Effect of Extremely Low Frequency Magnetic Fields in Safety Standards on Structure of Acidophilic and Basophilic Cells in Anterior Pituitary Gland of Rats: an Experimental Study

Mehmet Zulkuf Akdag; Suleyman Dasdag; M.aydin Ketanı; Hakan Sagsoz

Effect of Extremely Low Frequency Magnetic Fields in Safety Standards on Structure of Acidophilic and Basophilic Cells in Anterior Pituitary Gland of Rats: an Experimental Study

Year 2009, Volume: 2 Issue: 2, 61 - 66, 01.06.2009

Mehmet Zulkuf Akdag Suleyman Dasdag M.aydin Ketanı Hakan Sagsoz

Abstract

Keywords

References

) Loescher W, Mevissen M, Lehmacher W, Stamm A. Tumor promotion in a breast cancer model by exposure to a weak alternating magnetic field. Cancer Lett. 1993; 71: 75– 81.
) Lisi A, Ledda M, Rosola E, Pozzi D, D’Emilia E, Giuliani L, Foletti
A,Modesti A, Morris S.J, and Grimaldi1 S, Extremely Low Frequency Electromagnetic Field Exposure Promotes Differentiation of Pituitary Corticotrope-Derived AtT20 D16VCells. Bioelectromagnetics. 2006; 27: 641-651.
) Dellmann DH.: Textbook Veterinary Histology, 1993, By Lea and Febiger, Fourth Edition., New York, 165-167.
) International Commission on Non Ionizing Radiation Protection (ICNIRP). Guidelines for limiting exposure to time-varying electric, magnetic, and electromagnetic fields (up to 300 GHz). Health Phys. 1998; 74: 494–522.
) El Etreby M.F, Richter K.D and Gunzel P. Histological and
histochemical differentiation of glandular cells of the anterior pituitary in various experimental. Animal Excerpta Med. (Amst) Int. Cong. Ser. 1973; 288: 270-281.
) Graham C, Cook M.R, Harvey D. Cohen H.R, Riffle D.W, Hoffman S, Gerkovich M.M. Human exposure to 60-Hz magnetic fields: neurophysiological effects. International Journal of Psychophysiology. 1999; 33: 169-175.
) Barbier E, Dufy B, and Veyret B Stimulation of Ca2+ Influx in Rat Pituitary Cells Under Exposure to a 50 Hz Magnetic Field. Bioelectromagnetics. 1996;17: 303-311.
) Espinar A, Piera V,Carmona A, and Guerrero J.M. Histological Changes During Development of the Cerebellum in the Chick Embryo Exposed to Bioelectromagnetics,1997;18:36–46.
a Static Magnetic Field.
) Wilson B.W, Matt K.S,Morris J.E, Sasser L.B, Miller D.L, and Anderson L.E. Effects of 60 Hz Magnetic Field Exposure on the Pineal and Hypothalamic-Pituitary-Gonadal Axis in the Siberian Hamster (Phodopus sungorus). Bioelectromagnetics. 1999; 20: 224–232.
) Boland A, Delapierre D,Mossay D, Dresse A,and Seutin V. Effect of intermittent and continuous exposure to electromagnetic fields on cultured hippocampal cells. Biolectromagnetics. 2002; 23: 97- 105.
) Jelenkovic A, Janac B, Pesic V, Jovanovic D.M, Vasiljevic I, Prolic Z. Effects of extremely low-frequency magnetic field in the brain of rats. Brain Research Bulletin. 2006;68: 355–360.
) Zecca L, Mantegazza C, Margonato V, Cerretelli P, Caniatti M, Piva F, Dondi D, and Hagino N. Biological Effects of Prolonged Exposure to ELF Electromagnetic Fields in Rats: III.50 Hz Electromagnetic Fields. Bioelectromagnetics. 1998;19: 57–66.
) Reiter R.J, Anderson L.E, Buschbom R.L, Wilson B.W. Reduction of the nocturnal rise in pineal melatonin levels in rats exposed to 60 Hz electric fields in utero and for 23 days after birth. Life Sci. 1988;42: 2203–2206.
) Reiter, R.J. Effects on circadian rhythm of pineal melatonin. In: Moore-Ede M.C, Campbell S.S, Reiter R.J. (Eds.), Electromagnetic Fields and Circadian Rhythmicity. Birkhauser, Boston, 1992; pp. 13–28.
) Canedo L, Cantu R.G, Hernandez R.J. Magnetic field exposure during gestation: pineal and cerebral cortex serotonin in the rat. Int. J. Devl Neuroscience. 2003; 21: 263–266.
) Cook L.L, Persinger M.A, Koren S.A. Differential effects of low frequency, low intensity (<6 mG) nocturnal magnetic fields upon infiltration of mononuclear cells and numbers of mast cells in lewis rat brains. Toxicology Letters. 2000;118: 9–19.
) Kim S.H, Lee H.J, Choi S.Y, Gimm Y.M, Pack J.K, Choi H.D, and Lee Y.S, Toxicity Bioassay in Sprague-Dawley Rats Exposed to 20 kHz Triangular Magnetic Field for 90 Days. Bioelectromagnetics 27: 105-111 (2006).
) Robertson I.G.C, Wilson W.R, Dawson B.V, Zwi L.J, Green A.W, and Boys J.T. Evaluation of Potential Health Effects of 10 kHz Magnetic Fields: A Short-Term Mouse Toxicology Study. Bioelectromagnetics. 1996;17:lll-122.
) Junqueira LC, Carneiro J (eds). Basic Histology. Tenth edition. Mcgraw-Hill companies, Rio de Janeiro. 2003; 403-404.

