Bibliographie

XIV/ BIBLIOGRAPHIE

 

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9. BJ Youbicier-Simo, R. Messagier, M. Fillion-Robin, Review of studies validating the protective efficacy of a new technology designed to compensate potential adverse bioeffects caused by VDU and GSM cell phone radiation, Radioproteccao, Volume I, Numeros 8 e 9, Dezembro de 2000 e Maio de 2001

 

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14. Lahijani MS, Sajadi K. Development ofpreincubated chicken eggs following exposure to 50 Hz electromagnetic fields with 1.33-7.32 mT flux densities. Indian JExp Biol. 2004

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15. Lahijani MS, Nojooshi SE, Siadat SF. Light and electron microscope studies of effects of 50 Hz electromagnetic fields on preincubated chick embryo. Electromagn Biol Med. 2007;26(2):83-98.

 

16. Blackman CF. Can EMF exposure during development leave an imprint later in life? Electromagn Biol Med. 2006;25(4):2 17-25.

 

17. Rajendra P, Sujatha H, Devendranath D, Gunasekaran B, Sashidhar R, Subramanyam C, Channakeshava. Biological effects of power frequency magnetic fields: Neurochemical and toxicological changes in developing chick embryos. Biomagn Res Technol. 2004 Jan 31;2(1):1.

 

18. Toman R, Jedlicka J, Broucek J. The influence of a temporary magnetic field on chicken hatching. JEnviron Sci Health A Tox Hazard Subst Environ Eng. 2002;37(5):969-74.

 

19. Grigor'ev IuG, Stepanov VS. Forming of memory (imprinting) in chicks after prior low-level exposure to electromagnetic fields. Radiats Biol Radioecol. 1998 Mar-Apr;38(2):223-31.

 

20. Ubeda A, Trillo MA, ChacOn L, Blanco MJ, Leal J. Chick embryo development can be irreversibly altered by early exposure to weak extremely-low-frequency magnetic fields. Bioelectromagnetics. 1994;15(5):385-98.

 

21. Bonhomme-Faivre L, Mace A, Bezie Y, Marion S, Bindoula G, Szekely AM, Frenois N, Auclair H, Orbach­Arbouys S, Bizi E. Alterations of biological parameters in mice chronically exposed to low-frequency (50 Hz) electromagnetic fields. Life Sci. 1998;62(14):1271-80.

 

22. Komazaki S, Takano K. Induction of increase in intracellular calcium concentration of embryonic cells and acceleration of morphogenetic cell movements during amphibian gastrulation by a 50-Hz magnetic field. J Exp Zool Part A Ecol Genet Physiol. 2007 Mar 1;307(3):156-62.

 

23. Lisi A, Ledda M, Rosola E, Pozzi D, D'Emilia E, Giuliani L, Foletti A, Modesti A, Moths SJ, Grimaldi S. Extremely low frequency electromagnetic field exposure promotes differentiation of pituitary corticotrope­derived AtT20 D I6V cells. Bioelectromagnetics. 2006 Dec;27(8):641-51.

 

24. Winker R, Ivancsits S, Pilger A, Adlkofer F, Rudiger HW. Chromosomal damage in human diploid fibroblasts by intermittent exposure to extremely low-frequency electromagnetic fields. Mutat Res. 2005 Aug 1;585(1-2):43-9.

 

25. Carlo GL, Jenrow RS. Scientific progress - wireless phones and brain cancer: current state of the science. MedGenMed. 2000 Jul 11;2(3):E40.

 

26. Weisbrot D, Lin H, Ye L, Blank M, Goodman R. Effects of mobile phone radiation on reproduction and development in Drosophila melanogaster. J Cell Biochem. 2003 May 1;89(1):48-55.

 

 

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28. Santini R, Messagier R, Claustrat B, Fillion-Robin M, Youbicier-Simo BJ. Video screen exposure and 6­sulfatoxymelatonin urinary excretion in women Pathol Biol (Paris). 2003 Apr;51(3):143-6.

 

29. Feychting M, Forssen U. Electromagnetic fields and female breast cancer. Cancer Causes Control. 2006 May;17(4):553-8.

 

30. Gobba F, Bravo G, Scaringi M, Roccatto L. No association between occupational exposure to ELF magnetic field and urinary 6-sulfatoximelatonin in workers. Bioelectromagnetics. 2006 Dec;27(8):667-73.

