Tag: Bansal

Prevalence of Aspergillus-Derived Mycotoxins (Ochratoxin, Aflatoxin, and Gliotoxin) and Their Distribution in the Urinalysis of ME/CFS Patients

Abstract:

Myalgic encephalomyelitis/chronic fatigue syndrome (ME/CFS) is a known complex, multi-organ system disorder with a sudden or subacute onset. ME/CFS occurs most commonly among women between 30 and 50 years of age. The current diagnostic criteria of ME/CFS, as defined by the Centers for Disease Control and Prevention, includes: profound fatigue and post-exertional malaise (>6 mo) unrelieved by rest, persistent cognitive impairment or orthostatic intolerance, and chronic unrefreshing sleep.

Despite reported associations between ME/CFS onset and exposure to infectious agents (viral, bacterial, or fungal), the pathophysiology of ME/CFS remains unknown. In this prevalence study, we investigated the rates of Aspergillus-derived toxin levels, Aflatoxin (AF), Ochratoxin A (OTA), and Gliotoxin (GT), in the urinalysis of 236 ME/CFS patients with a history of chronic exposure to mold (i.e., from water-damaged buildings).

Among ME/CFS patients reporting chronic exposure to mold, we found evidence of exposure in 92.4 percent of patients, with OTA being the most prevalent mycotoxin. Mold distributions (OTA, AF, and GT) in the urinalysis all demonstrated right skewness, while the distribution of age of ME/CFS patients diagnosed showed no deviation from normality.

This study aims to provide preliminary, epidemiological evidence among ME/CFS patients who were diagnosed in South Florida with a history of exposure to mycotoxins. Based on these findings, we proposed how future control studies should approach investigating the association between chronic mold exposure and the diagnosis of ME/CFS.

Source: Wu TY, Khorramshahi T, Taylor LA, Bansal NS, Rodriguez B, Rey IR. Prevalence of Aspergillus-Derived Mycotoxins (Ochratoxin, Aflatoxin, and Gliotoxin) and Their Distribution in the Urinalysis of ME/CFS Patients. Int J Environ Res Public Health. 2022 Feb 12;19(4):2052. doi: 10.3390/ijerph19042052. PMID: 35206241. https://www.mdpi.com/1660-4601/19/4/2052 (Full text)

COVID-19 and Chronic Fatigue Syndrome: An Endocrine Perspective

Abstract:

Patients recovering from COVID-19 may have persistent debilitating symptoms requiring long term support through individually tailored cardiopulmonary and psychological rehabilitation programs. Clinicians need to be aware about the likely long-term complications and their diagnostic assessments to help identify any occult problems requiring additional help. Endocrinological evaluations should be considered as part of the armamentarium in the management of such individuals with diligent cognizance about the involvement of the hypothalamo-pituitary-adrenal (HPA) axis, adrenals, and thyroid.

Source: Bansal R, Gubbi S, Koch CA. COVID-19 and Chronic Fatigue Syndrome: An Endocrine Perspective. J Clin Transl Endocrinol. 2021 Dec 3:100284. doi: 10.1016/j.jcte.2021.100284. Epub ahead of print. PMID: 34877261; PMCID: PMC8641402. https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8641402/ (Full text)

Chronic fatigue syndrome and the immune system: Where are we now?

Abstract:

Myalgic encephalomyelitis/chronic fatigue syndrome (ME/CFS) is characterised by multiple symptoms including fatigue, headaches and cognitive impairment, which have a significantly adverse effect on the normal functioning and well-being of the individual. These symptoms are often triggered or worsened following physical or mental exertion. ME/CFS has long been thought of as having a significant immunological component, but reports describing changes in immune function are often inconsistent between study groups.

Although the wide range of physical, neurocognitive and autonomic symptoms reported have seriously hampered attempts to understand pathophysiological pathways, investment in biomedical research in ME/CFS is finally increasing with a number of novel and promising investigations being published. The onset of ME/CFS may often be linked to (viral) infections which would be consistent with a variety of alterations in natural killer (NK) cell function as described by a number of different groups. Consistency in cytokine data has been lacking so far, although recently more sophisticated approaches have led to more robust data from large patient cohorts.

