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Electro- and Magnetobiology Volume 16, 1997 - Issue 2
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Original Article

Histopathological Changes in Mouse Adrenal Gland Under Second-Generation Chronic Exposure to so-Hz Magnetic Fields. II. Females

M. A. Romo Department of Medical Specialities, Faculty of Medicine, 28871, Alcalá de Henares Madrid, Spain
,
M. L. Picazo Department of Cell Biology and Genetics Faculty of Biology, University of Alcalá, 28871, Alcalá de Henares Madrid, Spain
,
M. P. De Miguel Department of Cell Biology and Genetics Faculty of Biology, University of Alcalá, 28871, Alcalá de Henares Madrid, Spain
,
M. Royuela Department of Cell Biology and Genetics Faculty of Biology, University of Alcalá, 28871, Alcalá de Henares Madrid, Spain
&
J. L. Bardasano Department of Medical Specialities, Faculty of Medicine, 28871, Alcalá de Henares Madrid, Spain
Pages 177-193 | Published online: 07 Jul 2009

References

  • Marino A. A., Berger T. J., Austin B. P., Becker R. O., Hart F. X. In vivo bioelectrochemical changes associated with exposure to extremely low frequency electric fields. Physiol. Chem. Phys. 1977; 9: 433441
  • Minkina N. A., Kuz'minskaia G. N., Nikitina V. N., Garina C. A. Effect of discontinuous short‐wave electromagnetic field irradiation on the state of the endocrine glands. Radiobiologiia 1985; 25: 756–762
  • Boudard F., Youbicier‐Simo B. J., Cabaner C., Lemaire‐Misonne C., Bayle J. D., Bastide M. Neuroendocrine and immune effects of low dose radiations from a TV set on embryos and young chickens. Sixteenth Annual Meeting. BEMS, Copenhagen 1994; 133
  • Quinlan W. J., Petrondas D., Lebda N., Pettit S., Michaelson S. M. Neuroendocrine parameters in the rat exposed to 60‐Hz electric fields. Bioelectromagnetics 1985; 6: 381–389
  • Lymangrover J. R., Keku E., Seto Y. J. Direct power‐frequency electric field effects on mammalian endocrine tissue. Life Sci. 1983; 32: 691–696
  • Lymangrover J. R., Keku E., Hsieh S. T., Dunlap W. P., Seto Y. J. Direct power‐frequency electric field effects on mammalian endocrine tissue. Environ. Res. 1987; 43: 157–167
  • De Bruyn L., De Jager L., De Wet J. Y. Can a low‐level electric field induce stress in mice?. Electricity and Magnetism in Biology and Medicine, M. Blank, San Francisco 1993; 831
  • De Bruyn L., De Jager L. Electric field exposure and evidence of stress in mice. Environ. Res. 1994; 65: 149–160
  • Free M. J., Kaune W. T., Phillips R. D., Cheng H‐C. Endocrinological effects of strong 60–Hz electric fields on rats. Bioelectromagnetics 1981; 2: 105–121
  • Hackman R. M., Graves H. B. Corticosterone levels in mice exposed to high‐intensity electric fields. Behav. Neural Biol. 1981; 32: 201–213
  • Portet R. The thyroid and adrenal glands in rats chronically exposed to an intense electric field. C. R. Seances. Soc. Biol. Fil. 1983; 177: 290–295
  • Portet R., Cabanes J. Development of young rats and rabbits exposed to a strong electric field. Bioelectromagnetics 1988; 9: 95–104
  • Popov V. I., Bogoliubov V. M. Morphological changes in the thyroid and adrenals under the bitemporal action of a UHF electrical field and decimeter waves. Vopr. Kurortol. Fizioter. Lech. Fix. Kult. 1990; 2: 5–9
  • Barnothy M. F., Sumegi I. Abnormalities in organs of mice induced by a magnetic fields. Nature 1969; 222(177)270–271
  • Zagorskaia E. A. Effect of a permanent magnetic field on the endocrine system. Kosm. Biol. Aviakosm. Med. 1981; 25(5)14–17
  • Klimovitsky V. A., Loginov V. A., Zagorskaia E. A., Weissleder H., Drescher J., Hecht K. The evaluation of biological efficiency of electromagnetic fields generated by implanted radiotelemetric transmitters used in space research on animals. Physiologist 1992; 35(1)S248–S249
  • Brugere H., Pupin F., Lambrozo J. Effects of 50 Hz EMFs on blood corticosterone as a stress indicator in rats. Third International Congress. EBEA, Nancy 1996; 170
  • Zagorskaia E. A., Rodina G. P. Responses of the endocrine system and peripheral blood of rats to single and chronic effects of a pulsed low frequency electromagnetic field. Kosm. Biol. Aviakosm. Med. 1990; 2: 56–60
  • Gorczynska E., Wegrzynowicz R. Glucose homeostasis in rats exposed to magnetic fields. Invest. Radiol. 1991; 26(12)1095–1100
  • Klimovskaia L. D., Kokoreva L. V. Reactivity of the sympathetic‐adrenal system and physical loading tolerance in multiple exposures to a permanent magnetic field. Kosm. Biol. Aviakosm. Med. 1986; 20(6)70–73
  • Shust I. V., Kostinik I. M. Reaction of the animal adrenal cortex to the action of a strong, constant magnetic field and to a hypomagnetic environment. Probl. Endokrinol. 1976; 22(2)86–92
  • Zagorskaia E. A. Reaction of the endocrine system to continuous and intermittent electromagnetic fields. Kosm. Biol. Aviakosm. Med. 1989; 23: 414
