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International Journal of Neuroscience Volume 78, 1994 - Issue 1-2
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Original Article

Improvement by Picotesla Range Magnetic Fields of Perceptual-Motor Performance and Visual Memory in a Patient With Chronic Progressive Multiple Sclerosis

Reuven Sandyk NeuroCommunication Research Laboratories, 36 Mill Plain Road, Danbury, CT, 06811, USA; Department of Neuroscience, Institute for Biomedical Engineering and Rehabilitation Services of Touro College, Dix Hills, NY, 11746, USA
&
Robert P. Iacono Department of Neurosurgery, Loma Linda University Medical Center, Loma Linda, California, 92359, USA
Pages 53-66 | Received 01 Jun 1993, Published online: 07 Jul 2009

Citations (27)

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Natalia V. Bobkova, Vadim V. Novikov, Natalia I. Medvinskaya, Irina Y. Aleksandrova, Inna V. Nesterova & Eugenii E. Fesenko. (2018) Effect of weak combined static and extremely low-frequency alternating magnetic fields on spatial memory and brain amyloid-β in two animal models of Alzheimer’s disease. Electromagnetic Biology and Medicine 37:3, pages 127-137.
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Christina L. Ross, Ishaq Syed, Thomas L. Smith & Benjamin S. Harrison. (2017) The regenerative effects of electromagnetic field on spinal cord injury. Electromagnetic Biology and Medicine 36:1, pages 74-87.
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Reuven Sandyk. (1999) Impairment of Depth Perception in Multiple Sclerosis is Improved by Treatment with Ac Pulsed Electromagnetic Fields. International Journal of Neuroscience 98:1-2, pages 83-94.
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Reuven Sandyk. (1998) Serotonergic Neuronal Atrophy with Synaptic Inactivation, not Axonal Degeneration, are the Main Hallmarks of Multiple Sclerosis. International Journal of Neuroscience 95:1-2, pages 133-140.
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Reuven Sandyk. (1997) Immediate Recovery of Cognitive Functions and Resolution of Fatigue by Treatment with Weak Electromagnetic Fields in a Patient with Multiple Sclerosis. International Journal of Neuroscience 90:1-2, pages 59-74.
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Reuven Sandyk. (1997) The Biological Significance of Yawning Elicited by Application of Electromagnetic Fields in Multiple Sclerosis. International Journal of Neuroscience 89:1-2, pages 53-60.
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Reuven Sandyk. (1997) Progressive Cognitive Improvement in Multiple Sclerosis from Treatment with Electromagnetic Fields. International Journal of Neuroscience 89:1-2, pages 39-51.
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Reuven Sandyk. (1997) Treatment with electromagnetic fields improves dual-task performance (Talking while walking) in multiple sclerosis. International Journal of Neuroscience 92:1-2, pages 95-102.
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Reuven Sandyk. (1996) Suicidal Behavior is Attenuated in Patientis with Multiple Sclerosis by Treatment with Electromagnetic Fields. International Journal of Neuroscience 87:1-2, pages 5-15.
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Reuven Sandyk. (1996) Treatment with Weak Electromagnetic Fields Improves Fatigue Associated with Multiple Sclerosis. International Journal of Neuroscience 84:1-4, pages 177-186.
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Reuven Sandyk. (1996) Resolution of Partial Cataplexy in Multiple Sclerosis by Treatment with Weak Electromagnetic Fields. International Journal of Neuroscience 84:1-4, pages 157-164.
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Reuven Sandyk. (1996) Effect of Weak Electromagnetic Fields on Body Image Perception in Patients With Multiple Sclerosis. International Journal of Neuroscience 86:1-2, pages 79-85.
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Reuven Sandyk. (1996) Treatment With Weak Electromagnetic Fields Attenuates Carbohydrate Craving in a Patient With Multiple Sclerosis. International Journal of Neuroscience 86:1-2, pages 67-77.
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Reuven Sandyk. (1996) Weak Electromagnetic Fields Increase the Amplitude of the Pattern Reversal VEP Response in Patients with Multiple Sclerosis. International Journal of Neuroscience 85:1-2, pages 79-91.
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Reuven Sandyk. (1995) Weak Electromagnetic Fields Improve Body Image Perception in Patients with Multiple Sclerosis. International Journal of Neuroscience 82:3-4, pages 285-302.
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Reuven Sandyk. (1995) Chronic Relapsing Multiple Sclerosis: A Case of Rapid Recovery by Application of Weak Electromagnetic Fields. International Journal of Neuroscience 82:3-4, pages 223-242.
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Reuven Sandyk. (1995) Premenstrual Exacerbation of Symptoms in Multiple Sclerosis is Attenuated by Treatment with Weak Electromagnetic Fields. International Journal of Neuroscience 83:3-4, pages 187-198.
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Reuven Sandyk. (1995) Reversal of Alexia in Multiple Sclerosis by Weak Electromagnetic Fields. International Journal of Neuroscience 83:1-2, pages 69-79.
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Reuven Sandyk. (1995) Long Term Beneficial Effects of Weak Electromagnetic Fields in Multiple Sclerosis. International Journal of Neuroscience 83:1-2, pages 45-57.
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Reuven Sandyk & Lea C. Dann. (1994) Weak electromagnetic fields attenuate tremor in multiple sclerosis. International Journal of Neuroscience 79:3-4, pages 199-212.
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Reuven Sandyk. (1994) Reversal of visuospatial hemi-inattention in patients with chronic progressive multiple sclerosis by treatment with weak electromagnetic fields. International Journal of Neuroscience 79:3-4, pages 169-184.
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Articles from other publishers (6)

Devin Hubbard. (2020) Electroceutical Technology: Anti-Inflammatory Effects Of 40-160 T/S Inductively Coupled Electrical Stimulation (ICES) In The Acute Inflammation Model. The Journal of Science and Medicine 2:2, pages 1-50.
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Mohammad Amin Sherafat, Motahareh Heibatollahi, Somayeh Mongabadi, Fatemeh Moradi, Mohammad Javan & Abolhassan Ahmadiani. (2012) Electromagnetic Field Stimulation Potentiates Endogenous Myelin Repair by Recruiting Subventricular Neural Stem Cells in an Experimental Model of White Matter Demyelination. Journal of Molecular Neuroscience 48:1, pages 144-153.
Crossref
F. Bistolfi. (2016) Extremely Low-Frequency Pulsed Magnetic Fields and Multiple Sclerosis: Effects on Neurotransmission Alone or Also on Immunomodulation? Building a Working Hypothesis. The Neuroradiology Journal 20:6, pages 676-693.
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Reuven Sandyk. (1997) II. Therapeutic Effects of Alternating Current Pulsed Electromagnetic Fields in Multiple Sclerosis. The Journal of Alternative and Complementary Medicine 3:4, pages 365-386.
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Mark S. George. (2014) TMS: An Issue Worthy of a Single Focus. CNS Spectrums 2:1, pages 17-20.
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Sarah L. Minden. (1996) Neuropsychiatric aspects of multiple sclerosis. Current Opinion in Psychiatry 9:1, pages 93-97.
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