Category: Symptoms

Myalgic encephalomyelitis

Note: This letter appeared in the Journal of the Royal Society of Medicine in March 1990.

 

We accept that Martin Lev (November 1989 JRSM, p 693) is correct to point out that the anxiety and depression noted in patients labelled as suffering from ‘ME’ are the consequence of ‘underlying organic processes’. The demonstration of hyperventilation in the overwhelming majority of these patients (Rosen SD, King JC, Nixon PGF, unpublished results), provides a clear metabolic reason for the anxiety (1-3). ‘Depression’ is a predictable reaction to the inability to make and sustain effort due in part to the ease of acidosis of muscle cells depleted of buffer base reserves(4).

We agree with Sargant(5), that the sufferers from the late stages of effort syndrome, who have nothing to gain from their ill health and much to lose, are among the most gifted and energetic of people, and consequently the most upset about the frustration caused by loss of performance.

~S D ROSEN Cardiac Registrar

~J C KING Honorary Head Occupational Therapist (Research)

~P G F NIXON Consultant Cardiologist Charing Cross Hospital London

 

 References

1 Lewis T, et al. Breathlessness in soldiers suffering from irritable heart. Br Med J 14 October 1916:517-19

2 Lum LC. The syndrome of chronic habitual hyperventilation. In: Hill OW, ed. Modern trends in psychosomatic medicine, vol. 3. London: Butterworths, 1976: 196-230

3 Groen JJ. The measurement of emotion and arousal in the clinical physiological laboratory and in medical practice. In: Levi L, ed. The emotions: their parameters and measurement. New York: Raven Press, 1975:727-46

4 Rosen SD, King JC, Nixon PGF. Magnetic resonance muscle studies. J R Soc Med 1988;81:676-7 5 Sargant W. Battle for the mind Aphysiology ofconversion and brain-washing. London: Heinemann 1957

 

Source:  Rosen, SD, King, JC, Nixon, PGF. Myalgic encephalomyelitis. Journal of the Royal Society of Medicine Volume 83 March 1990.  http://www.ncbi.nlm.nih.gov/pmc/articles/PMC1292587/

 

Sensory and cognitive event-related potentials in myalgic encephalomyelitis

Abstract:

Myalgic Encephalomyelitis (ME) is a form of post viral fatigue syndrome resulting in myalgia and fluctuating fatiguability. Symptoms reflecting central nervous system dysfunction are common and include muscle weakness, headache, sensory disturbances, poor short term memory and impairment of concentration.

In view of the fact that sensory and cognitive disturbances are experienced by many patients objective evidence was sought with multi-modality sensory evoked potentials and auditory event-related cognitive potentials in a group of ME patients both with and without the enteroviral antigen, VP1 test positive.

The auditory brainstem, median nerve somatosensory and pattern reversal checkerboard visual potentials were normal for all 37 patients tested. In contrast to the sensory potentials significant differences in the mean latencies of the cognitive potential N2 and P3 were found. Reaction times were also significantly prolonged but the performance in terms of error was not significantly affected. No significant difference emerged in any of the parameters for the VP1 test. P3 was abnormal in latency or amplitude in 36% of the VP1 positive patients for the frequency discrimination task and 48% for the more difficult duration discrimination task.

The abnormalities indicate attentional deficits in some patients and slower speed of information processing in others. The prolonged latencies observed in these patients have not been observed in patients with depression in many other studies.

 

Source: Prasher D, Smith A, Findley L. Sensory and cognitive event-related potentials in myalgic encephalomyelitis. J Neurol Neurosurg Psychiatry. 1990 Mar;53(3):247-53. http://www.ncbi.nlm.nih.gov/pubmed/2324756

Note: You can read the full article here: http://www.ncbi.nlm.nih.gov/pmc/articles/PMC1014138/

 

Nonrestorative sleep and symptoms after a febrile illness in patients with fibrositis and chronic fatigue syndromes

Abstract:

This review summarizes the physiologic and clinical evidence that shows nonrestorative sleep to be associated with chronic fatigue and diffuse myalgia after a flulike illness. Such a febrile illness may trigger alteration in sleep-wake brain and immune functions in patients with fibrositis or chronic fatigue syndromes.

 

Source: Moldofsky H. Nonrestorative sleep and symptoms after a febrile illness in patients with fibrositis and chronic fatigue syndromes. J Rheumatol Suppl. 1989 Nov;19:150-3. http://www.ncbi.nlm.nih.gov/pubmed/2691676

 

Sleep and symptoms in fibrositis syndrome after a febrile illness

Abstract:

Sleep physiology and symptoms of 9 patients with fibrositis syndrome secondary to a febrile illness were compared to 9 patients with fibrositis syndrome who did not attribute their symptoms to a febrile illness and to 10 healthy controls.

Both patient groups showed an alpha EEG (7.5 to 11 Hz) nonrapid eye movement sleep anomaly, had similar observed tender points, and self-ratings of musculoskeletal pain.

These findings suggest that patients with postfebrile fibrositis have a nonrestorative sleep disorder characteristic of patients with fibrositis syndrome and share similar symptoms with patients who have a “chronic fatigue syndrome.”

 

Source: Moldofsky H, Saskin P, Lue FA. Sleep and symptoms in fibrositis syndrome after a febrile illness. J Rheumatol. 1988 Nov;15(11):1701-4. http://www.ncbi.nlm.nih.gov/pubmed/3236304

 

Epidemic myalgic encephalomyelitis

The letter below, “Epidemic myalgic encephalomyelitis,” was published in the British Medical Journal in 1978. In it, the authors maintain that ME is an organic illness that exists as a distinct clinical entity with recognizable signs and symptoms. The authors propose that the cause may be “a persistent viral infection.