  • Picazo M. L., De Miguel M. P., Romo M. A., Varela L., Franco P., Gianonatti C., Bardasano J. L. Changes in mouse adrenal gland functionality under second‐generation chronic exposure to ELF magnetic fields. I. Males. Electro‐ Magnetobiol. 1996; 25(2)85–98
  • Alvarez‐Ude J., Picazo M. L., Alpuente J., Raposo M. A., Betes M., Catala M. D., Bardasano J. L. Methods of measurements and control of Holmholtz coil's of experimental design. Sixteenth Annual Meeting. BEMS, Copenhagen 1994; 162
  • Shire J. G.M., Spickett S. G. Genetic variation in adrenal structure: strain differences in quantitative characters. J. Endocrinol. 1968; 40: 215–229
  • Tanaka S., Nishimura M., Kitoh H., Matsuzawa A. Strain difference of the adrenal cortex between A/J and SM/J mice, progenitors of SMXA recombinant inbred group. Jikken‐Dobutsu 1995; 44(2)127–130
  • Picazo M. L., De Miguel M. P., Leyton V., Franco P., Varela L., Paniagua R., Bardasano J. L. Long‐term effects of ELF magnetic fields on the mouse testis and serum testosterone levels. Electro‐ Magnetobiol. 1995; 24(2)127–134
  • Picazo M. L., Leyton V. A., De Miguel M. P., Paniagua R., Bardasano J. L. Effects of chronic exposure to ELF magnetic fields on the reproductive system of female mice. Biochem. Bioenerg. 1995; 38: 173–177
  • Picazo M. L., Sanz P., Vallejo D., Alvarez‐Ude J. A., Bardasano J. L. Effects of ELF magnetic fields on hematological parameters: an experimental model. Electro‐ Magnetobiol. 1995; 24(2)75–89
  • Picazo M. L., De Miguel M. P., González M. J., Royuela M., Fraile B., Paniagua R., Bardasano J. L. Interactions of ELF magnetic fields with the mouse skeletal muscle. Electro‐ Magnetobiol. 1995; 24(3)165–175
  • Mikolajczyk H. J., Kamedula M., Kamedula T. Biological account emerging from some kinds of electromagnetic waves in the environment. Pol. J. Occup. Med. Environ. Health 1993; 6(3)263–271
  • Page D. L., DeLellis R. A., Hough A. J. Tumours of the adrenal. Atlas of Tumor Pathology, W. H. Hartmann, L. H. Sobin. Second series, Armed Forces Institute of Pathology, Washington, D.C. 1986, fascicle 23
  • Mazzocchi G., Malendowicz L. K., Rebuffat P., Robba C., Gottardo G., Nussdorfer G. G. Short‐ and long‐term effects of ACTH on the adrenal zona glomerulosa of the rat. A coupled stereological and enzymological study. Cell Tissue Res. 1986; 243: 303–310
  • Mazzocchi G., Robba C., Rebuffat P., Belloni A. S., Gambino A. M., Nussdorfer G. G. Investigations on the turnover of adrenocortical mitochondria. Cell Tissue Res. 1977; 181: 287–298
  • Nussdorfer G. G., Rebuffat P., Mazzocchi G., Belloni A. S., Meneghelli V. Investigations on adrenocortical mitochondria turnover. I. Effect of chronic treatment with ACTH on the size and number of rat zona fasciculata mitochondria. Cell Tissue Res. 1974; 250: 79–94
  • Buuck R. J., Tharp G. D., Brumbaugh J. A. Effects of chronic exercise on the ultrastructure of the adrenocortical cells in the rat. Cell Tissue Res. 1976; 268: 261–270
  • Cotran R. S., Kumar V., Robbins S. L. Corteza suprarrenal. Patologia estructuraly funcional2nd ed. McGraw‐Hill, New York 1990; 1313–1328
  • Rhodin J. A.G. The ultrastructure of the adrenal cortex of rat under normal and experimental conditions. J. Ultrastruct. Res. 1971; 34: 23–71
  • Neville A. M., Mackay A. M. The structure of the human adrenal cortex health and disease. Clinics in Endocrinology and Metabolism. WB Saunders, Philadelphia 1972; 361–395
  • Andreis P. G., Rebuffat P., Belloni A. S., Neri G., Cavallini L., Gottardo G., Mazzocchi G., Coi A., Malendowicz L. K., Nussdorfer G. G. Stereological and functional investigations on isolated adrenocortical cells: zona fasciculata/reticularis cells of chronically ACTH‐treated rats. Cell Tissue Res. 1989; 258: 43–51
  • Mazzocchi G., Robba C., Rigotti P., Belloni A. S., Gambino A. M., Nussdorfer G. G. Effect of ACTH on the zona reticularis of the rat adrenal cortex: an ultrastructural stereologic study. Experientia 1976; 32: 26245
  • Howard‐Miller E. A transitory zone in the adrenal cortex which shows age and sex relationships. Am. J. hat. 1927; 40(2)251–293
  • Deacon C. F., Mosley W., Jones I. C. The X zone of the mouse adrenal cortex of the swiss albino strain. Gen. Comp. Endocrinol. 1986; 62(1)87–99
  • Sato T. The fine structure of the mouse adrenal X zone. Z. Zellforsch. 1968; 87: 315–329
  • Jones I. C. The action of testosterone on the adrenal cortex of the hypophysectomized, prepuberally castrated male mouse. Endocrinology 1949; 44: 427438
  • Howard E. Effect of castration on the seminal vesicles as influenced by age, considered in relation to the degree of development of the adrenal X zone. Am. J. Anat. 1939; 65: 105–149
  • Pudney J., Price G.M., Whitehouse B.J., Vinson G.P. Effects of chronic ACTH stimulation on the morphology of the rat adrenal cortex. Anat. Rec. 1984; 210: 603–415
  • Kitay J.I. Sex differences in adrenal cortical secretion in the rat. Endocrinology 1961; 68: 818–824

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