Cardiac Function – Page 8 – American ME and CFS Society

The relationship between neurally mediated hypotension and the chronic fatigue syndrome

Abstract:

OBJECTIVE: To compare the clinical symptoms and response evoked by upright tilt-table testing in healthy individuals and in a sample of those satisfying strict criteria for chronic fatigue syndrome.

DESIGN: Case-comparison study with mean (SD) follow-up of 24 (5) weeks.

SETTING: Tertiary care hospital.

PATIENTS AND OTHER PARTICIPANTS: A sample of 23 patients with chronic fatigue syndrome (five men and 18 women; mean age, 34 years), each of whom fulfilled the strict diagnostic criteria of the Centers for Disease Control and Prevention, was recruited from regional chronic fatigue support groups and from the investigators’ clinical practices. There were 14 healthy controls (four men and 10 women; mean age, 36 years).

INTERVENTIONS: Each subject completed a symptom questionnaire and underwent a three-stage upright tilt-table test (stage 1, 45 minutes at 70 degrees tilt; stage 2, 15 minutes at 70 degrees tilt with 1 to 2 micrograms/min of isoproterenol; and stage 3, 10 minutes at 70 degrees with 3 to 4 micrograms/min of isoproterenol). Patients were offered therapy with fludrocortisone, beta-adrenergic blocking agents, and disopyramide, alone or in combination, directed at neurally mediated hypotension.

MAIN OUTCOME MEASURES: Response to upright tilt and scores on symptom questionnaires prior to and during follow-up.

RESULTS: An abnormal response to upright tilt was observed in 22 of 23 patients with chronic fatigue syndrome vs four of 14 controls (P < .001). Seventy percent of chronic fatigue syndrome patients, but no controls, had an abnormal response during stage 1 (P < .001). Nine patients reported complete or nearly complete resolution of chronic fatigue syndrome symptoms after therapy directed at neurally mediated hypotension.

CONCLUSIONS: We conclude that chronic fatigue syndrome is associated with neurally mediated hypotension and that its symptoms may be improved in a subset of patients by therapy directed at this abnormal cardiovascular reflex.

Comment in:

Chronic fatigue syndrome and neurally mediated hypotension. [JAMA. 1996]

Orthostatic hypotension and chronic fatigue syndrome. [JAMA. 2001]

Chronic fatigue syndrome and neurally mediated hypotension. [JAMA. 1996]

Source: Bou-Holaigah I, Rowe PC, Kan J, Calkins H. The relationship between neurally mediated hypotension and the chronic fatigue syndrome. JAMA. 1995 Sep 27;274(12):961-7. http://www.ncbi.nlm.nih.gov/pubmed/7674527

Sympathetic overactivity in subjects complaining of unexplained fatigue

Abstract:

Theoretical and practical considerations suggest that in subjects complaining of fatigue, in the absence of evident organ dysfunction, an alteration in the autonomic nervous system might be present as a functional correlate.

Autoregressive spectral analysis of R-R interval variability from a surface ECG, was used in healthy control subjects (n = 24, age 45 +/- 4 years) and in subjects complaining of unexplained fatigue (n = 53, age 46 +/- 9 years) to obtain quantitative indices of the state of the sympathovagal balance, both at rest and during a mental stimulus (mental arithmetic), capable of enhancing sympathetic drive. Sympathetic and vagal modulations were inferred from the normalized powers of the low frequency and high frequency spectral components respectively.

We observed in patients, at rest, a prevailing low frequency component of R-R variability (patients low frequency = 73 +/- 11, control subjects 51 +/- 10 normalized units, P < 0.05). The responsiveness to mental arithmetic was reduced in patients as compared with controls. Systolic blood pressure variability did not differ. This suggested a selective imbalance in autonomic control of the sinoatrial node, characterized by sympathetic predominance as well as by vagal withdrawal, at rest.

The possibility of discriminating patients from control subjects on the basis of simple non-invasive functional markers might provide a better understanding of the mechanisms, clinical evolution and outcome of conditions such as the chronic fatigue syndrome, which lack ordinary evidence of disease, but comprise, as physiopathological correlate, a quantitative alteration of autonomic control.

Source: Pagani M, Lucini D, Mela GS, Langewitz W, Malliani A. Sympathetic overactivity in subjects complaining of unexplained fatigue. Clin Sci (Lond). 1994 Dec;87(6):655-61. http://www.ncbi.nlm.nih.gov/pubmed/7874856

Abnormal left ventricular myocardial dynamics in eleven patients with chronic fatigue syndrome

Abstract:

Eleven patients diagnosed with chronic fatigue syndrome were found to have abnormal left ventricular myocardial dynamics as indicated on MUGA studies. Among the abnormalities noted were abnormal wall motion at rest and stress, dilatation of the left ventricle, and segmental wall motion abnormalities.

