Hostname: page-component-8448b6f56d-tj2md Total loading time: 0 Render date: 2024-04-25T06:36:55.183Z Has data issue: false hasContentIssue false
  • English
  • Français

Geomagnetic Storms: Association with Incidence of Depression as Measured by Hospital Admission

Published online by Cambridge University Press:  02 January 2018

Ronald W. Kay
Ronald W. Kay*
Affiliation:
Westbank Clinic, Falkirk, Stirlingshire
Get access Rights & Permissions [Opens in a new window]

Abstract

The hypothesis that geomagnetic storms may partly account for the seasonal variation in the incidence of depression, by acting as a precipitant of depressive illness in susceptible individuals, is supported by a statistically significant 36.2% increase in male hospital admissions with a diagnosis of depressed phase, manic-depressive illness in the second week following such storms compared with geomagnetically quiet control periods. There is a smaller but not statistically significant increase in female psychotic depression and non-psychotic depression admissions following storms. There was no correlation between geomagnetic storm levels and number of male admissions with psychotic depression, which is consistent with a threshold event affecting predisposed individuals. Phase advance in pineal circadian rhythms of melatonin synthesis may be a possible mechanism of causation or be present as a consequence of 5-hydroxytryptamine and adrenergic system dysfunction associated with geomagnetic disturbance. Effects on cell membrane permeability, calcium channel activity and retinal magneto-receptors are suggested as possible underlying biochemical mechanisms.

Type
Peer Review
Information
The British Journal of Psychiatry , Volume 164 , Issue 3 , March 1994 , pp. 403 - 409
Copyright
Copyright © 1994 The Royal College of Psychiatrists 

