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International Journal of Neuroscience Volume 63, 1992 - Issue 1-2
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Original Article

Magnetic Fields in the Treatment Of Parkinson's Disease

Reuven Sandyk Democrition University of Thrace, Department of Medical Physics and Polytechnic School, Alexandroupolis and Xanthi, Greece
,
P. A. Anninos Democrition University of Thrace, Department of Medical Physics and Polytechnic School, Alexandroupolis and Xanthi, Greece
,
N. Tsagas Democrition University of Thrace, Department of Medical Physics and Polytechnic School, Alexandroupolis and Xanthi, Greece
&
K. Derpapas Democrition University of Thrace, Department of Medical Physics, Alexandroupolis, Greece
Pages 141-150 | Received 06 Nov 1991, Published online: 07 Jul 2009

Citations (47)

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Reuven Sandyk. (1997) Treatment with Weak Electromagnetic Fields Restores Dream Recall in a Parkinsonian Patient. International Journal of Neuroscience 90:1-2, pages 75-86.
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Reuven Sandyk. (1996) Treatment with Weak Electromagnetic Fields Controls Drooling in Parkinson's Disease. International Journal of Neuroscience 88:1-2, pages 71-74.
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Reuven Sandyk. (1996) Effect of Weak Electromagnetic Fields on the Amplitude of the Pattern Reversal Vep Response in Parkinson's Disease. International Journal of Neuroscience 84:1-4, pages 165-175.
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Reuven Sandyk. (1996) Reversal of an Acute Parkinsonian Syndrome Associated With Multiple Sclerosis by Application of Weak Electromagnetic Fields. International Journal of Neuroscience 86:1-2, pages 33-45.
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Reuven Sandyk. (1996) Freezing of Gait in Parkinson's Disease is Improved by Treatment with Weak Electromagnetic Fields. International Journal of Neuroscience 85:1-2, pages 111-124.
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Reuven Sandyk. (1995) Parkinsonian micrographia reversed by treatment with weak electromagnetic fields. International Journal of Neuroscience 81:3-4, pages 83-93.
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Reuven Sandyk. (1994) Treatment of Parkinson's Disease with Magnetic Fields Reduces the Requirement for Antiparkinsonian Medications. International Journal of Neuroscience 74:1-4, pages 191-201.
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Reuven Sandyk & Kyriakos Derpapas. (1994) Successful Treatment of Respiratory Dyskinesia with Picotesla Range Magnetic Fields. International Journal of Neuroscience 75:1-2, pages 91-102.
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S. G. Tiller & M. A. Persinger. (1994) Enhanced hypnotizability by cerebrally applied magnetic fields depends upon the order of hemispheric presentation: An anistropic effect. International Journal of Neuroscience 79:3-4, pages 157-163.
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Reuven Sandyk. (1994) A drug naive parkinsonian patient successfully treated with weak electromagnetic fields. International Journal of Neuroscience 79:1-2, pages 99-110.
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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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Reuven Sandyk & Robert P. Iacono. (1994) Reversal of Micrographia in Parkinson's Disease by Application of Picotesla Range Magnetic Fields. International Journal of Neuroscience 77:1-2, pages 77-84.
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Reuven Sandyk & Kyriakos Derpapas. (1993) Further Observations on the Unique Efficacy of Picotesla Range Magnetic Fields in Parkinson's Disease. International Journal of Neuroscience 69:1-4, pages 167-183.
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Reuven Sandyk. (1993) Book Review. International Journal of Neuroscience 71:1-4, pages 277-287.
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Reuven Sandyk & Robert P Iacono. (1993) Rapid Improvement of Visuoperceptive Functions by Picotesla Range Magnetic Fields in Patients with Parkinson'S Disease. International Journal of Neuroscience 70:3-4, pages 233-254.
