Chronic fatigue syndrome does exist. Changes of biological parameters are measurable

Abstract:

Chronic fatigue syndrome is a debilitating condition characterised by neurocognitive and somatic symptoms. Although many patients report an infectious onset, there is no unequivocal evidence to support this. The immune system is activated, and the hypothalamic-pituitary-adrenal axis is involved. The aetiology is complex, and its understanding may require modification of our views on ill-health and disease.

 

Source: Evengård B, Komaroff AL. Chronic fatigue syndrome does exist. Changes of biological parameters are measurable. Lakartidningen. 1999 Jun 30;96(26-27):3166-9. [Article in Swedish] http://www.ncbi.nlm.nih.gov/pubmed/10423976

 

Differences in adrenal steroid profile in chronic fatigue syndrome, in depression and in health

Abstract:

BACKGROUND: Hyperactivity and hypoactivity of the HPA have been forwarded as of pathophysiological relevance in major depressive disorder and chronic fatigue syndrome (CFS), respectively.

METHODS: This study examines cortisol levels in the two disorders, and also assesses levels of the adrenal androgens, dehydroepiandrosterone (DHEA) and its sulphate derivative (DHEA-S), and 17-alpha-hydroxyprogesterone; 15 subjects with CFS diagnosed according to CDC criteria, 15 subjects with DSM III-R major depression and 11 healthy subjects were compared.

RESULTS: DHEA and DHEA-S levels were significantly lower in the CFS compared to the healthy group; DHEA-S levels, but not DHEA, were lower in the depressives; cortisol and 17-alpha-hydroxyprogesterone did not differ between the three groups.

CONCLUSIONS: A potential role for DHEA, both therapeutically and as a diagnostic tool, in CFS, is suggested.

 

Source: Scott LV, Salahuddin F, Cooney J, Svec F, Dinan TG. Differences in adrenal steroid profile in chronic fatigue syndrome, in depression and in health. J Affect Disord. 1999 Jul;54(1-2):129-37. http://www.ncbi.nlm.nih.gov/pubmed/10403156

 

The chronic fatigue and neurasthenia in the student population

Abstract:

INTRODUCTION: Fatigue is one of the most common symptoms in community studies, primary care and other medical setting. In spite of a high frequency of fatigue, the incidence of chronic fatigue syndrome is very low. In this paper, we want to know the frequency of chronic fatigue syndrome and neurasthenia; we want to know the association between fatigue and depressive symptoms in students.

METHODS: We studied 277 medical student, administering: 1. a center for disease control questionnaire to assess major criteria and minor criteria of chronic fatigue syndrome, 2. ICD 10 criteria for the diagnoses of neurasthenia and 3. Beck depression inventory.

RESULTS AND CONCLUSIONS: We found that the 37,55% of the subjects suffer fatigue. 9 subjects (3,25% of the total) meet the criteria of neurasthenia. 2 subjects (0,72% of the total) meet the chronic fatigue syndrome criteria. The depressive symptoms are most frequent in the subjects with fatigue, but we don’t know if they are the cause or the consequence of the fatigue. With the factorial analyses, we find that symptoms of physical fatigue, mental fatigue and cognitive difficulties are factor independent of each other.

 

Source: Mojarro Práxedes MD, Benjumea Pino P. The chronic fatigue and neurasthenia in the student population. Actas Esp Psiquiatr. 1999 Jan-Feb;27(1):14-21. [Article in Spanish] http://www.ncbi.nlm.nih.gov/pubmed/10380143

 

Critical life events, infections, and symptoms during the year preceding chronic fatigue syndrome (CFS): an examination of CFS patients and subjects with a nonspecific life crisis

Abstract:

OBJECTIVE: The purpose of this study was to describe the sequence of psychosocial events and infections preceding the onset of chronic fatigue syndrome (CFS). This information was related to the temporal development of crucial symptoms in relation to the onset of, namely, fatigue, sadness, irritability, pain, and feeling of fever.

METHODS: A personal interview was conducted in 46 patients (mean age, 39.5 years; SD, 9 years) who fulfilled international CFS criteria. These patients were matched with regard to age and gender to 46 carefully matched control subjects. Twenty-three percent of the study subjects were men, and 77% were women. The patient at first identified the month that coincided with the onset of CFS. Similarly, each control subject was asked to identify a “very difficult period” within approximately the same period as the patient with whom the control subject was matched. A list of 14 different life events was perused. Participants were asked to identify for each month whether each of the listed events had occurred. Furthermore, they were asked to rate the importance of the events they had experienced. In addition, for each of the cardinal symptoms (fatigue, sadness, irritability, pain, and feeling of fever) and for each month, the subjects were asked to rate, on a visual analogue scale, the symptom intensity. Also, the number of infections was noted.

