP WHERE IT’S MOST NEEDED

“Through the financial help from AMMES I’ve been given the invaluable gift of time. Now that I’m not constantly experiencing fear and anxiety about being able to maintain a roof over my head, keep the lights on, or have any food to eat, I have some time to put any energy I do have towards healing. Thank you Erica, AMMES, and all its generous donors. Your gifts have enabled me to begin changing my mental outlook from despair to one of hope.” R in Colorado

Last March, the American Myalgic Encephalomyelitis and Chronic Fatigue Syndrome Society (AMMES), a national non-profit, began fundraising for an ambitious, one-of-a-kind, project. We wanted to help severely ill patients who find themselves unable to pay their bills. The predicament of these patients has been known for a long time. Dr. Bell was reputed to have remarked that many of the people living in cars were CFS patients. The harsh reality is that for patients who have lost their income and have no other means of support, losing housing, being unable to pay for food, clothing, and medical expenses is a perpetual threat. It creates a situation in which patients become increasingly ill from the strain of trying to survive financially while struggling with a devastating illness.

Over the past six months, AMMES has given away over $25,000 to help these patients. The fund has paid for rent, clothing, food, utility bills, medical bills, phone bills, home care, and other basic necessities. The fund purchased a bed for a patient who had been sleeping on a couch, a co-pay for a wheelchair, and shoes for a patient who had only flip-flops after an abusive ex had destroyed all her clothing. By far the most common request is for rent. Several applicants have been on the verge of eviction. Nobody in this country should have to face living in a car, or on the street, or in a homeless shelter, let alone someone with a serious disease.

Who we help

Most of the people who apply for the program are severely ill, live alone, and have no financial support from family and friends. Some receive disability and food stamps, but rent and other necessities are seldom covered. In all cases, the applicants have been ill for many years, sometimes decades, with very little recognition.

When I asked one patient if she had experienced problems getting help, she replied “You are the first organization to help me, and you are the first to believe me.” This woman had been ill for over two decades. Her story has been repeated by everyone who has applied for the fund – years of getting little to no support, years of disbelief and hopelessness. This is the highly vulnerable population that AMMES’ financial crisis fund serves.

How it works

Applying for the financial crisis fund is fairly straightforward. Applicants fill out an application form with basic information, proof of financial necessity (this can be any form of government assistance, or an application for assistance or disability, even if it is denied), diagnosis of CFS, or something close to it, and documentation of what the grant is supposed to be for, so we know how much money to send. Once the application is received, the turnaround is one day.

Most people who have received funds have been astonished at the speed with which they receive support. As one patient explained, “Often, it would take days and sometimes a couple of weeks to complete all the paperwork and be told whether I qualified for assistance or not. During this time, I had no energy or time left to do anything else. Afterwards, I was so exhausted, all I could do was sleep. Many required that I provide proof of full-time work, which I could not do. All of the above did not understand the severity of the condition, or the devastating impact it was having in my life.”

AMMES does not make people jump through hoops. On the contrary, we get the funds to patients as soon as possible. We also we help patients fill out the application form if necessary. Some patients have significant cognitive problems, and may leave out important information. At times a single phone call is all that is necessary to verify information that is incomplete or ambiguous.

Find out more about the financial crisis fund here: https://ammes.org/ammes-financial-crisis-fund/

What AMMES needs

We want to help more people! Please make donations to our financial crisis fund! To keep it going for next year, we need $25,000. This will enable us to double the number of people we can help. We have not yet had to turn anyone away, and we hope that with enough contributions, we can help everyone who comes our way in 2019.

Something we also have great need of is a case worker. The crisis fund is good for emergencies, but what happens to these patients in the long-run? After this month’s rent is paid, what then? Someone with experience as a social worker or case worker could help patients meet long-term financial requirements. A case worker could also guide patients through the process of applying for government assistance. This can be a daunting task for people with cognitive problems and very little energy.

Please help! You can donate to AMMES here: https://ammes.org/donate/

AMMES is a 501(c)(3) nonprofit. Donations are tax deductible.

 

The UK ME/CFS Biobank: A Disease-Specific Biobank for Advancing Clinical Research Into Myalgic Encephalomyelitis/Chronic Fatigue Syndrome

Abstract:

Myalgic encephalomyelitis/chronic fatigue syndrome (ME/CFS) is a disabling disease characterized by unexplained incapacitating fatigue, accompanied by variable multi-systemic symptoms. ME/CFS causes a significant personal and public health burden, and urgently requires the coordination of research efforts to investigate its etiology and pathophysiology and to develop and validate sensitive and specific biomarkers to confirm diagnosis.