Effect of Extremely Low Frequency Magnetic Fields in Safety Standards on Structure of Acidophilic and Basophilic Cells in Anterior Pituitary Gland of Rats: an Experimental Study

Year 2009, Volume: 2 Issue: 2, 61 - 66, 01.06.2009

Mehmet Zulkuf Akdag Suleyman Dasdag M.aydin Ketanı Hakan Sagsoz

Abstract

Keywords

References

) Loescher W, Mevissen M, Lehmacher W, Stamm A. Tumor promotion in a breast cancer model by exposure to a weak alternating magnetic field. Cancer Lett. 1993; 71: 75– 81.
) Lisi A, Ledda M, Rosola E, Pozzi D, D’Emilia E, Giuliani L, Foletti
A,Modesti A, Morris S.J, and Grimaldi1 S, Extremely Low Frequency Electromagnetic Field Exposure Promotes Differentiation of Pituitary Corticotrope-Derived AtT20 D16VCells. Bioelectromagnetics. 2006; 27: 641-651.
) Dellmann DH.: Textbook Veterinary Histology, 1993, By Lea and Febiger, Fourth Edition., New York, 165-167.
) International Commission on Non Ionizing Radiation Protection (ICNIRP). Guidelines for limiting exposure to time-varying electric, magnetic, and electromagnetic fields (up to 300 GHz). Health Phys. 1998; 74: 494–522.
) El Etreby M.F, Richter K.D and Gunzel P. Histological and
histochemical differentiation of glandular cells of the anterior pituitary in various experimental. Animal Excerpta Med. (Amst) Int. Cong. Ser. 1973; 288: 270-281.
) Graham C, Cook M.R, Harvey D. Cohen H.R, Riffle D.W, Hoffman S, Gerkovich M.M. Human exposure to 60-Hz magnetic fields: neurophysiological effects. International Journal of Psychophysiology. 1999; 33: 169-175.
) Barbier E, Dufy B, and Veyret B Stimulation of Ca2+ Influx in Rat Pituitary Cells Under Exposure to a 50 Hz Magnetic Field. Bioelectromagnetics. 1996;17: 303-311.
) Espinar A, Piera V,Carmona A, and Guerrero J.M. Histological Changes During Development of the Cerebellum in the Chick Embryo Exposed to Bioelectromagnetics,1997;18:36–46.
a Static Magnetic Field.
) Wilson B.W, Matt K.S,Morris J.E, Sasser L.B, Miller D.L, and Anderson L.E. Effects of 60 Hz Magnetic Field Exposure on the Pineal and Hypothalamic-Pituitary-Gonadal Axis in the Siberian Hamster (Phodopus sungorus). Bioelectromagnetics. 1999; 20: 224–232.
) Boland A, Delapierre D,Mossay D, Dresse A,and Seutin V. Effect of intermittent and continuous exposure to electromagnetic fields on cultured hippocampal cells. Biolectromagnetics. 2002; 23: 97- 105.
) Jelenkovic A, Janac B, Pesic V, Jovanovic D.M, Vasiljevic I, Prolic Z. Effects of extremely low-frequency magnetic field in the brain of rats. Brain Research Bulletin. 2006;68: 355–360.
) Zecca L, Mantegazza C, Margonato V, Cerretelli P, Caniatti M, Piva F, Dondi D, and Hagino N. Biological Effects of Prolonged Exposure to ELF Electromagnetic Fields in Rats: III.50 Hz Electromagnetic Fields. Bioelectromagnetics. 1998;19: 57–66.
) Reiter R.J, Anderson L.E, Buschbom R.L, Wilson B.W. Reduction of the nocturnal rise in pineal melatonin levels in rats exposed to 60 Hz electric fields in utero and for 23 days after birth. Life Sci. 1988;42: 2203–2206.
) Reiter, R.J. Effects on circadian rhythm of pineal melatonin. In: Moore-Ede M.C, Campbell S.S, Reiter R.J. (Eds.), Electromagnetic Fields and Circadian Rhythmicity. Birkhauser, Boston, 1992; pp. 13–28.
) Canedo L, Cantu R.G, Hernandez R.J. Magnetic field exposure during gestation: pineal and cerebral cortex serotonin in the rat. Int. J. Devl Neuroscience. 2003; 21: 263–266.
) Cook L.L, Persinger M.A, Koren S.A. Differential effects of low frequency, low intensity (<6 mG) nocturnal magnetic fields upon infiltration of mononuclear cells and numbers of mast cells in lewis rat brains. Toxicology Letters. 2000;118: 9–19.
) Kim S.H, Lee H.J, Choi S.Y, Gimm Y.M, Pack J.K, Choi H.D, and Lee Y.S, Toxicity Bioassay in Sprague-Dawley Rats Exposed to 20 kHz Triangular Magnetic Field for 90 Days. Bioelectromagnetics 27: 105-111 (2006).
) Robertson I.G.C, Wilson W.R, Dawson B.V, Zwi L.J, Green A.W, and Boys J.T. Evaluation of Potential Health Effects of 10 kHz Magnetic Fields: A Short-Term Mouse Toxicology Study. Bioelectromagnetics. 1996;17:lll-122.
) Junqueira LC, Carneiro J (eds). Basic Histology. Tenth edition. Mcgraw-Hill companies, Rio de Janeiro. 2003; 403-404.