 

Epidemic myalgic encephalomyelitis

Outbreaks of the paralytic disease known as epidemic myalgic encephalomyelitis have puzzled doctors all over the world in the past 30 years. One of the best known of these epidemics was that at the Royal Free Hospital in London in 1955, which affected more than 300 people. (1) Most outbreaks tend to occur in the summer, young adults are predominantly affected, and the incidence is higher in women. The evidence suggests that infection is spread by personal contact, and young hospital personnel seem particularly at risk. The features common to every epidemic include headache, unusual muscular pains (which may be severe), lymphadenopathy-often of the posterior cervical lymph nodes-and low-grade fever.(2, 3) In a minority of cases frank neurological signs can be detected by careful clinical examination: there may be nystagmus, diplopia, myoclonus, bulbar weakness, motor weakness, increased or decreased tendon reflexes, disturbances of the sphincters, and extensor plantar responses.(2-7) Fasciculations, cranial nerve lesions, and extrapyramidal signs have also been reported. Most patients complain of paraesthesiae, and sensory loss is common.”(4) One characteristic feature of the disease is exhaustion, any effort producing generalised fatigue. Often there are psychiatric abnormalities, especially emotional lability and lack of concentration.(1- 3, 4) The clinical outcome may take any of three courses: some patients recover completely, some follow a relapsing course, and some are permanently incapacitated.(3)

At a symposium held recently at the Royal Society of Medicine to discuss the disease and plan research there was clear agreement that myalgic encephalomyelitis is a distinct nosological entity. Other terms that have been used to describe the disease were rejected as unsatisfactory for various reasons: the cardinal clinical features show that the disorder is an encephalomyelitis; “Iceland disease” is not specific enough; and “neuromyasthenia” suggests a relation to myasthenia gravis whereas the muscle fatigability is different, as are the electrophysiological findings.(8) Indeed, the exhaustion and tiredness are similar to that described by patients with multiple sclerosis.(9) From the patient’s point of view the designation benign is also misleading, since the illness may be devastating. Originally the term was used because no deaths had been recorded from myalgic encephalomyelitis. Two patients who had had the disease have now been examined post mortem: one was found to have multiple sclerosis. The adjective epidemic is correct, since most cases occur in an epidemic, but the disease may be endemic, and sporadic cases may occur. (10-12)

Some authors have attempted to dismiss this disease as hysterical, (13) but the evidence now makes such a tenet unacceptable. Some purely psychiatric symptoms may well occur, particularly in patients entering the chronic phase. No doubt, too, in an epidemic some hysterical persons will simulate the symptoms of the disease. Nevertheless, the organic basis is clear-from the finding that the putative agent can be transferred to monkeys(14); the detection of an increased urinary output of creatine2 (15); the persistent finding of abnormal lymphocytes in the peripheral blood of some patients (16); the presence of lymphocytes and an increased protein concentration in the cerebrospinal fluid of occasional patients (3); and the neurological findings. At this symposium more evidence was produced to support the organic nature of the disease. Increased serum concentrations of lactic dehydrogenases and transaminases have been found in several patients examined during the acute attack. In a recent outbreak in London immunological studies showed a high incidence of serum anticomplementary activity and the presence of ill-defined aggregates on electron microscopy of acute-phase sera.(17) A perplexing finding, suggesting the possibility of a persistent virus infection, was the ability of lymphocytes from patients to proliferate and survive in vitro for up to 19 weeks. The results of electroencephalographic studies were also stated to be abnormal, confirming other reports. (10)

We still know nothing about the nature and cause of epidemic myalgic encephalomyelitis, but outbreaks are still occurring. Future epidemics should be studied by a collaborative team of neurologists, epidemiologists, virologists, and immunologists. Its findings would be important not only for the study of epidemic myalgic encephalomyelitis but also for other neurological disorders, including multiple sclerosis.

1 British Medical Journal, 1957, 2, 895.

2 White, D N, and Burtch, R B, Neurology, 1954, 4, 506.

3 Acheson, E D, American Journal of Medicine, 1959, 26, 569.

4 Gilliam, A G, Epidemiological Study of an Epidemic, Public Health Bulletin, No 240. US Public Health Service, Washington, 1938.

5 Acheson, E D, Lancet, 1955, 2, 394.

6 Pellew, R A A, Medical Journal of Australia, 1951, 1, 944.

7 Hill, R C J, South African Medical Journal, 1955, 29, 344.

8 Richardson, A T, Annals of Physical Medicine, 1956, 3, 81.

9 McAlpine, D, Compston, N D, and Lumsden, C E, Multiple Sclerosis, chap 5. Edinburgh and London, Livingstone, 1955. ”

10 Ramsay, A M, and O’Sullivan, E, Lancet, 1956, 1, 761.

11 Jelinek, J E, Lancet, 1956, 2, 494.

12 Ramsay, A M, Lancet, 1957, 2, 1196.

13 McEvedey, C P, and Beard, A W, British Medical Journal, 1970, 1, 7.

14 Pellew, R A A, and Miles, J A R, Medical Journal of Australia, 1955, 2, 480.

15 Albrecht, R M, Oliver, V L, and Poskanzer, D C, Journal of the American Medical Association, 1964, 187, 904.

16 Wallis, A L, MD Thesis, Edinburgh University, 1957.

17 Dillon, M J, et al, British Medical Journal, 1974, 1, 301.

 

Source: BRITISH MEDICAL JOURNAL 3 JUNE 1978 1436-1437

You can read and download a PDF file of the letter at:  http://www.ncbi.nlm.nih.gov/pmc/articles/PMC1604957/?page=1