This narrative paper describes how people with ME/CFS, together with a multidisciplinary team of researchers, have established the UK ME/CFS Biobank (UKMEB), a unique research infrastructure specifically designed to expedite biomedical research into ME/CFS. We describe the journey that led to its conceptualization and operation, and how the resource has served as a model disease-specific biobank, aggregating human biospecimens alongside comprehensive health information on participants.

The UKMEB currently has data and samples from 600 donors including people with ME/CFS and a comparison group with multiple sclerosis and healthy controls. A longitudinal sub-cohort has been established of participants having follow-up assessments at multiple time-points. As an open resource for quality and ethical research into ME/CFS, biological samples and data have not only been analyzed within our research team but have also been shared with researchers across Europe, America and the Middle East. We continue to encourage researchers from academic and commercial sectors to access the UKMEB. Major steps have been taken and challenges remain; these include sustainability and expansion, and harmonization of processes to facilitate integration with other bioresources and databanks internationally.

Source: Lacerda EM, Mudie K, Kingdon CC, Butterworth JD, O’Boyle S, Nacul L. The UK ME/CFS Biobank: A Disease-Specific Biobank for Advancing Clinical Research Into Myalgic Encephalomyelitis/Chronic Fatigue Syndrome. Front Neurol. 2018 Dec 4;9:1026. doi: 10.3389/fneur.2018.01026.
eCollection 2018. https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6288193/ (Full article)

Myalgic Encephalomyelitis/Chronic Fatigue Syndrome in the Era of the Human Microbiome: Persistent Pathogens Drive Chronic Symptoms by Interfering With Host Metabolism, Gene Expression, and Immunity

Abstract:

The illness ME/CFS has been repeatedly tied to infectious agents such as Epstein Barr Virus. Expanding research on the human microbiome now allows ME/CFS-associated pathogens to be studied as interacting members of human microbiome communities. Humans harbor these vast ecosystems of bacteria, viruses and fungi in nearly all tissue and blood. Most well-studied inflammatory conditions are tied to dysbiosis or imbalance of the human microbiome. While gut microbiome dysbiosis has been identified in ME/CFS, microbes and viruses outside the gut can also contribute to the illness.

Pathobionts, and their associated proteins/metabolites, often control human metabolism and gene expression in a manner that pushes the body toward a state of illness. Intracellular pathogens, including many associated with ME/CFS, drive microbiome dysbiosis by directly interfering with human transcription, translation, and DNA repair processes. Molecular mimicry between host and pathogen proteins/metabolites further complicates this interference. Other human pathogens disable mitochondria or dysregulate host nervous system signaling. Antibodies and/or clonal T cells identified in patients with ME/CFS are likely activated in response to these persistent microbiome pathogens.

Different human pathogens have evolved similar survival mechanisms to disable the host immune response and host metabolic pathways. The metabolic dysfunction driven by these organisms can result in similar clusters of inflammatory symptoms. ME/CFS may be driven by this pathogen-induced dysfunction, with the nature of dysbiosis and symptom presentation varying based on a patient’s unique infectious and environmental history. Under such conditions, patients would benefit from treatments that support the human immune system in an effort to reverse the infectious disease process.

Source: Proal A, Marshall T. Myalgic Encephalomyelitis/Chronic Fatigue Syndrome in the Era of the Human Microbiome: Persistent Pathogens Drive Chronic Symptoms by Interfering With Host Metabolism, Gene Expression, and Immunity. Front Pediatr. 2018 Dec 4;6:373. doi: 10.3389/fped.2018.00373. eCollection 2018. https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6288442/ (Full article)

Persistent fatigue induced by interferon-alpha: a novel, inflammation-based, proxy model of chronic fatigue syndrome

Abstract:

The role of immune or infective triggers in the pathogenesis of Chronic Fatigue Syndrome (CFS) is not yet fully understood. Barriers to obtaining immune measures at baseline (i.e., before the trigger) in CFS and post-infective fatigue model cohorts have prevented the study of pre-existing immune dysfunction and subsequent immune changes in response to the trigger. This study presents interferon-alpha (IFN-α)-induced persistent fatigue as a model of CFS. IFN-α, which is used in the treatment of chronic Hepatitis C Virus (HCV) infection, induces a persistent fatigue in some individuals, which does not abate post-treatment, that is, once there is no longer immune activation. This model allows for the assessment of patients before and during exposure to the immune trigger, and afterwards when the original trigger is no longer present.