RESULTS: A statistically significant group difference in fatigue intensity existed during the period 4 to 10 months before the onset of CFS. During the 3 months preceding the diagnosis for the CFS patients or the peak of the crisis for the control group, there was a dramatic rise in fatigue in both groups. The CFS group reached a much higher fatigue level, which leveled off somewhat during the first year of follow-up but still remained very high in comparison with the control group, which reached precrisis levels 4 months after the peak. Similar patterns were observed for fever and pain. With regard to sadness and irritability, no group difference was observed during the period preceding the crisis. In the patient group, the level stayed high throughout the whole first year of follow-up, whereas a slow return started in the control group; precrisis levels were reached after 1 year in this group. The prevalence ratio (CFS patients/control subjects) for negative events was around 1.0 for the periods 4 to 12 months preceding CFS but 1.9 during the quarter year preceding the onset. For infections, the prevalence ratio increased successively during the four quarters preceding CFS (from 1.4 to 2.3).

CONCLUSIONS: According to the retrospective self-reports, there were differences between the groups in fatigue, pain, and feeling of fever during the months preceding the crisis. With regard to depressive and irritable feelings, no preillness differences were reported between the groups. There was a reported excess prevalence of both infections and negative life events during the quarter year preceding the onset of CFS or crisis. Potential sources of error are discussed. These findings must be replicated in longitudinal studies.

 

Source: Theorell T, Blomkvist V, Lindh G, Evengård B. Critical life events, infections, and symptoms during the year preceding chronic fatigue syndrome (CFS): an examination of CFS patients and subjects with a nonspecific life crisis. Psychosom Med. 1999 May-Jun;61(3):304-10. http://www.ncbi.nlm.nih.gov/pubmed/10367610

 

Is depression associated with immune activation?

Abstract:

BACKGROUND: Some research immunologists have suggested that major depression amd chronic fatigue syndrome (CFS) are characterized by immune activation. To test this hypothesis, we compared immunological function in patients with major depression and in patients with CFS who developed major depression after the onset of CFS to that of sedentary healthy controls.

METHODS: Subjects completed the Centers for Epidemiological Study-Depression (CES-D) questionnaire and allowed venisection. We performed flow cytometric analysis on 13 groups of white blood cells and used a reverse transcriptase PCR method to assay m-RNA of eight cytokines.

RESULTS: CES-D scores were high in both patient groups and did not differ significantly. We found no evidence for immune activation in either patient group. Instead the data suggested immunological downregulation in depression.

LIMITATIONS: Not all the subjects in the two patient groups were off antidepressants.

CONCLUSIONS: The data indicate that immune activation is not necessary in depression–either alone or with CFS.

 

Source: Natelson BH, Denny T, Zhou XD, LaManca JJ, Ottenweller JE, Tiersky L, DeLuca J, Gause WC. Is depression associated with immune activation? J Affect Disord. 1999 May;53(2):179-84. http://www.ncbi.nlm.nih.gov/pubmed/10360413

 

One Test Too Many: Toward an Integrated Approach to Psychosomatic Disorders

Abstract:

Conditions such as chronic fatigue syndrome (CFS), fibromyalgia, and several others belong to the group of disorders in which both physiologic and psychologic factors are substantially involved, and in some cases there may be no real distinction between the two. However, primary patient assessment usually employs an array of clinical tools, and only after known physiologic factors are excluded is the patient referred for psychologic or psychiatric evaluation. This chapter suggests that clinical evaluation should initially include both physiologic and psychosocial assessment, which would minimize the division and greatly improve the efficacy of the treatment.

 

Source: Rosenfeld WD, Walco GA. One Test Too Many: Toward an Integrated Approach to Psychosomatic Disorders. Adolesc Med. 1997 Oct;8(3):483-487. http://www.ncbi.nlm.nih.gov/pubmed/10360030

 

The fatigue syndrome in autoimmune thyroiditis with polyglandular activation of autoimmunity

Abstract:

The authors compared in a group of 118 patients with autoimmune thyroiditis and a positive antibody titre against ovaries the grade of fatigue with the presence of organ specific and non-specific autoantibodies in the peripheral blood stream, antibodies against EBV and CMV, immunoglobulin concentrations, biochemical parameters of the lipid metabolism, glucose tolerance, ion balance and melatonin and serotonin levels. Patients with autoimmune thyroiditis were differentiated according to the degree of fatigue into three groups: 38 with fatigue typical for CFS, 30 with occasional fatigue and 50 without the feeling of fatigue.