Source: Dworkin HJ, Lawrie C, Bohdiewicz P, Lerner AM. Clin Nucl Med. 1994 Aug;19(8):675-7. http://www.ncbi.nlm.nih.gov/pubmed/7955743

Chronic fatigue syndrome: immune dysfunction, role of pathogens and toxic agents and neurological and cardial changes

Abstract:

375 patients with chronic fatigue syndrome (CFS) were examined using a standardized questionnaire and subsequent interview on 11 risk factors and 45 symptoms. Additionally immunologic, serologic, toxicologic, neuroradiologic, neurophysiologic and cardiologic investigations were performed.

Immunologic tests showed cellular immunodeficiences particularly in functional regard (pathological lymphocyte stimulation in 50% of the patients, disorders of granulocyte function in 44%). Furthermore variable deviations were found in the lymphocyte subpopulations (CD3, CD4, CD8, CD19, DR, Leu 11 + 19).

In the humoral part tendencies to low IgG-3- and IgG-1-subclass-levels occurred (59% respectively 11% of the patients) also as decreases in complement system (CH50, C3, C4, C1-esterase-inhibitor). In the group of activation markers and cytokines 42% of the investigated patients had circulating immune complexes (CIC), 47% increases of tumor-necrosis-factor (TNF-a) and 21% increases of soluble interleukin-2-receptor (IL-2-R).

The increased occurrence of autoantibodies in the CFS-patients (specially antinuclear anti-bodies [ANA], microsomal thyroid antibodies) suggest, that CFS is associated with or the beginning of manifest autoimmune disease.

Under the pathogens 78% of the patients had a striking serological constellation of Epstein-Barr-Virus (EBV-EA positive, low EBNA-titers), in the HHV-6-Virus 47% showed increased antibody-titers. Tests on further herpes viruses and on Borreliae, Chlamydiae, Candida and Amoebae were positive in 8 to 36% of the examined patients. Furthermore there were found variable deficits of vitamins and trace elements also as hormonal disturbances.

In 26% of the patients there were hints of pollutants (e.g. wood preservatives), in 32 patients blood-levels of pentachlorphenol (PCP) and gamma-hexachlorcyclohexan (γ-HCH, lindan) were measured, which showed vanable increases.

178 (83%) of 225 investigated patients showed disturbances of perfusion in cerebral SPECT imaging, 65 (29%) of 218 patients cerebral punctuate signal changes in cranial magnetic resonance imaging (MRI).

Neurophysiologic measurements (motor evoked potentials, MEP) showed in about 50% of 112 patients prolonged central motor conduction times. 62 patients were additionally investigated by myocardial SPECT-imaging, which was abnormal under exercise in 73%. Our data confirm the concept, that CFS must be considered as a complex psycho-neuro-immunological disorder.

Source: Hilgers A, Frank J. Chronic fatigue syndrome: immune dysfunction, role of pathogens and toxic agents and neurological and cardial changes. Wien Med Wochenschr. 1994;144(16):399-406.[Article in German] http://www.scopus.com/record/display.uri?eid=2-s2.0-0027940724&origin=inward&txGid=0

and http://www.ncbi.nlm.nih.gov/pubmed/7856214

Repetitively negative changing T waves at 24-h electrocardiographic monitors in patients with the chronic fatigue syndrome. Left ventricular dysfunction in a cohort

Abstract:

This study surveys the occurrence of repetitively negative to flat T waves, alternating with normal upright T waves in 24-h electrocardiographic recordings from a subspecialty infectious diseases outpatient practice during the years 1982 to 1990. Patients with normal resting electrocardiogram in the assayed leads, but with repetitively inverted to isoelectric abnormal T waves at Holter monitors, were considered to have abnormal readings.

A total of 300 patients had undergone a 24-h Holter monitor. This group included 24 individuals with chronic fatigue syndrome (CFS). This population was restricted to individuals 50 years old or younger, and the patients with CFS are compared with the patients without CFS.

One of the more striking differences between the two groups was the difference in abnormal Holter readings. The patients with CFS all had abnormal Holter readings, while 22.4 percent patients without CFS had abnormal readings (p < 0.01). We further report the occurrence of mild left ventricular dysfunction in 8 of 60 patients in continuing studies of this population with CFS, younger than 50 years old, and with no risk factors for coronary artery disease.