New hope has also been given to sufferers with the possibility that therapies that deplete B cells can result in clinical improvement. To understand the pathogenic mechanism in this complex condition, it is important to consider repeated analysis in different cohorts. In this review, we will discuss the potential of different components of the immune system to be involved in the pathogenesis of ME/CFS.

Copyright © 2017 Elsevier Masson SAS. All rights reserved

 

Source: Mensah FKF, Bansal AS, Ford B, Cambridge G. Chronic fatigue syndrome and the immune system: Where are we now? Neurophysiol Clin. 2017 Apr 11. pii: S0987-7053(17)30006-0. doi: 10.1016/j.neucli.2017.02.002. [Epub ahead of print] https://www.ncbi.nlm.nih.gov/pubmed/28410877

 

Investigating unexplained fatigue in general practice with a particular focus on CFS/ME

Abstract:

Unexplained fatigue is not infrequent in the community. It presents a number of challenges to the primary care physician and particularly if the clinical examination and routine investigations are normal. However, while fatigue is a feature of many common illnesses, it is the main problem in Chronic Fatigue Syndrome/Myalgic Encephalomyelitis (CFS/ME). This is a poorly understood condition that is accompanied by several additional symptoms which suggest a subtle multisystem dysfunction. Not infrequently it is complicated by sleep disturbance and alterations in attention, memory and mood.

Specialised services for the diagnosis and management of CFS/ME are markedly deficient in the UK and indeed in virtually all countries around the world. However, unexplained fatigue and CFS/ME may be confidently diagnosed on the basis of specific clinical criteria combined with the normality of routine blood tests. The latter include those that assess inflammation, autoimmunity, endocrine dysfunction and gluten sensitivity. Early diagnosis and intervention in general practice will do much to reduce patient anxiety, encourage improvement and prevent expensive unnecessary investigations.

There is presently an on-going debate as to the precise criteria that best confirms CFS/ME to the exclusion of other medical and psychiatric/psychological causes of chronic fatigue. There is also some disagreement as to best means of investigating and managing this very challenging condition. Uncertainty here can contribute to patient stress which in some individuals can perpetuate and aggravate symptoms. A simple clinical scoring system and a short list of routine investigations should help discriminate CFS/ME from other causes of continued fatigue.

 

Source: Bansal AS. Investigating unexplained fatigue in general practice with a particular focus on CFS/ME. BMC Fam Pract. 2016 Jul 19;17:81. doi: 10.1186/s12875-016-0493-0. https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4950776/ (Full article)

 

Comments

Ellen M Goudsmit 2016 Jul 24 07:44 a.m.
I am not persuaded that ME, as described by clinicians and researchers prior to 1988, has much to do with neurasthenia. Indeed, fatigue was not a criterion for the diagnosis of ME [1]. It presents as a more neurological disorder, e.g. muscle weakness after minimal exertion. References to CFS/ME are misleading where research used criteria for chronic fatigue or CFS, rather than ME. The assumption of equivalence has been tested and the differences are of clinical significance.

A useful strategy to avoid post-exertion related exacerbations is pacing [2]. I missed a reference.

1 Goudsmit, EM, Shepherd, C., Dancey, CP and Howes, S. ME: Chronic fatigue syndrome or a distinct clinical entity? Health Psychology Update, 2009, 18, 1, 26-33. http://www.bpsshop.org.uk/Health-Psychology-Update-Vol-18-No-1-2009-P797.aspx

2 Goudsmit, EM., Jason, LA, Nijs, J and Wallman, KE. Pacing as a strategy to improve energy management in myalgic encephalomyelitis/chronic fatigue syndrome: A consensus document. Disability and Rehabilitation, 2012, 34, 13, 1140-1147. doi: 10.3109/09638288.2011.635746.
Tom Kindlon 2016 Jul 21 8:49 p.m.
Some information on an unpublished study on pupil responses:
Dr Bansal mentions he has observed unusual responses by the pupils to light. I thought I would highlight a study that was done in the late 1990s looking at this. Unfortunately the researcher passed away before it could be published. Perhaps there are better sources than these lay articles but I thought they might be of some use in the hope that the finding might be followed up again.