Fifty-five patients undergoing IFN-α treatment for chronic HCV were assessed at baseline, during the 6-12 months of IFN-α treatment, and at six-months post-treatment. Measures of fatigue, cytokines and kynurenine pathway metabolites were obtained. Fifty-four CFS patients and 57 healthy volunteers completed the same measures at a one-off assessment, which were compared with post-treatment follow-up measures from the HCV patients. Eighteen patients undergoing IFN-α treatment (33%) were subsequently defined as having ‘persistent fatigue’ (the proposed model for CFS), if their levels of fatigue were higher six-months post-treatment than at baseline; the other 67% were considered ‘resolved fatigue’.

Patients who went on to develop persistent fatigue experienced a greater increase in fatigue symptoms over the first four weeks of IFN-α, compared with patients who did not (Δ Treatment Week (TW)-0 vs. TW4; PF: 7.1 ± 1.5 vs. RF: 4.0 ± 0.8, p = 0.046). Moreover, there was a trend towards increased baseline interleukin (IL)-6, and significantly higher baseline IL-10 levels, as well as higher levels of these cytokines in response to IFN-α treatment, alongside concurrent increases in fatigue. Levels increased to more than double those of the other patients by Treatment Week (TW)4 (p =  0.011 for IL-6 and p = 0.001 for IL-10).

There was no evidence of an association between persistent fatigue and peripheral inflammation six-months post-treatment, nor did we observe peripheral inflammation in the CFS cohort. While there were changes in kynurenine metabolites in response to IFN-α, there was no association with persistent fatigue. CFS patients had lower levels of the ratio of kynurenine to tryptophan and 3-hydroxykynurenine than controls. Future studies are needed to elucidate the mechanisms behind the initial exaggerated response of the immune system in those who go on to experience persistent fatigue even if the immune trigger is no longer present, and the change from acute to chronic fatigue in the absence of continued peripheral immune activation.

Source: Russell A, Hepgul N, Nikkheslat N, Borsini A, Zajkowska Z, Moll N, Forton D, Agarwal K, Chalder T, Mondelli V, Hotopf M, Cleare A, Murphy,  G, Foster G, Wong T, Schütze GA, Schwarz MJ, Harrison N, Zunszain PA, Pariante CM. Persistent fatigue induced by interferon-alpha: a novel, inflammation-based, proxy model of chronic fatigue syndrome. Psychoneuroendocrinology. 2018 Dec 14. pii: S0306-4530(18)30196-3.  doi: 10.1016/j.psyneuen.2018.11.032. [Epub ahead of print] https://www.ncbi.nlm.nih.gov/pubmed/30567628

Myalgic Encephalomyelitis or What? The International Consensus Criteria

Abstract:

Myalgic encephalomyelitis (ME) is a neuromuscular disease with two distinctive types of symptoms (muscle fatigability or prolonged muscle weakness after minor exertion and symptoms related to neurological disturbance, especially of sensory, cognitive, and autonomic functions) and variable involvement of other bodily systems. Chronic fatigue syndrome (CFS), introduced in 1988 and re-specified in 1994, is defined as (unexplained) chronic fatigue accompanied by at least four out of eight listed (ill-defined) symptoms. Although ME and CFS are two distinct clinical entities (with partial overlap), CFS overshadowed ME for decades.

In 2011, a panel of experts recommended abandoning the label CFS and its definition and proposed a new definition of ME: the International Consensus Criteria for ME (ME-ICC). In addition to post-exertional neuroimmune exhaustion (PENE), a mandatory feature, a patient must experience at least three symptoms related to neurological impairments; at least three symptoms related to immune, gastro-intestinal, and genitourinary impairments; and at least one symptom related to energy production or transportation impairments to meet the diagnosis of ME-ICC.