All 60 patients with CFS showed repetitively flat to inverted T waves alternating with normal T waves. Stress multiple gated acquisitions (MUGAs) (labeled erythrocytes with stannous pyrophosphate) were abnormal in eight patients with CFS. Although resting ejection fractions (EFs) were normal (mean, 60 percent), with increasing work loads (Kilopon meters [Kpms]), gross left ventricular dysfunction occurred. The fatigue of patients with CFS may be related to subtle cardiac dysfunction occurring at work loads common to ordinary living.

Source: Lerner AM, Lawrie C, Dworkin HS. Repetitively negative changing T waves at 24-h electrocardiographic monitors in patients with the chronic fatigue syndrome. Left ventricular dysfunction in a cohort. Chest. 1993 Nov;104(5):1417-21. http://www.ncbi.nlm.nih.gov/pubmed/8222798

Isolated diastolic dysfunction of the myocardium and its response to CoQ10 treatment

Abstract:

Symptoms of fatigue and activity impairment, atypical precordial pain, and cardiac arrhythmia frequently precede by years the development of congestive heart failure.

Of 115 patients with these symptoms, 60 were diagnosed as having hypertensive cardiovascular disease, 27 mitral valve prolapse syndrome, and 28 chronic fatigue syndrome. These symptoms are common with diastolic dysfunction, and diastolic function is energy dependent. All patients had blood pressure, clinical status, coenzyme Q10 (CoQ10) blood levels and echocardiographic measurement of diastolic function, systolic function, and myocardial thickness recorded before and after CoQ10 replacement.

At control, 63 patients were functional class III and 54 class II; all showed diastolic dysfunction; the mean CoQ10 blood level was 0.855 micrograms/ml; 65%, 15%, and 7% showed significant myocardial hypertrophy, and 87%, 30%, and 11% had elevated blood pressure readings in hypertensive disease, mitral valve prolapse and chronic fatigue syndrome respectively. Except for higher blood pressure levels and more myocardial thickening in the hypertensive patients, there was little difference between the three groups.

CoQ10 administration resulted in improvement in all; reduction in high blood pressure in 80%, and improvement in diastolic function in all patients with follow-up echocardiograms to date; a reduction in myocardial thickness in 53% of hypertensives and 36% of the combined prolapse and fatigue syndrome groups; and a reduced fractional shortening in those high at control and an increase in those initially low.(ABSTRACT TRUNCATED AT 250 WORDS)

Source: Langsjoen PH, Langsjoen PH, Folkers K. Isolated diastolic dysfunction of the myocardium and its response to CoQ10 treatment. Clin Investig. 1993;71(8 Suppl):S140-4. http://www.ncbi.nlm.nih.gov/pubmed/8241699

Myalgic encephalomyelitis: postviral fatigue and the heart

Note: This letter appeared in the November 11, 1989 issue of the British Medical Journal.

SIR, The controversial subject of myalgic encephalomyelitis has surfaced once more,(1) and I would like to contribute to the debate about its viral origins.

Persistent virus infections impair the specialised functions of cells. These include the synthesis of specific products such as heavy and light myosin chains, melanin, hormones, and immune functions.(2) Evidence of persistent enterovirus infection has been found in both dilated cardiomyopathy,(3-5) an organic disease discussed at a recent symposium,(3) and the more controversial myalgic encephalomyelitis.(6,7)

In murine myocarditis induced by Coxsackie viruses, more severe and lasting disease is associated with immunopathological processes, which include virus specific, cross reactive, and autoimmune reactions.(3, 8, 9) In Coxsackie viral myocarditis and cardiomyopathy of humans the antibodies that cross react with Coxsackie B antigens are reported.(3) Serum samples from patients with.cardiomyopathy may react with cardiac ,B adrenoreceptors, with mitochondrial ADP/ATP carriers, and with cell surface protein of the calcium channel causing calcium overload of myocytes and consequent dysfunction.(3) Thus a complex pattern of pathogenic mechanisms is emerging to explain dilated cardiomyopathy, which was formerly considered to be idiopathic but is now recognised as a late sequel of a proportion of cardiac infections with certain enteroviruses, particularly those of the Coxsackie B group. This does not exclude the possible role of other viruses-for example, arboviruses where these are prevalent-as initiators of such pathogenic processes.

It seems likely that similar immunological and metabolic disturbances in myalgic encephalomyelitis may also result from chronic infection, usually with enteroviruses, providing the organic basis of the postviral fatigue syndrome.(10) This condition is characterised by severe fatiguability and recuperation through rest. The myocardium, however, cannot rest-except terminally. Does “postviral dilated cardiomyopathy” represent the result of postviral fatigue syndrome of the unresting heart?

