Citations (25)
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Reuven Sandyk & Robert P. Iacono. (1994) Naltrexone Attenuates the Antiparkinsonian Effects of Picotesla Range Magnetic Fields. International Journal of Neuroscience 78:1-2, pages 111-122.
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F. S. Prato, K. P. Ossenkopp, M. Kavaliers, P. Uksik, R. L. Nicholson, D. Drost & E. A. Sestini. (1988) Effects of Exposure to Magnetic Resonance Imaging on Nocturnal Serum Melatonin and Other Hormone Levels in Adult Males: Preliminary Findings. Journal of Bioelectricity 7:2, pages 169-180.
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Articles from other publishers (20)
Bogdan Koczy, Tomasz Stołtny, Jarosław Pasek, Maria Leksowska–Pawliczek, Szymon Czech, Alina Ostałowska, Sławomir Kasperczyk, Monika Białkowska & Grzegorz Cieślar. (2019) Evaluation of β-endorphin concentration, mood, and pain intensity in men with idiopathic hip osteoarthritis treated with variable magnetic field. Medicine 98:30, pages e16431.
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Cristina Del Seppia, Sergio Ghione, Paolo Luschi, Klaus-Peter Ossenkopp, Elena Choleris & Martin Kavaliers. (2007) Pain perception and electromagnetic fields. Neuroscience & Biobehavioral Reviews 31:4, pages 619-642.
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İ.Semih Keskil, Zuhal Aktuna Keskil, Ayşe Gülnihal Canseven & Nesrin Seyhan. (2001) No effect of 50 Hz magnetic field observed in a pilot study on pentylenetetrazol-induced seizures and mortality in mice. Epilepsy Research 44:1, pages 27-32.
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Oxana Yeshchenko, Kira Nikolskaya, Vicktoria Shpinkova & Vladimir Shtemler. 1999. Electricity and Magnetism in Biology and Medicine. Electricity and Magnetism in Biology and Medicine
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Martin Kavaliers & Klaus-Peter Ossenkopp. (1993) Repeated naloxone treatments and exposures to weak 60-Hz magnetic fields have ‘analgesic’ effects in snails. Brain Research 620:1, pages 159-162.
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S.Z. Child, C.L. Hartman, L. Schery & E.L. Carstensen. (1992) A test for increased lethality in land snails exposed to 60 Hz magnetic fields. Neuroscience Letters 134:2, pages 169-170.
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Martin Kavaliers & Klaus-Peter Ossenkopp. 1992. Electromagnetic Fields and Circadian Rhythmicity. Electromagnetic Fields and Circadian Rhythmicity
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A. H. Martin. (2005) Development of chicken embryos following exposure to 60‐Hz magnetic fields with differing waveforms. Bioelectromagnetics 13:3, pages 223-230.
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Klaus-Peter Ossenkopp & Donald P. Cain. (1991) Inhibitory effects of powerline-frequency (60-Hz) magnetic fields on pentylenetetrazol-induced seizures and mortality in rats. Behavioural Brain Research 44:2, pages 211-216.
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Martin Kavaliers, Klaus-Peter Ossenkopp & Donna M. Tysdale. (1991) Evidence for the involvement of protein kinase C in the modulation of morphine-induced ‘analgesia’ and the inhibitory effects of exposure to 60-Hz magnetic fields in the snail,Cepaea nemoralis. Brain Research 554:1-2, pages 65-71.
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Donna M. Tysdale, Susan M. Lipa, Klaus-Peter Ossenkopp & Martin Kavaliers. (1991) Inhibitory effects of 60-Hz magnetic fields on opiate-induced “analgesia” in the land snail, Cepaea nemoralis, under natural conditions. Physiology & Behavior 49:1, pages 53-56.
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Gayle A. Olson, Richard D. Olson & Abba J. Kastin. (1990) Endogenous opiates: 1989. Peptides 11:6, pages 1277-1304.
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Klaus-Peter Ossenkopp, Martin Kavaliers & Susan Lipa. (1990) Increased mortality in land snails (Cepaea nemoralis) exposed to powerline (60-Hz) magnetic fields and effects of the light-dark cycle. Neuroscience Letters 114:1, pages 89-94.
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Martin Kavaliers, Klaus-Peter Ossenkopp & Susan M. Lipa. (1990) Day-night rhythms in the inhibitory effects of 60 Hz magnetic fields on opiate-mediated ‘analgesic’ behaviors of the land snail, Cepaea nemoralis. Brain Research 517:1-2, pages 276-282.
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Klaus-Peter Ossenkopp & Donald P. Cain. (1988) Inhibitory effects of acute exposure to low-intensity 60-Hz magnetic fields on electrically kindled seizures in rats. Brain Research 442:2, pages 255-260.
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Martin Kavaliers & Klaus-Peter Ossenkopp. (1988) Day-night rhythms of opioid and non-opioid stress-induced analgesia: differential inhibitory effects of exposure to magnetic fields. Pain 32:2, pages 223-229.
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Martin Kavaliers & Klaus-Peter Ossenkopp. (1988) Magnetic fields inhibit opioid-mediated ?analgesic? behaviours of the terrestrial snail,Cepaea nemoralis. Journal of Comparative Physiology A 162:4, pages 551-558.
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G. Campbell Teskey, Klaus‐Peter Ossenkopp, Frank S. Prato & Martin Kavaliers. (2005) Exposure to time varying magnetic fields associated with magnetic resonance imaging reduces fentanyl‐induced analgesia in mice. Bioelectromagnetics 9:2, pages 167-174.
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Klaus-Peter Ossenkopp & Martin Kavaliers. (1987) Morphine-induced analgesia and exposure to low-intensity 60-Hz magnetic fields: inhibition of nocturnal analgesia in mice is a function of magnetic field intensity. Brain Research 418:2, pages 356-360.
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