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

References

Adey, W. R. (1981) Tissue interactions with non-ionizing electromagnetic fields. Physiology Review, 61, 435513.Google Scholar
Allen, J. H. & Kihn, E. A. (1990) Major Magnetic Storms: Ap∗ (1932–1989) and AA∗ (1868–1988). Boulder, Colorado: National Geophysical Data Center.Google Scholar
American Psychiatric Association (1987) Diagnostic and Statistical Manual of Mental Disorders (3rd edn revised) (DSM–III–R). Washington, DC: APA.Google Scholar
Åsberg, M., Traskman, L. & Thoren, P. (1974) 5-H1AA in the cerebrospinal fluid. A biochemical suicide predictor. Archives of General Psychiatry, 33, 11931197.Google Scholar
Bliss, V. L. & Heppner, F. H. (1976) Circadian activity rhythm influenced by near zero magnetic field. Nature, 261, 411412.Google Scholar
Brown, F. A. (1976) Biological clocks: endogenous cycles synchronised by subtle geophysical rhythms. Biosystems, 8, 6781.Google Scholar
Brown, F. A. & Harris, T. (1978) Social Origins of Depression. London: Tavistock Publications.Google ScholarPubMed
Brzezinski, A., Lynch, H. J., Seibel, M. M., et al (1988) The circadian rhythm of plasma melatonin during the normal menstrual cycle and in amenorrheic women. Journal of Clinical Endocrinology and Metabolism, 66, 891895.Google Scholar
Casey, P. R., Dillon, S. & Tyrer, P. J. (1984) The diagnostic status of patients with conspicuous psychiatric morbidity in primary care. Psychological Medicine, 14, 673681.CrossRefGoogle ScholarPubMed
Cavallo, A. (1992) Plasma melatonin rhythm in normal puberty: Interactions of age and pubertal stages. Neuroendocrinology, 55, 372379.CrossRefGoogle ScholarPubMed
Cope, F. W. (1981) On the relativity and uncertainty of electromagnetic energy measurement at a superconductive boundary. Application to perception of weak magnetic fields by living systems. Physiological Chemistry and Physics, 13, 231239.Google Scholar
Demisch, K., Demisch, L., Bochnik, H. J., et al (1986) Melatonin and cortisol increase after fluvoxamine. British Journal of Clinical Pharmacology, 22, 620622.CrossRefGoogle ScholarPubMed
Demisch, K., Demisch, L., Nickelsen, T., et al (1987) The influence of acute and subchronic administration of various antidepressants on early morning melatonin plasma levels in healthy subjects: Increases following fluvoxamine. Journal of Neural Transmission, 68, 257270.Google Scholar
Dixey, R. & Rein, G. (1982) 3H-noradrenaline release potentiated in a clonal nerve line by low intensity pulsed magnetic fields. Nature, 296, 253–6.Google Scholar
Dowdall, M. & DeMontigny, C. (1985) Effect of atmospheric ions on hippocampal pyramidal neuron responsiveness to serotonin. Brain Research, 342, 103109.Google Scholar
Dull, T. & Dull, B. (1935) Zusammenhange zwischen storungen des erdmagnetismus und haufungen von todesfallen. Deutsche Medizinische Wochenschrift, 61, 95.Google Scholar
Eastwood, M. R. & Peacocke, J. (1976) Seasonal patterns of suicide, depression and electroconvulsive therapy. British Journal of Psychiatry, 129, 472475.CrossRefGoogle ScholarPubMed
Eastwood, M. R. & Stiasny, S. (1978) Psychiatric disorder, hospital admission and season. Archives of General Psychiatry, 35, 769771.Google Scholar
Ebadi, M. & Govitrapong, P. (1986) Neural pathways and neurotransmitters affecting melatonin synthesis. Journal of Neural Transmission (suppl.) 21, 123151.Google Scholar
Elsenga, S. & van den Hoofdakker, R. H. (1987) Response to total sleep deprivation and clomipramine in endogenous depression. Psychiatry Research, 21, 157161.Google ScholarPubMed
Frangos, A., Athanassenas, G., Tsitourides, S., et al (1980) Seasonality of the episodes of recurrent affective psychoses: possible prophylactic interventions. Journal of Affective Disorders, 2, 239247.CrossRefGoogle ScholarPubMed
Friedman, H., Becker, R. O. & Bachman, C. H. (1963) Geomagnetic parameters and psychiatric hospital admissions. Nature, 200, 626628.Google Scholar
Friedman, E., Yocca, F. D. & Cooper, T. B. (1984) Antidepressant drugs with varying pharmacological profiles alter rat pineal adrenergic-mediated function. Journal of Pharmacology and Experimental Therapeutics, 228, 545550.Google Scholar
Garvey, M. J., Wesner, R. & Godes, M. (1988) Comparison of seasonal and non-seasonal affective disorders. American Journal of Psychiatry, 145, 100102.Google Scholar
Goldman, B. D. & Darrow, J. M. (1983) The pineal gland and mammalian photoperiodism. Neuroendocrinology, 37, 386396.Google Scholar
Graw, P., Krauchi, K., Wirz-Justice, A., et al (1991) Diurnal variation of symptoms in seasonal affective disorder. Psychiatry Research, 37, 105111.Google Scholar
Gribble, R. E. (1975) The effect of extremely low frequency electromagnetic fields on the circadian biorhythms of common mice. Chronobiologia (suppl.), 1, 2425.Google Scholar