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Reuven Sandyk & Kyriakos Derpapas. (1993) The Effects of External Picotesla Range Magnetic Fields on the EEG in Parkinson's Disease. International Journal of Neuroscience 70:1-2, pages 85-96.
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Reuven Sandyk & Robert P. Iacono. (1993) Reversal of Visual Neglect in Parkinson's Disease by Treatment with Picotesla Range Magnetic Fields. International Journal of Neuroscience 73:1-2, pages 93-107.
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. (1993) Book Review. International Journal of Neuroscience 73:3-4, pages 299-305.
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Reuven Sandyk. (1993) The effects of picotesla range magnetic fields on perceptual organization and visual memory in parkinsonism. International Journal of Neuroscience 73:3-4, pages 207-219.
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Reuven Sandyk. (1992) Weak Magnetic Fields in the Treatment of Parkinson's Disease with the “on-off” Phenomenon. International Journal of Neuroscience 66:1-2, pages 97-106.
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. (1992) Weak Magnetic Fields as a Novel Therapeutic Modality in Parkinson's Disease. International Journal of Neuroscience 66:1-2, pages 1-15.
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Reuven Sandyk. (1992) Clinical Case Report: SUCCESSFUL TREATMENT OF MULTIPLE SCLEROSIS WITH MAGNETIC FIELDS. International Journal of Neuroscience 66:3-4, pages 237-250.
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Reuven Sandyk. (1992) Magnetic Fields in the Therapy of Parkinsonism. International Journal of Neuroscience 66:3-4, pages 209-235.
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E. A. Nikitina, S. A. Vasileva, B. F. Shchegolev & E. V. Savvateeva-Popova. (2023) Weak Static Magnetic Field: Actions on the Nervous System. Neuroscience and Behavioral Physiology 53:4, pages 542-553.
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Qiuzhen Wan, Zidie Yan, Fei Li, Jiong Liu & Simiao Chen. (2022) Multistable dynamics in a Hopfield neural network under electromagnetic radiation and dual bias currents. Nonlinear Dynamics 109:3, pages 2085-2101.
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Qiuzhen Wan, Zidie Yan, Fei Li, Simiao Chen & Jiong Liu. (2022) Complex dynamics in a Hopfield neural network under electromagnetic induction and electromagnetic radiation. Chaos: An Interdisciplinary Journal of Nonlinear Science 32:7.
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Javier Riancho, Jose Ramón Sanchez de la Torre, Lucía Paz-Fajardo, Cristina Limia, Ana Santurtun, Michal Cifra, Kostas Kourtidis & Pablo Fdez-Arroyabe. (2020) The role of magnetic fields in neurodegenerative diseases. International Journal of Biometeorology 65:1, pages 107-117.
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Hairong Lin & Chunhua Wang. (2020) Influences of electromagnetic radiation distribution on chaotic dynamics of a neural network. Applied Mathematics and Computation 369, pages 124840.
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君励 李. (2019) Study on the Neural Dynamics under the Effect of Electromagnetic Radiation. Biophysics 07:04, pages 57-64.
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Hui Ye & Austen Curcuru. (2016) Biomechanics of cell membrane under low-frequency time-varying magnetic field: a shell model. Medical & Biological Engineering & Computing 54:12, pages 1871-1881.
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Jack Finnegan & Hui Ye. (2016) Cell therapy for spinal cord injury informed by electromagnetic waves. Regenerative Medicine 11:7, pages 675-691.
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Yu Zheng, Yang Gao, Ruijuan Chen, Huiquan Wang, Lei Dong & Junrong Dou. (2016) A new theoretical model for transmembrane potential and ion currents induced in a spherical cell under low frequency electromagnetic field. Bioelectromagnetics 37:7, pages 481-492.
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Photios Anninos, Adam Adamopoulos, Athanasia Kotini & Nicolaos Tsagas. (2016) Combined MEG and pT-TMS study in Parkinson’s disease. Journal of Integrative Neuroscience 15:02, pages 145-162.