A comparison between the original definition of ME and the ME-ICC shows that there are some crucial differences between ME and ME-ICC. Muscle fatigability, or long-lasting post-exertional muscle weakness, is the hallmark feature of ME, while this symptom is facultative for the diagnosis under the ME-ICC. PENE, an abstract notion that is very different from post-exertional muscle weakness, is the hallmark feature of the ME-ICC but is not required for the diagnosis of ME. The diagnosis of ME requires only two type of symptoms (post-exertional muscle weakness and neurological dysfunction), but a patient has to experience at least eight symptoms to meet the diagnosis according to the ME-ICC. Autonomic, sensory, and cognitive dysfunction, mandatory for the diagnosis of ME, are not compulsory to meet the ME-ICC subcriteria for ‘neurological impairments’.

In conclusion, the diagnostic criteria for ME and of the ME-ICC define two different patient groups. Thus, the definitions of ME and ME-ICC are not interchangeable.

Source: Twisk, F. Myalgic Encephalomyelitis or What? The International Consensus Criteria. Diagnostics 2019, 9, 1. https://www.mdpi.com/2075-4418/9/1/1/htm (Full article)

VIDEO: Jarred Younger, PhD | How Brain Inflammation Causes ME/CFS

Jarred Younger studied Psychophysiology at the University of Tennessee in Knoxville in 2003. He then completed postdoctoral fellowships in pain medicine and neuroimaging at Arizona State University and Stanford University before joining the faculty at Stanford in 2009. In 2014, he transferred to the University of Alabama at Birmingham, where he currently directs the Neuroinflammation, Pain and Fatigue Laboratory. His lab uses neuroimaging, immune monitoring, and clinical trial techniques to develop new diagnostic tests and treatments for pain and fatigue disorders.

You can read the full transcript HERE.

A compromised paraventricular nucleus within a dysfunctional hypothalamus: A novel neuroinflammatory paradigm for ME/CFS

[Editor’s comment: While nicely explored in this article, the idea that the limbic system is the main driver behind ME/CFS symptoms is hardly new. Jay Goldstein in his 286-page book, Chronic Fatigue Syndromes: The Limbic Hypothesis (June 1993), examines the important role of the limbic system, and in particular the hypothalamus, in ME/CFS pathophysiology. The authors of this article fail to give him a mention.]

Abstract:

A neuroinflammatory paradigm is presented to help explain the pathophysiology of myalgic encephalomyelitis/chronic fatigue syndrome (ME/CFS). The hypothalamic paraventricular nucleus (PVN) is responsible for absorbing and processing multiple, incoming and convergent ‘stress’ signals, and if this cluster of neurons were affected (by neuroinflammation), the ongoing hypersensitivity of ME/CFS patients to a wide range of ‘stressors’ could be explained. Neuroinflammation that was chronic and fluctuating, as ‘inflammatory-marker’ studies support, could reflect a dynamic change in the hypothalamic PVN’s threshold for managing incoming ‘stress’ signals.

This may not only be a mechanism underpinning the characteristic feature of ME/CFS, post-exertional malaise, and its associated debilitating relapses, but could also be responsible for mediating the long-term perpetuation of the disease. Triggers (sustained physiological ‘stressors’) of ME/CFS, such as a particular viral infection, toxin exposure, or a traumatic event, could also target the hypothalamic PVN, a potentially vulnerable site in the brains of ME/CFS susceptible people, and disruption of its complex neural circuitry could account for the onset of ME/CFS. In common with the different ‘endogenous factors’ identified in the early ‘neuroinflammatory’ stages of the ‘neurodegenerative’ diseases, an as yet, unidentified factor within the brains and central nervous system (CNS) of ME/CFS patients might induce both an initial and then sustained ‘neuroinflammatory’ response by its ‘innate immune system’.

Positron emission tomography/magnetic resonance imaging has reinforced evidence of glial cell activation centred on the brain’s limbic system of ME/CFS patients. Neuroinflammation causing dysfunction of the limbic system and its hypothalamus together with a consequently disrupted autonomic nervous system could account for the diverse range of symptoms in ME/CFS relating, in particular to fatigue, mood, cognitive function, sleep, thermostatic control, gastrointestinal disturbance, and hypotension.

Source: Angus Mackay, Warren P Tate. A compromised paraventricular nucleus within a dysfunctional hypothalamus: A novel neuroinflammatory paradigm for ME/CFS. International Journal of Immunopathology and Pharmacology. First Published December 6, 2018. https://doi.org/10.1177/2058738418812342  https://journals.sagepub.com/doi/full/10.1177/2058738418812342 (Full article)