Hare, E. H. & Walter, S. D. (1978) Seasonal variation in admissions of psychiatric patients and its relation to seasonal variation in their births. Journal of Epidemiology and Community Health, 32, 4752.Google Scholar
Jacobs, J. A. (1987) Geomagnetism, Vol. 1. London: Academic Press.Google Scholar
Karman, J. S., Post, R. M., Buswell, R., et al (1976) Negative effects of melatonin on depression. American Journal of Psychiatry, 133, 11811190.Google Scholar
Kavaliers, M. & Ossenkopp, K. P. (1987) Calcium channel involvement in magnetic field inhibition of morphine induced analgesia. Naunyn Schmiedebergs Archives of Pharmacology, 336, 308315.CrossRefGoogle ScholarPubMed
Kavaliers, M. & Ossenkopp, K. P. (1988) Magnetic fields inhibit opioid-mediated ‘analgesic’ behaviours of the terrestrial snail, Cepaea nemoralis . Journal of Comparative Physiology, 162, 551558.Google Scholar
Kellner, R. (1966) The seasonal prevalence of neurosis. British Journal of Psychiatry, 112, 6970.CrossRefGoogle ScholarPubMed
Kraines, S. (1957) Mental Depressions and Their Treatment. New York: Macmillan.Google Scholar
Kripke, D. F., Mullaney, D. J., Atkinson, M. & Wolf, S. (1978) Circadian rhythm disorders in manic depressives. Biological Psychiatry, 13, 335350.Google Scholar
Kripke, D. F., & Wyborney, V. G. (1980) Lithium slows rat circadian activity rhythms. Life Science, 26, 13191321.Google Scholar
Kripke, D. F., Mullaney, D. J., Klauber, M. R., et al (1992) Controlled trial of bright light for nonseasonal major depressive disorders. Biological Psychiatry, 31, 119134.Google Scholar
Lester, D. (1971) Seasonal variation in suicidal deaths. British Journal of Psychiatry, 118, 627628.Google Scholar
Lewis, A. (1934) Melancholia: a historical review. Journal of Mental Science, 80, 142.CrossRefGoogle Scholar
Lewy, A. J., Wehr, T. A., Goodwin, F. K., Newsome, D. A. & Rosenthal, N. E. (1981) Manic depressive patients may be supersensitive to light. Lancet, i, 383384.Google Scholar
Lewy, A. J., Sack, R. L. & Singer, C. M. (1985) Treating phased type chronobiological sleep and mood disorders using appropriately timed bright artificial light. Psychopharmacology Bulletin, 21, 368372.Google Scholar
Lewy, A. J., Sack, R. L. Miller, S., et al (1987) Antidepressants and circadian phase shifting effects of light. Science, 235, 352354.CrossRefGoogle ScholarPubMed
Marron, M. T., Goodman, E. M., Sharpe, P. T., et al (1988) Low frequency electric and magnetic fields have different effects on the cell surface. FEBS Letters, 230, 1316.Google Scholar
Mayaud, P. N. (1980) Derivation, Meaning and Use of Geomagnetic Indices. Geophysical Monograph 22. Washington, DC: American Geophysical Union.Google Scholar
McKinnon, J. A. (1987) UAG-95, Sunspot Numbers: 1610–1985. Boulder, Colorado: National Geophysical Data Center.Google Scholar
Meares, R., Mendelsohn, F. A. O. & Milgrom-Friedman, J. A. (1981) A sex difference in seasonal variations of suicide rate: a single cycle for men, two cycles for women. British Journal of Psychiatry, 138, 321325.Google Scholar
Meyers, H. & Allen, J. H. (1977) Some Summary Geomagnetic Activity Data: 1932–1976 (NGSDC Data Fact Sheet No 1). Boulder, Colorado: National Geophysical Data Center.Google Scholar
Murphy, D. L., Garrick, N. A., Tamarkin, L., et al (1986) Effects of antidepressants and other psychotropic drugs on melatonin release and pineal gland function. Journal of Neural Transmission (suppl.), 21, 261277.Google Scholar
Nordin, C., Swedin, A. & Zachau, A. (1992) CSF 5-HIAA and atmospheric pressure. Biological Psychiatry, 31, 644645.Google Scholar
Olcese, J., Reuss, S. & Vollrath, L. (1985) Evidence for the involvement of the visual system in mediating magnetic field effects on pineal melatonin synthesis in the rat. Brain Research, 333, 382384.Google Scholar
Ossenkopp, K. P., Kavaliers, M. & Hirst, M. (1983) Reduced nocturnal morphine analgesia in mice following geomagnetic disturbance. Neuroscience Letters, 40, 321325.Google Scholar
Parker, G. & Walter, S. (1982) Seasonal variation in depressive disorders and suicidal deaths in New South Wales. British Journal of Psychiatry, 140, 626632.Google Scholar
Persinger, M. A. (1974) Day time wheel running activity in laboratory rats following the geomagnetic event of 5–6 July, 1974. International Journal of Biometeorology, 20, 1922.CrossRefGoogle Scholar
Persinger, M. A. & Levesque, B. F. (1983) Geophysical variables and behaviour XII: The weather matrix accommodates large portions of variance of measured daily mood. Perceptual and Motor Skills, 57, 868870.Google Scholar
Persinger, M. A. (1987) Geopsychology and geopsychopathology: Mental processes and disorders associated with geochemical and geophysical factors. Experientia, 43, 92104.Google Scholar
Perry, S., Pearl, L. & Binns, R. (1989) Power frequency magnetic field, depressive illness and myocardial infarction. Public Health, 103, 177180.Google Scholar