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Hui Ye & Austen Curcuru. (2015) Vesicle biomechanics in a time-varying magnetic field. BMC Biophysics 8:1.
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Wooseok Im, Soon-Tae Lee & Seung Chan Kim. (2012) Gene expression profile analysis in cultured human neuronal cells after static magnetic stimulation. BioChip Journal 6:3, pages 254-261.
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Hui Ye, Marija Cotic, Eunji E Kang, Michael G Fehlings & Peter L Carlen. (2010) Transmembrane potential induced on the internal organelle by a time-varying magnetic field: a model study. Journal of NeuroEngineering and Rehabilitation 7:1.
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Zhiyun Wang, Pao-Lin Che, Jian Du, Barbara Ha & Kevin J. Yarema. (2010) Static Magnetic Field Exposure Reproduces Cellular Effects of the Parkinson's Disease Drug Candidate ZM241385. PLoS ONE 5:11, pages e13883.
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Yao-Ching Hung, Jia-Huey Lee, Huang-Meng Chen & Guewha Steven Huang. (2010) Effects of static magnetic fields on the development and aging of Caenorhabditis elegans . Journal of Experimental Biology 213:12, pages 2079-2085.
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P. ANNINOS, A. KOTINI, N. ANNINOU, A. ADAMOPOULOS, A. PAPASTERGIOU & N. TSAGAS. (2008) MEG RECORDINGS OF PATIENTS WITH CNS DISORDERS BEFORE AND AFTER EXTERNAL MAGNETIC STIMULATION. Journal of Integrative Neuroscience 07:01, pages 17-27.
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Hui Ye, Marija Cotic & Peter L Carlen. (2007) Transmembrane potential induced in a spherical cell model under low-frequency magnetic stimulation. Journal of Neural Engineering 4:3, pages 283-293.
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Takao Hirai, Hideo Taniura, Yasuaki Goto, Keisuke Tamaki, Hirotaka Oikawa, Yuki Kambe, Masato Ogura, Yu Ohno, Takeshi Takarada & Yukio Yoneda. (2005) Counteraction by repetitive daily exposure to static magnetism against sustained blockade of N-methyl-D-aspartate receptor channels in cultured rat hippocampal neurons. Journal of Neuroscience Research 80:4, pages 491-500.
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Aleksander Sieroń, Łukasz Labus, Przemysław Nowak, Grzegorz Cieślar, Halina Brus, Artur Durczok, Tomasz Zagził, Richard M. Kostrzewa & Ryszard Brus. (2004) Alternating extremely low frequency magnetic field increases turnover of dopamine and serotonin in rat frontal cortex. Bioelectromagnetics 25:6, pages 426-430.
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Takao Hirai & Yukio Yoneda. (2003) Functional alterations in immature cultured rat hippocampal neurons after sustained exposure to static magnetic fields. Journal of Neuroscience Research 75:2, pages 230-240.
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Takao Hirai, Noritaka Nakamichi & Yukio Yoneda. (2002) Activator Protein-1 Complex Expressed by Magnetism in Cultured Rat Hippocampal Neurons. Biochemical and Biophysical Research Communications 292:1, pages 200-207.
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Aleksander Sieroń, Ryszard Brus, Ryszard Szkilnik, Andrzej Plech, Norbert Kubański & Grzegorz Cieślar. (2001) Influence of alternating low frequency magnetic fields on reactivity of central dopamine receptors in neonatal 6‐hydroxydopamine treated rats. Bioelectromagnetics 22:7, pages 479-486.
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Reem Trabulsi, Bogdan Pawlowski & Andrzej Wieraszko. (1996) The influence of steady magnetic fields on the mouse hippocampal evoked potentials in vitro. Brain Research 728:1, pages 135-139.
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J I Jacobson. (2016) Speculations on the Influence of Electromagnetism on Genomic and Associated Structures. Journal of International Medical Research 24:1, pages 1-11.
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