Abstract
Abrupt, intense increases in global geomagnetic activity during the local night may precipitate a significant proportion of sudden unexpected (or unexplained) deaths (SUD) in epileptics. Over a 2-year period SUD in healthy chronic epileptic rats occurred when the average daily geomagnetic activity exceeded 50 nT (nanoTesla) and suddenly began during local night. Other experiments demonstrated that epileptic rats displayed more spontaneous seizures per night if there had been sudden increases in geomagnetic activity. Analyses of previously published data indicated that the number of SUDs/month in a population of human epileptics was positively associated with the number of days/month when the average geomagnetic activity exceeded 50 nT. The results support the hypothesis that suppression of the nocturnal concentrations of the endogenous anticonvulsant melatonin by sudden increases in geomagnetic activity may encourage fatal cardiac arrhythmias by uncoupling the insular/amygdaloid-paraventricular hypothalamic-solitary nucleus pathways.
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References
Anton-Tay F (1971) Pineal-brain relationships. In: Wolstenholme EW, Knight J (eds) The pineal gland. Churchill Livingston, London, pp 213–227
Berga SL, Mortola JF, Yen SSC (1988) Amplification of nocturnal melatonin secretion in women with functional hypothalamic amenorrhea. J Clin Endocrin Metab 66:242–244
Buchanan SL, Thompson RH (1989) Midline thalamic lesions enhance conditioned bradycardia and the cardiac orienting reflex in rabbits. Psychobiology 17:300–306
Bureau YRJ, Persinger MA (1992) Geomagnetic activity and enhanced mortality in rats with acute (epileptic) limbic lability. Int J Biometeorol 36:226–232
Cechetto DF, Saper CB (1987) Evidence of viscerotopic sensory representation in the cortex and thalamus of the rat. J Comp Neurol 262:27–45
Foley PB, Cairncross KD, Foldes A (1986) Pineal indoles: significance and measurement. Neurosci Biobehav Rev 10:273–293
Gale K (1988) Progression and generalization of seizure discharge: anatomical and neurochemical substrates. Epilepsia 29:S15-S34
Goodman JH, Homan RW, Crawford IL (1990) Acute cardiovascular response during kindled seizures. In: Lathers CM, Schraeder PL (eds) Epilepsy and sudden death. Marcel-Dekker, N.Y., pp 169–186
Harrigan T, Bureau YRJ, Persinger MA, Parker GH (1994) Prevention of sudden cardiac death by the atypical neuroleptic acepromazine following status epilepticus in rats. Life Sci 24:457–462
Horowitz MJ, Adams JE (1970) Hallucinations on brain stimulation: evidence for revision of the Penfield hypothesis. In: Keup W (ed) Origins and mechanisms of hallucinations. Plenum Press, New York, pp 12–20
Kavaliers M, Ossenkopp K-P, Hirst M (1984) Magnetic fields abolish the nocturnal analgesic response to morphine in mice. Physiol Behav 32:261–264
Keshavan MS, Gangadhar BN, Gautman RU, Ajit VB, Kapur RL (1981) Convulsive threshold in humans and rats and magnetic field changes: observations during total solar eclipse. Neurosci Lett 22:205–208
Leestma JE (1990) Sudden unexpected death associated with seizures: a pathological review. In: Lathers CM, Schraeder PL (eds) Epilepsy and sudden death. Marcel Dekker, NW, pp 61–88
Leestma JE, Kalekar MB, Teas SS, Jay GW, Hughes JR (1984) Sudden unexpected death associated with seizures: analysis of 66 cases. Epilepsia 25:84–88
Leestma JE, Walczak T, Hughes JR, Kalekar MB, Teas SS (1989) A prospective study on sudden unexpected death in epilepsy. Ann Neurol 26:195–203
Legrand J-P, Simon PA (1985) Some solar cycle phenomena related to geomagnetic activity from 1868 to 1980. Astron Astrophys 152:199–204
Lerchl A, Honaka KO, Reiter RJ (1991a) Pineal gland “magneto-sensitivity” to static magnetic fields is a consequence of induced electric currents (eddy currents). J Pineal Res 10:109–116
Lerchl A, Reiter RJ, Howes KA, Nonaka KO, Stokkan K-A (1991b) Evidence of extremely low frequency Ca++ resonance depresses pineal melatonin synthesis in vitro. Neurosci Lett 124:213–215
Mayaud PN (1967) A hundred-year series of geomagnetic data 1868–1967. IAGA Bull
Mayaud PN (1975) Analysis of storm commencements for the years 1868–1967. J Geophys Res 80:111–122
Mendelsohn FAO, Paxinos G (1991) (eds) Receptors in the human nervous system. Academic Press NY.