Fatigue of the CFS type was characterized by a significantly higher incidence of autoantibodies against the adrenals and a higher cholesterol level. Increased fatigue of the patients was associated with a lower melatonin level, a higher serotonin level and a lower M/S ratio as compared with patients without fatigue. In other indicators no differences were found. Fatigue in CFS could be associated, similarly as in autoimmune endocrinopathies, with impaired immunoendocrine regulation. In autoimmune thyroiditis, regardless of the concomitant presence of fatigue, in addition to antibodies against thyroid peroxidase most frequently antibodies against the ovaries were detected.

 

Source: Sterzl I, Fucíková T, Hrdá P, Matucha P, Zamrazil V. The fatigue syndrome in autoimmune thyroiditis with polyglandular activation of autoimmunity. Vnitr Lek. 1998 Aug;44(8):456-60. [Article in Czech] http://www.ncbi.nlm.nih.gov/pubmed/10358448

 

Dysthymia: clinical picture, extent of overlap with chronic fatigue syndrome, neuropharmacological considerations, and new therapeutic vistas

Abstract:

Dysthymia, as defined in the American Psychiatric Association and International Classification of Mental Disorders, refers to a prevalent form of subthreshold depressive pathology with gloominess, anhedonia, low drive and energy, low self-esteem and pessimistic outlook. Although comorbidity with panic, social phobic, and alcohol use disorders has been described, the most significant association is with major depressive episodes.

Family history is loaded with affective, including bipolar, disorders. The latter finding explains why dysthymia, especially when onset is in childhood, can lead to hypomanic switches, both spontaneously and upon pharmacologic challenge in as many as 30%.

Indeed, antidepressants from different classes -tricyclic antidepressants (TCAs), monoamine oxidase inhibitors (MAOIs), reversible inhibitors of monoamine oxidase A (RIMAs), selective serotonin-reuptake inhibitors (SSRIs) and, more recently, amisulpride, and spanning noradrenergic, serotonergic as well as dopaminergic mechanisms of action – have been shown to be effective against dysthymia in an average of 65% of cases. This is a promising development because social and characterologic disturbances so pervasive in dysthymia often, though not always, recede with continued pharmacotherapy beyond acute treatment.

Despite symptomatic overlap of dysthymia with chronic fatigue syndrome – especially with respect to the cluster of symptoms consisting of low drive, lethargy, lassitude and poor concentration – neither the psychopathologic status, nor the pharmacologic response profile of the latter syndrome is presently understood. Chronic fatigue today is where dysthymia was two decades ago.

We submit that the basic science – clinical paradigm that has proven so successful in dysthymia could, before too long, crack down the conundrum of chronic fatigue as well. At a more practical level, we raise the possibility that a subgroup within the chronic fatigue group represents a variant of dysthymia.

 

Source: Brunello N, Akiskal H, Boyer P, Gessa GL, Howland RH, Langer SZ, Mendlewicz J, Paes de Souza M, Placidi GF, Racagni G, Wessely S. Dysthymia: clinical picture, extent of overlap with chronic fatigue syndrome, neuropharmacological considerations, and new therapeutic vistas. J Affect Disord. 1999 Jan-Mar;52(1-3):275-90. http://www.ncbi.nlm.nih.gov/pubmed/10357046

 

Desmopressin augments pituitary-adrenal responsivity to corticotropin-releasing hormone in subjects with chronic fatigue syndrome and in healthy volunteers

Abstract:

BACKGROUND: Corticotropin-releasing hormone (CRH) and vasopressin (VP) are the two principal neuropeptide regulators of the hypothalamic-pituitary-adrenal axis in man, with VP serving to augment CRH-induced adrenocorticotropic hormone (ACTH) release. Unlike VP, desmopressin (DDAVP), which is a synthetic analogue of VP, when administered alone, has not been shown in healthy subjects to have consistent ACTH-releasing properties. It has been suggested that chronic fatigue syndrome (CFS), characterized by profound fatigue and a constellation of other symptoms, may be caused by a central deficiency of CRH.

METHODS: We administered 100 micrograms ovine CRH (oCRH) and 10 micrograms DDAVP, both alone and in combination, to a group of subjects with CFS, and to a group of healthy volunteers. Our aim was to establish the effect of DDAVP on CRH-induced ACTH release in these two groups.