 

31. Davis S, Mirick DK, Chen C, Stanczyk FZ. Effects of 60-Hz magnetic field exposure on nocturnal 6­sulfatoxymelatonin, estrogens, luteinizing hormone, and follicle-stimulating hormone in healthy reproductive-age women: results of a crossover trial. Ann EpidemioL 2006 Aug;16(8):622-31. Epub 2006 Feb 2.

 

32. Salti R, Tarquini R, Stagi S, Perfetto F, Comelissen G, Laffi G, Mazzoccoli G, Halberg F. Age-dependent association of exposure to television screen with children's urinary melatonin excretion? Neuro Endocrinol Lett. 2006 Feb-Apr;27(1-2):73-80.

 

33. Juutilainen J, Kumlin T. Occupational magnetic field exposure and melatonin: interaction with light-at-night. Bioelectromagnetics. 2006 Jul;27(5):423-6.

 

34. Wood AW, Loughran SP, Stough C. Does evening exposure to mobile phone radiation affect subsequent melatonin production? Int J Radiat Biol. 2006 Feb;82(2):69-76.

 

35. Kumlin T, Heikkinen P, Laitinen JT, Juutilainen J. Exposure to a 50-hz magnetic field induces a circadian rhythm in 6-hydroxymelatonin sulfate excretion in mice. J Radiat Res (Tokyo). 2005 Sep;46(3):313-8

 

36. Vangelova KK, Israel MS. Variations of melatonin and stress hormones under extended shifts and radiofrequency electromagnetic radiation. Rev Environ Health. 2005 Apr-Jun;20(2):151-61.

 

37. Bakos J, Kubinyi G, Sinay H, Thuroczy G. GSM modulated radiofrequency radiation does not affect 6­sulfatoxymelatonin excretion of rats. Bioelectromagnetics. 2003 Dec;24(8):531-4.

 

38. Touitou Y, LaMbrozo J, Camus F, Charbuy H. Magnetic fields and the melatonin hypothesis: a study of workers chronically exposed to 50-Hz magnetic fields. Am J Physiol Regul Integr Comp Physiol. 2003

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39. Burch JB, Reif JS, Noonan CW, Ichinose T, Bachand AM, Koleber TL, Yost MG. Melatonin metabolite excretion among cellular telephone users. Int J Radiat Biol. 2002 Nov;78(11):1029-36.

40. Youngstedt SD, Kripke DF, Elliott JA, Assmus JD. No association of 6-sulfatoxymelatonin with in-bed 60-Hz magnetic field exposure or illumination level among older adults. Environ Res. 2002 Jul;89(3):201-9.

 

41. Bortkiewicz A, Pilacik B, Gadzicka E, Szymczak W. The excretion of 6-hydroxymelatonin sulfate in healthy young men exposed to electromagnetic fields emitted by cellular phone -- an experimental study. Neuro Endocrinol Lett. 2002 Apr;23 Suppl 1:88-91

 

42.Touitou Y, Selmaoui B, Lambrozo J, Auzeby A. Evaluation of the effect of magnetic fields on the secretion of melatonin in humans and rats. Circadian study. Bull Acad Natl Med. 2002;186(9):1625-39; discussion 1639­41. Review. French.

 

43. Levallois P, Dumont M, Touitou y, Gingras S, Masse B, Gauvin D, Kroger E, Bourdages M, Douville P. Effects of electric and magnetic fields from high-power lines on female urinary excretion of 6­sulfatoxymelatonin. Am J EpidemioL 2001 Oct 1;154(7):601-9

 

44. Yariktas M, Doner F, Ozguner F, Gokalp 0, Dogru H, Delibas N. Nitric oxide level in the nasal and sinus mucosa after exposure to electromagnetic field. Otolaryngol Head Neck Surg. 2005 May;132(5):713-6.

 

45. Yoshikawa T, Tanigawa M, Tanigawa T, Imai A, Hongo H, Kondo M. Enhancement of nitric oxide generation by low frequency electromagnetic field. Pathophysiology. 2000 Jul;7(2):131-135.

 

46. Yayoi Saytou, Akiko Hara, Kouji Oono, Hiromi Kikuchi, Hiroe Matsuzaki, Tatsuto Namba and Mikio Miyata, Ocular functions during loading by visual display terminal and the effect of tecno AO. Japanese Review of clinical Ophtalmology. 1999 Volume 11, Number 93, 1634-1637

 

47. DJ Clements-Croome, J. Jukes Computers and health in the workplace. Healthy Buildings 2000. Proceedings, Vol.1 119-124

 

48. http://www.next-up.org/

 

 

 

 

 

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