Eye test hope for ME sufferers

Jenny Hope

A new eye test can ‘see’ changes in the brain triggered by the crippling disease ME. The advance comes from a number of research projects that could lead to better treatments for the illness once ridiculed as ‘yuppie flu’.

It gives fresh hope to an estimated 150,000 victims of chronic fatigue syndrome, which can leave those worst affected bedridden with pain, suffering short-term memory loss and unable to walk even short distances.

Scientists at the Royal Free Hospital and the City University in London have found a way to measure changes in the eyes of ME patients which may show they lack an important brain chemical.

A study by Dr Ian James and Professor John Barbur checked the pupils of 16 ME patients and 24 healthy individuals, using a computer to measure changes identified between the two groups.

They found patients with chronic fatigue had larger pupils and also had a stronger reaction to light and other stimuli. The changes could be linked to a deficiency of the brain chemical serotonin, which is known to occur in ME and is also linked to depression.

Professor John Hughes, chairman of the Chronic Fatigue Syndrome Research Foundation, said the research should make it possible to understand changes occurring in the brain of a sufferer.

This could help those studying the effect of different drugs and possibly help doctors diagnose CFS, he added.

At present there are no reliable tests, although a checklist of symptoms developed five years ago is being used by doctors worldwide.

BREAKTHROUGH FOR ME by Geraint Jones

For years, ME has been treated with suspicion by doctors. Many believe that for every genuine sufferer there is another who simply believes himself to be ill. Experts cannot agree on whether the condition is a physical illness or a psychological disorder which exists only in the victim’s mind. One reason for this scepticism is that, as yet, no one has been able to provide an accurate diagnosis for ME, or myalgic encephalomyelitis, which is known to affect 150,000 people in Britain. There is no known cure and treatment is often based on antidepressant drugs like Prozae, with limited success.

All this may be about to change. Dr Ian James, consultant and reader in clinical pharmacology at London’s Royal Free Hospital School of Medicine, believes that he has found a way of diagnosing the chronic fatigue syndrome and hopes to use it to develop a treatment programme. The breakthrough came after months of research spearheaded by Dr James and Professor John Barbur of London’s City University. It centres round the discovery that the eyes of ME sufferers respond to light and motion stimuli in an unusual way.

“Several doctors treating ME patients noticed that they showed an abnormal pupil response”, says Dr James. “When the pupil is subjected to changes in light, or is required to alter focus from a close object to one further away, it does so by constricting and dilating. ME patients’ eyes do this as well but there is an initial period of instability when the pupil fluctuates in size”.

Using a computerised “pupilometer”, which precisely measures eye responses, Dr James embarked on a detailed study of this phenomenon on ME patients, using non-sufferers as a control. A variety of shapes were flashed on to a screen and moved across it, while a computer precisely measured pupil reflex to each of the 40 tests. Results confirmed that the pupil fluctuation was peculiar to those participants who suffered from ME.

Dr James concluded that the abnormal pupil response is a result of some kind of interference in the transfer of impulses from the brain to the eye. He believes that ME is the result of a deficiency of a neuro-transmitter called 5HT, whose job it is to pass impulses through nerves to cells. The eyes of ME sufferers treated with 5HT behave normally. “I do not yet know how the ME virus causes abnormalities in 5HT transmission but it does inhibit its function”, says Dr James.

