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Journal of Bioelectricity Volume 9, 1990 - Issue 2
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Original Article

Effects of Different Low-Frequency Electromagnetic Fields on Lymphocyte Activation: At which Cellular Level?

Mario Petrini Servizio di Ematologia e Centro di Immunologia Clinica 1 Clinica Medica Universitá di Pisa Via, Roma, 55 56100, Pisa, Italy
,
Rino Polidori Servizio di Ematologia e Centro di Immunologia Clinica 1 Clinica Medica Universitá di Pisa Via, Roma, 55 56100, Pisa, Italy
,
Fabio Ambrogi Servizio di Ematologia e Centro di Immunologia Clinica 1 Clinica Medica Universitá di Pisa Via, Roma, 55 56100, Pisa, Italy
,
Francesca Vaglini Istituto di Farmacologia Universitá di Pisa, Pisa, Italy
,
Paolo Zaniol Cattedra di Fisica Medica Universitá di Modena, Modena, Italy
,
Giovanni Ronca Istituto di Chimica Biologica Universitá di Pisa, Pisa, Italy
&
Angela Conte Istituto di Chimica Biologica Universitá di Pisa, Pisa, Italy
 show all
Pages 159-166 | Published online: 07 Jul 2009

Citations (22)

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Read on this site (6)

Harold Sonnier & Andrew A. Marino. (2001) SENSORY TRANSDUCTION AS A PROPOSED MODEL FOR BIOLOGICAL DETECTION OF ELECTROMAGNETIC FIELDS. Electro- and Magnetobiology 20:2, pages 153-175.
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Roberto P. Revoltella, Luisa Trombi, Mario Petrini, Bruno Grassi, Giuliano Manara & Enzo Dalle Mese. (1993) Low-Frequency Electromagnetic Fields Do Not Affect Cell Growth, Erythroid Differentiation, and Virus Production in Variant Lines of Untreated and Dimethyl Sulfoxide-Treated Friend Erythroleukemia Cells. Electro- and Magnetobiology 12:2, pages 135-146.
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Luisa Trombi, Mario Petrini, Giuliano Manara, Enzo Dalle Mese & Roberto P. Revoltella. (1993) Effects of Repeated Exposure to High-Voltage Electric Discharges and Low-Frequency Electromagnetic Fields on Cultured Mouse P3×63Ag8 Plasmocytoma Cells. Electro- and Magnetobiology 12:2, pages 125-134.
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Lorenzo Bolognani, Fabio Francia, Tiziana Venturelli, Nicola Volpi & Michele Costato. (1992) Fermentative Activity of Cold-Stressed Yeast and Effect of Electromagnetic Pulsed Field. Electro- and Magnetobiology 11:1, pages 11-17.
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Lorenzo Bolognani, Vania Del Monte, Fabio Francia, Tiziana Venturelli, Nicola Volpi & Michele Costato. (1992) Low-Frequency Electromagnetic Pulsed Field Stimulation of Yeast. Electro- and Magnetobiology 11:1, pages 1-10.
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Cadossi Ruggero. (1991) Lymphocytes and Pulsed Electromagnetic Fields. Journal of Bioelectricity 10:1-2, pages 205-212.
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Articles from other publishers (16)

Bratko Filipič, Lidija Gradišnik, Kristine Kovacs, Ferenc Somogyvari, Hrvoje Mazija & Toth Sandor. 2020. Electromagnetic Field Radiation in Matter. Electromagnetic Field Radiation in Matter.
Ibtisam A. Abbas Al-Darkazly & S. M. Rezaul Hasan. (2020) Extra-Low-Frequency Pulse Stimulated Conformational Change in Blood-Cell Proteins and Consequent Immune Activity Transformation. IEEE Journal of Translational Engineering in Health and Medicine 8, pages 1-13.
Crossref
Fabio Guerriero & Giovanni Ricevuti. (2016) Extremely low frequency electromagnetic fields stimulation modulates autoimmunity and immune responses: a possible immuno-modulatory therapeutic effect in neurodegenerative diseases. Neural Regeneration Research 11:12, pages 1888.
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.
Crossref
B Filipič, K Kovács, F Somogyvári, A Ihan, I Ocsovszky, S Koren & S Tóth. (2000) The effects of medium-strength electric impulses on human blood. Bioelectrochemistry 52:1, pages 29-36.
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Pio Conti, Marcella Reale, Alfredo Grilli, Renato C. Barbacane, Silvano Di Luzio, Mario Di Gioacchino, Maria A. De Lutiis & Mario Felaco. (1999) Effect of Electromagnetic Fields on Several CD Markers and Transcription and Expression of CD4. Immunobiology 201:1, pages 36-48.
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Gerald P. Jahreis, Patricia G. Johnson, Ya Li Zhao & Sek Wen Hui. (1998) Absence of 60-Hz, 0.1-mT magnetic field-induced changes in oncogene transcription rates or levels in CEM-CM3 cells. Biochimica et Biophysica Acta (BBA) - Gene Structure and Expression 1443:3, pages 334-342.
Crossref
W. Sontag. (1998) Treatment of zymosan-activated HL-60 cells with low frequencies electric fields does not change cellular ATP and ADP levels and reactive oxygen species. Bioelectrochemistry and Bioenergetics 46:2, pages 255-261.
Crossref
Adam Lacy‐hulbert, James C. Metcalfe & Robin Hesketh. (1998) Biological responses to electromagnetic fields 1 . The FASEB Journal 12:6, pages 395-420.
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W. Sontag. (1998) Action of extremely low frequency electric fields on the cytosolic calcium concentration of differentiated HL-60 cells: Nonactivated cells. Bioelectromagnetics 19:1, pages 32-40.
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J. Nafziger, L. Devevey, V. Tricottet, J.J. Guillosson, G. Avariant & M. Arock. (1997) Investigation of the effects of 50 Hz magnetic fields on purified human hematopoietic progenitors. Life Sciences 61:19, pages 1935-1946.
Crossref
C. Eichwald & J. Walleczek. (1996) Activation-dependent and biphasic electromagnetic field effects: Model based on cooperative enzyme kinetics in cellular signaling. Bioelectromagnetics 17:6, pages 427-435.
Crossref
Hélène Desjobert, Josette Hillion, Monique Adolphe, Geneviève Averlant & Joëlle Nafziger. (2005) Effects of 50 Hz magnetic fields on C‐myc transcript levels in nonsynchronized and synchronized human cells. Bioelectromagnetics 16:5, pages 277-283.
Crossref
C. Eichwald & F. Kaiser. (1995) Model for external influences on cellular signal transduction pathways including cytosolic calcium oscillations. Bioelectromagnetics 16:2, pages 75-85.
Crossref
Alessandro Chiabrera, Ruggiero Cadossi, Ferdinando Bersani, Claudio Franceschi & Bruno Bianco. 1994. Biological Effects of Electric and Magnetic Fields. Biological Effects of Electric and Magnetic Fields 121 145 .
W. Grundler, F. Kaiser, F. Keilmann & J. Walleczek. (1992) Mechanisms of electromagnetic interaction with cellular systems. Naturwissenschaften 79:12, pages 551-559.
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