RESULTS: The delta-ACTH responses to oCRH were attenuated in the CFS (21.0 +/- 4.5 ng/L) compared to the control subjects (57.8 +/- 11.0 ng/L; t = 3.2, df = 21, p < .005). The delta-cortisol responses were also reduced in the CFS (157.6 +/- 40.7 nmol/L) compared to the healthy subjects (303.5 +/- 20.9 nmol/L; t = 3.1, df = 21, p < .01). The delta-ACTH and delta-cortisol responses to DDAVP alone did not differ between the two groups. On administration of both CRH and DDAVP no response differences between the two groups for either ACTH (p = .3) or cortisol output (p = .87) were established. Comparing the ACTH and cortisol responses to CRH and CRH/DDAVP in only those individuals from each group who had both tests, the cortisol output to the combination was significantly greater in the CFS compared to the healthy group. The ACTH output was also increased in the former group, though this was not significant.

CONCLUSIONS: DDAVP augments CRH-mediated pituitary-adrenal responsivity in healthy subjects and in patients with CFS. That DDAVP was capable of normalizing the pituitary-adrenal response to oCRH in the CFS group suggests there may be increased vasopressinergic responsivity of the anterior pituitary in CFS and/or that DDAVP may be exerting an effect at an adrenal level.

 

Source: Scott LV, Medbak S, Dinan TG. Desmopressin augments pituitary-adrenal responsivity to corticotropin-releasing hormone in subjects with chronic fatigue syndrome and in healthy volunteers. Biol Psychiatry. 1999 Jun 1;45(11):1447-54. http://www.ncbi.nlm.nih.gov/pubmed/10356627

 

Single aetiological agent may not be feasible in CFS patients

Comment on: Cortisol deficiency may account for elevated apoptotic cell population in patients with chronic fatigue syndrome. [J Intern Med. 1999]

 

Dear Sir, I would like to thank Dr Baschetti for his very interesting letter. I hope clinicians and CFS patients will be able to benefit from its contents. We agree that chronic fatigue syndrome (CFS) is an illness with uncertain aetiology. Although it is true that no single infectious agent has been identified as a primary cause of CFS, a variety of pathogens, including HTLV-II, EBV, cytomegalovirus, herpes simplex viruses 1 and 2, and human herpes viruses 6, 7 and 8, have been identified in CFS patients [1–7]. In addition to the pathogens previously mentioned, a recent study by our laboratory has identified Mycoplasma fermentans in a statistically significant number of CFS patients over non-CFS control subjects [8]. Further investigation is necessary to determine whether these pathogens are occurring secondarily to some immunological disturbances, as some investigators believe, or whether they are involved as a primary cause of symptoms characteristic of CFS. As mentioned by Dr Baschetti, various measures of immune function have been reported to be altered in CFS subjects, thereby suggesting an association rather than demonstrating a causative link. Abnormalities that have been reported include increased circulating immune complexes, reduced CD4 and CD8 T-lymphocyte subsets, diminished natural killer cell activity, reduction in IgG subclasses, reduced mitogenic response of lymphocytes, altered cytokine production, elevated titres of antibodies to a number of viruses and abnormal production of IFN [9–15]. However, similar immune functional abnormalities have been reported in patients exposed to toxic chemicals without evidence of viral infection or reactivation [16, 17]. Moreover, the symptomatologies described in these patients overlap with CFS patients, thus making the differentiation between the two groups extremely difficult [18–21]. In these articles, the substantial overlap between chemical sensitivity, fibromyalgia and CFA was discussed. It was concluded that the latter two conditions may involve chemical sensitivity and may even be the same disorder. In fact, in a separate study strictly with CFS patients without evidence of viral reactivation but exposed to methyl tertiary-butyl ether (MTBE) and benzene, we showed that programmed cell death and cell cycle were abnormal in both groups [22]. Similarly, in our original article published in this journal, we reported elevated apoptosis and abnormal cell cycle in CFS patients without a history of exposure to toxic chemicals. The interferon-induced protein kinase RNA (PKR) was found to be elevated in these patients as well and was therefore proposed as a possible mechanism of induction of apoptosis and cell cycle abnormalities [23].

 

You can read the rest of this comment here: http://onlinelibrary.wiley.com/doi/10.1046/j.1365-2796.1999.00479.x/full

 

Source: Vojdani A. Single aetiological agent may not be feasible in CFS patients. J Intern Med. 1999 Apr;245(4):410-2. http://onlinelibrary.wiley.com/doi/10.1046/j.1365-2796.1999.00479.x/full