 

Extended B cell phenotype in patients with myalgic encephalomyelitis/chronic fatigue syndrome: a cross-sectional study

Abstract:

Myalgic encephalomyelitis/chronic fatigue syndrome (ME/CFS) is a heterogeneous condition of unknown aetiology characterized by multiple symptoms including fatigue, post-exertional malaise and cognitive impairment, lasting for at least 6 months.

Recently, two clinical trials of B cell depletion therapy with rituximab (anti-CD20) reported convincing improvement in symptoms. A possible but undefined role for B cells has therefore been proposed. Studies of the relative percentages of B cell subsets in patients with ME/CFS have not revealed any reproducible differences from healthy controls (HC). In order to explore whether more subtle alterations in B cell subsets related to B cell differentiation exist in ME/CFS patients we used flow cytometry to immunophenotype CD19⁺ B cells. The panel utilized immunoglobulin (Ig)D, CD27 and CD38 (classical B cell subsets) together with additional markers.

A total of 38 patients fulfilling Canadian, Centre for Disease Control and Fukuda ME/CFS criteria and 32 age- and sex-matched HC were included. We found no difference in percentages of classical subsets between ME/CFS patients and HC. However, we observed an increase in frequency (P < 0·01) and expression (MFI; P = 0·03) of CD24 on total B cells, confined to IgD⁺ subsets. Within memory subsets, a higher frequency of CD21⁺ CD38⁻ B cells (> 20%) was associated with the presence of ME/CFS [odds ratio: 3·47 (1·15-10·46); P = 0·03] compared with HC, and there was a negative correlation with disease duration.

In conclusion, we identified possible changes in B cell phenotype in patients with ME/CFS. These may reflect altered B cell function and, if confirmed in other patient cohorts, could provide a platform for studies based on clinical course or responsiveness to rituximab therapy.

© 2016 British Society for Immunology.

 

Source: Mensah F, Bansal A, Berkovitz S, Sharma A, Reddy V, Leandro MJ, Cambridge G. Extended B cell phenotype in patients with myalgic encephalomyelitis/chronic fatigue syndrome: a cross-sectional study. Clin Exp Immunol. 2016 May;184(2):237-47. doi: 10.1111/cei.12749. Epub 2016 Feb 22. https://www.ncbi.nlm.nih.gov/pubmed/26646713

 

Altered functional B cell subset populations in patients with chronic fatigue syndrome compared to healthy controls

Abstract:

Chronic fatigue syndrome (CFS) is a heterogeneous disorder of unknown aetiology characterized by disabling fatigue, headaches, sleep disturbance and several other symptoms. The onset of CFS may follow a viral infection or period of stress. Patients with CFS do not have hypogammaglobulinaemia, predisposition to recurrent bacterial infections or symptoms of autoimmunity.

To date, defects in B cell numbers or function have not been shown in the literature. However, treatment with anti-B cell therapy using Rituximab has recently shown benefit to CFS patients. We therefore postulated that patients with CFS had a subtle humoral immune dysfunction, and performed extended B cell immunophenotyping.

We undertook a detailed characterization of the proportions of the different B cell subsets in 33 patients with CFS fulfilling the Canadian and Fukada criteria for CFS and compared these with 24 age- and gender-matched healthy controls (HC). CFS patients had greater numbers of naive B cells as a percentage of lymphocytes: 6·3 versus 3·9% in HC (P = 0·034), greater numbers of naive B cells as a percentage of B cells: 65 versus 47% in controls (P = 0·003), greater numbers of transitional B cells: 1·8 versus 0·8% in controls (P = 0·025) and reduced numbers of plasmablasts: 0·5 versus 0·9% in controls (P = 0·013). While the cause of these changes is unclear, we speculate whether they may suggest a subtle tendency to autoimmunity.

© 2012 British Society for Immunology.

 

Source: Bradley AS, Ford B, Bansal AS. Altered functional B cell subset populations in patients with chronic fatigue syndrome compared to healthy controls. Clin Exp Immunol. 2013 Apr;172(1):73-80. doi: 10.1111/cei.12043. https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3719933/ (Full article)