There are 22 citations in total.

Details

Primary Language	Turkish
Journal Section	Articles
Authors	Mehmet Zulkuf Akdag This is me Suleyman Dasdag This is me M.aydin Ketanı This is me Hakan Sagsoz This is me
Publication Date	June 1, 2009
Published in Issue	Year 2009 Volume: 2 Issue: 2

Cite

APA	Akdag, M. Z., Dasdag, S., Ketanı, M., Sagsoz, H. (2009). Effect of Extremely Low Frequency Magnetic Fields in Safety Standards on Structure of Acidophilic and Basophilic Cells in Anterior Pituitary Gland of Rats: an Experimental Study. Journal Of International Dental And Medical Research, 2(2), 61-66.
AMA	Akdag MZ, Dasdag S, Ketanı M, Sagsoz H. Effect of Extremely Low Frequency Magnetic Fields in Safety Standards on Structure of Acidophilic and Basophilic Cells in Anterior Pituitary Gland of Rats: an Experimental Study. JIDMR. June 2009;2(2):61-66.
Chicago	Akdag, Mehmet Zulkuf, Suleyman Dasdag, M.aydin Ketanı, and Hakan Sagsoz. “Effect of Extremely Low Frequency Magnetic Fields in Safety Standards on Structure of Acidophilic and Basophilic Cells in Anterior Pituitary Gland of Rats: An Experimental Study”. Journal Of International Dental And Medical Research 2, no. 2 (June 2009): 61-66.
EndNote	Akdag MZ, Dasdag S, Ketanı M, Sagsoz H (June 1, 2009) Effect of Extremely Low Frequency Magnetic Fields in Safety Standards on Structure of Acidophilic and Basophilic Cells in Anterior Pituitary Gland of Rats: an Experimental Study. Journal Of International Dental And Medical Research 2 2 61–66.
IEEE	M. Z. Akdag, S. Dasdag, M. Ketanı, and H. Sagsoz, “Effect of Extremely Low Frequency Magnetic Fields in Safety Standards on Structure of Acidophilic and Basophilic Cells in Anterior Pituitary Gland of Rats: an Experimental Study”, JIDMR, vol. 2, no. 2, pp. 61–66, 2009.
ISNAD	Akdag, Mehmet Zulkuf et al. “Effect of Extremely Low Frequency Magnetic Fields in Safety Standards on Structure of Acidophilic and Basophilic Cells in Anterior Pituitary Gland of Rats: An Experimental Study”. Journal Of International Dental And Medical Research 2/2 (June 2009), 61-66.
JAMA	Akdag MZ, Dasdag S, Ketanı M, Sagsoz H. Effect of Extremely Low Frequency Magnetic Fields in Safety Standards on Structure of Acidophilic and Basophilic Cells in Anterior Pituitary Gland of Rats: an Experimental Study. JIDMR. 2009;2:61–66.
MLA	Akdag, Mehmet Zulkuf et al. “Effect of Extremely Low Frequency Magnetic Fields in Safety Standards on Structure of Acidophilic and Basophilic Cells in Anterior Pituitary Gland of Rats: An Experimental Study”. Journal Of International Dental And Medical Research, vol. 2, no. 2, 2009, pp. 61-66.
Vancouver	Akdag MZ, Dasdag S, Ketanı M, Sagsoz H. Effect of Extremely Low Frequency Magnetic Fields in Safety Standards on Structure of Acidophilic and Basophilic Cells in Anterior Pituitary Gland of Rats: an Experimental Study. JIDMR. 2009;2(2):61-6.

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