McNamara JO (1987) The kindling model of epilepsy. Epilepsia 28:445–446
Olcese J, Reuss S (1986) Magnetic field effects on pineal gland melatonin synthesis: comparative studies on albino and pigmented rodents. Brain Res 369:365–368
Olcese J, Reuss S, Steinlechner S (1987) Electrical stimulation of the hypothalamic nucleus paraventricularis mimics the effect of light on pineal melatonin synthesis. Life Sci 40:455–459
Oppenheimer SM, Wilson JX, Guiraudon C, Cechetto DF (1991) Insular cortex stimulation produces lethal cardiac arrhythmias: a mechanism of sudden death? Brain Res 550:115–121
Ossenkopp K-P, Kavaliers M, Prato FS, Hirst M (1983) Reduced nocturnal morphine analgesia in mice following a geomagnetic disturbance. Neurosci Lett 90:321–325
Persinger MA (1980) The weather matrix and human behavior. Praeger NY
Persinger MA (1988) Increased geomagnetic activity and the occurrennce of bereavement hallucinations: evidence for melatonin-mediated microseizuring in the temporal lobe? Neurosci Lett 88:271–284
Persinger MA, Bureau Y, Kostakos M, Peredery O, Falter H (1993) Behaviors of rats with insidious brain damage induced by seizures following single peripheral injections of lithium and pilocarpine. Physiol Behav 53:849–856
Povlishock JT, Coburn TH (1990) Morphopathological changes associated with mild head injury. In: Levin HS, Eisenberg HM, Benton AL (eds) Mild head injury. New York Oxford, pp 37–53
Rajaram M, Mitra S (1981) Correlation between convulsive seizure and geomagnetic activity. Neurosci Lett 24:187–191
Randall W, Randall S (1991) The solar wind and hallucinations-a possible relation to magnetic disturbances. Bioelectromagnetics 12:67–70
Rockhold RW, Acuff CG, Clower BR (1990) Excitotoxic lesions of the paraventricular hypothalamus: metabolic and cardiac effects. Neuropharmacology 29:663–673
Rosenblatt G, Hartmann E, Zwilling GR (1973) Cardiac irritability during sleep and dreaming. J Psychosom Res 17:129–135
Rosenstein RE, Estevez AG, Cardinali DP (1989) Time-dependent effect of melatonin on glutamic acid decarboxylase activity and36Cl− influx in rat hypothalamus. J Neuroendocrinol 1:443–447
Schraeder PL, Lathers CM (1990) The relation of paroxysmal autonomic dysfunction and epileptogenic activity. In: Lathers M, Schraeder PL (eds) Epilepsy and sudden death. Marcel Dekker, New York, pp 121–155
Spratling WP (1904) Epilepsy and its treatment. Saunders, Philadelphia
Stevens JR (1982) Sleep is for seizures: a new interpretation of the role of phasic events in sleep and wakefulness. In: Sterman MB, Shouse MN, Passouant P (eds) Sleep and epilepsy. Academic Press, New York, pp 249–264
Terrance CF (1990) Unexpected, unexplained death of epileptic persons: clinical correlation including pulmonary changes. In: Lathers CM, Schraeder PL (eds) Epilepsy and sudden death. Marcel Dekker, New York, pp 89–100
Vanecek J, Pavlik A, Illnerova HN (1987) Hypothalamic melatonin receptor sites revealed by autoradiography. Brain Res 435:359–362
Welker HA, Semm P, Willig RP, Commentz JC, Wiltschko W, and Vollrath L (1983) Effects of an artificial magnetic field on serotoninn-acetyltransferase activity and melatonin content of the rat pineal gland. Exp Brain Res 50:426–432
Wilson BW, Stevens RG, Anderson LE (1989) Neuroendocrine mediated effects of electromagnetic-field exposure: possible role of the pineal gland. Life Sci 45:1319–1332
Wilson BW, Wright CW, Morris JE, Buschbom RL, Brown DP, Miller DL, Sommers-Flannigan R, Anderson LE (1990) Evidence of an effect of ELF electromagnetic fields on human pineal gland function. J Pineal Res 9:259–269
Yaga K, Reiter RJ, Manchester LC, Nieves H, Sun J-H, Chen L-D (1993) Pineal sensitivity to pulsed static magnetic field changes during the photoperiod. Brain Res Bull 30:153–156
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Persinger, M.A., Psych, C. Sudden unexpected death in epileptics following sudden, intense, increases in geomagnetic activity: Prevalence of effect and potential mechanisms. Int J Biometeorol 38, 180–187 (1995). https://doi.org/10.1007/BF01245386
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DOI: https://doi.org/10.1007/BF01245386