~NORMAN R GRIST Communicable Diseases (Scotland) Unit, Ruchill Hospital, Glasgow G20 9NB

References

1 Harris F, Taitz LS. Damaging diagnoses of myalgic encephalitis in children. BrMedj 1989;299:790. (23 September.)

2 Southern P, Oldstone MBA. Medical consequences of persistent viral infection. N Englj Med 1986;314:359-67.

3 Schultheiss HP, ed. New concepts in viral heart disease. Berlin: Springer, 1988.

4 Bowles NE, Richardson PJ, Olsen EGJ, Archard LC. Detection of Coxsackie-B-virus-specific RNA sequences in myocardial biopsy samples from patients with myocarditis and dilated cardiomyopathy. Lancet 1986;i: 1120-3.

5 Kandolf R, Kirschner P, Amies D, et al. Enteroviral heart disease: diagnosis by in situ hybridization. In: Schultheiss HP, ed. New concepts in viral heart disease. Berlin: Springer, 1988:337-48.

6 Yousef GE, Mann GF, Smith DG, et al. Chronic enterovirus infection in patients with postviral fatigue syndrome. Lancet 1988;i: 146-50.

7 Archard LC, Bowles NE, Behan PO, Bell EJ, Doyle D. Postviral fatigue syndrome: persistence of enterovirus RNA in muscle and elevated creatinine kinase. J R Soc Med 1988;81:326-9.

8 Huber SA. The role of immune mechanisms in pathogenesis. In: Bendinelli M, Friedman H, eds. Coxsackieviruses, a general update. New York: Plenum, 1988:103-16.

9 Beisel KW, Rose NR. Relationship of coxsackievirus to cardiac autoimmnunity. In: Bendinelli M, Friedmann H, eds. Coxsackievinruses, a general update. New York: Plenum, 1988:271-92.

10 Behan PO, Behan WMH, Bell EJ. The post-viral fatigue syndrome-an analysis of the findings in 50 cases. J Infect 1985;10:21 1-22.

Source: N. R. Grist. Myalgic encephalomyelitis: postviral fatigue and the heart. BMJ. 1989 Nov 11; 299(6709): 1219. http://www.ncbi.nlm.nih.gov/pmc/articles/PMC1838100/pdf/bmj00258-0049b.pdf

Cardiac function at rest and with exercise in the chronic fatigue syndrome

Abstract:

To evaluate a possible cardiac pathophysiology of the chronic fatigue syndrome, we compared the resting cardiac function and exercise performance of 41 patients to those of an age-matched and sex-matched normal control group.

Persistent fatigue following an acute apparently viral illness was the major complaint of all patients; none had specific cardiac symptoms nor abnormal physical findings. Electrocardiographic spatial patterns were normal in the patients, and there were no differences in the body surface sum of positive T-wave integrals between the patients (240 microV.x 10(2) +/- 107 microV.s x10(2)) and control (244 microV.x 10(2) +/- 108 microV.s x 10(2) subjects. Twenty-four hour ambulatory ECGs revealed no differences in sinus rates and incidences of ventricular dysrhythmias in the two populations. Left ventricular dimensions and systolic fractional shortening values were also similar in both groups; moreover none of the patients had segmental wall motion abnormalities.

On graded exercise testing, 20 of 32 normal subjects achieved target (85 percent of age-maximum) heart rates, compared to four of 31 patients (p less than 0.001). The duration of exercise averaged 12 +/- 4 minutes for the normal subjects and 9+/- 4 minutes for the patients (p less than 0.01). The temporal profile of exercise heart rates was dissimilar in the two groups, with patients’ rates consistently and progressively less than those of normal subjects. Peak heart rate averaged 152 +/- 16 beats per minute for the normal group vs 124 +/- 19 beats per minute for the patients (p less than 0.0001); in age-related terms, respectively, 82 +/- 6 percent of the maximum heart rate vs 66 +/- 10 percent (p less than 0.0001).

Thus, patients with chronic fatigue syndrome have normal resting cardiac function but a markedly abbreviated exercise capacity characterized by slow acceleration of heart rate and fatigue of exercising muscles long before peak heart rate is achieved.

(ABSTRACT TRUNCATED AT 250 WORDS)

Source: Montague TJ, Marrie TJ, Klassen GA, Bewick DJ, Horacek BM. Cardiac function at rest and with exercise in the chronic fatigue syndrome. Chest. 1989 Apr;95(4):779-84. http://www.ncbi.nlm.nih.gov/pubmed/2924607