Pokorny, A. D. & Mefferd, R. B. (1966) Geomagnetic fluctuations and disturbed behaviour. The Journal of Nervous and Mental Diseases, 143, 140151.CrossRefGoogle Scholar
Rangarajan, G. K. (1987) Indices of geomagnetic activity. In Geomagnetism vol. 3 (ed. J. A. Jacobs). London: Academic Press.Google Scholar
Raps, A., Stoupel, E. & Shimshoni, M. (1991) Solar activity and admissions of psychiatric inpatients, relations and possible implications on seasonality. Israeli Journal of Psychiatry and Related Sciences, 28, 5059.Google ScholarPubMed
Rosenthal, N. E., Sack, D. A., Gillin, J. C., et al (1984) Seasonal affective disorder: a description of the syndrome and preliminary findings with light therapy. Archives of General Psychiatry, 41, 7280.Google Scholar
Rosenthal, N. E., Rotter, A., Jacobsen, F. M., et al (1987) No mood-altering effects found after treatment of normal subjects with light in the morning. Psychiatry Research, 22, 19.CrossRefGoogle ScholarPubMed
Rosenthal, N. E., Jacobsen, F. M., Sack, D. A., et al (1988) Atenolol in seasonal affective disorder: a test of the melatonin hypothesis. American Journal of Psychiatry, 145, 5256.Google ScholarPubMed
Rudolph, K., Wirz-Justice, A., Krauchi, K., et al (1988) Static magnetic fields decrease nocturnal pineal cAMP in the rat. Brain Research, 446, 159160.Google Scholar
Schulten, K. (1982) Magnetic field effects in chemistry and biology. Advances in Solid-state Physics, 22, 6183.Google Scholar
Semm, P., Schneider, T. & Vollrath, L. (1980) Effects of an earth strength magnetic field on electrical activity of pineal cells. Nature, 288, 607608.Google Scholar
Stinson, D. & Thomson, C. (1990) Clinical experience with phototherapy. Journal of Affective Disorders, 18, 129135.Google Scholar
Stutz, A. M. (1971) Effects of weak magnetic fields on gerbil spontaneous activity. Annals of the New York Academy of Science, 188, 312323.Google Scholar
Tamarkin, L., Baird, C. J. & Almeida, O. F. X. (1985) Melatonin: a coordinating signal for mammalian reproduction. Science, 227, 714715.Google Scholar
Tenforde, T. S. & Kaune, W. T. (1987) Interaction of extremely low frequency electric and magnetic fields with humans. Health Physics, 53, 585606.Google Scholar
Terman, M., Terman, J. S., Quitkin, F. M., et al (1989) Light therapy for seasonal affective disorder. A review of efficacy. Neuropsychopharmacology, 2, 122.Google Scholar
Thomson, C. & Isaacs, G. (1988) Seasonal affective disorder - a British sample: symptomatology in relation to mode of referral and diagnostic subtype. Journal of Affective Disorders, 14, 111.Google Scholar
Vanecek, J., Sugden, D., Weller, J., et al (1985) Atypical synergistic alpha 1- and Beta-adrenergic regulation of adenosine 3′,5′-monophosphate and guanosine 3′,5′-monophosphate in rat pinealocytes. Endocrinology, 116, 21672173.Google Scholar
Vestine, E. H. (1967) Main geomagnetic field. In Physics of Geomagnetic Phenomena, vol 1, (ed. W. H. Campbell), pp. 181235. New York: Academic Press.Google Scholar
Wehr, T. A. & Goodwin, F. K. (1983) Circadian Rhythms in Psychiatry, Pacific Grove: The Boxwood Press.Google Scholar
Wehr, T. A. & Rosenthal, N. E. (1989) Seasonality and affective illness. American Journal of Psychiatry, 146, 829839.Google Scholar
Welker, H. A., Semm, P., Willig, R. P., et al (1983) Effects of an artifical magnetic field on serotonin N-acetyl-transferase activity and melatonin content of the rat pineal gland. Exploratory Brain Research, 50, 426432.Google Scholar
Wetterberg, L., Arendt, J., Paunier, L., et al (1976) Human melatonin changes during the menstrual cycle. Journal of Clinical Endocrinology and Metabolism, 42, 185188.Google Scholar
Williams, P., Balestrieri, M. & Tansella, M. (1987) Seasonal variation in affective disorders. A case register study. Journal of Affective Disorders, 12, 145152.Google Scholar
Wilson, B. W., Anderson, L. E., Hilton, D. E., et al (1981) Chronic exposure to 60 Hz electric fields: effects on pineal function in the rat. Bioelectromagnetics, 2, 371380.Google Scholar
Wirz-Justice, A. & Arendt, J. (1980) Plasma melatonin and antidepressant drugs. Lancet, i, 425.Google Scholar
Wirz-Justice, A. & Campbell, I. C. (1982) Antidepressant drugs can slow or dissociate circadian rhythms. Experientia, 38, 13011309.Google Scholar
World Health Organisation (1973) Mental Disorders: Glossary and Guide to Their Classification in Accordance with the Eighth Revision of the International Classification of Diseases. (ICD–8). Geneva: WHO.Google Scholar
World Health Organisation (1978) Mental Disorders: Glossary and Guide to Their Classification in Accordance with the Ninth Revision of the International Classification of Diseases. (ICD–9). Geneva: WHO.Google Scholar
Zung, W. W. K. & Green, R. L. (1974) Seasonal variation of suicide and depression. Archives of General Psychiatry, 30, 8991.Google Scholar
Submit a response

eLetters

No eLetters have been published for this article.