Effects of 2.45 GHz Electromagnetic Fields with a Wide Range of SARs on Bacterial and HPRT Gene Mutations
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概要
- 論文の詳細を見る
Present day use of mobile phones is ubiquitous. This causes some concern for human health due to exposure to high-frequency electromagnetic fields (HFEMF) from mobile phones. Consequently, we have examined the effects of 2.45 GHz electromagnetic fields on bacterial mutations and the hypoxanthine-guanine phosphoribosyl transferase (HPRT) gene mutations. Using the Ames test, bacteria were exposed to HFEMF for 30 min at specific absorption rates (SARs) from 5 to 200 W/kg. In all strains, there was no significant difference in the frequency of revertant colonies between sham exposure and HFEMF-exposed groups. In examination of mutations of the HPRT gene, Chinese hamster ovary (CHO)-K1 cells were exposed to HFEMF for 2 h at SARs from 5 to 200 W/kg. We detected a combination effect of simultaneous exposure to HFEMF and bleomycin at the respective SARs. A statistically significant difference was observed between the cells exposed to HFEMF at the SAR of 200 W/kg. Cells treated with the combination of HFEMF at SARs from 50 to 200 W/kg and bleomycin exhibited increased HPRT mutations. As the exposure to HFEMF induced an increase in temperature, these increases of mutation frequency may be a result of activation of bleomycin by heat. We consider that the increase of mutation frequency may be due to a thermal effect.
- 2007-01-15
著者
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Takashima Yoshio
Department of Built Environment,Tokyo Institute of Technology
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Miyakoshi Junji
Department of Radiation Genetics,Graduate School of Medicine Kyoto University
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KOYAMA Shin
Department of Radiological Technology, School of Health Sciences, Faculty of Medicine, Hirosaki Univ
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SAKURAI Tomonori
Department of Radiological Technology, School of Health Sciences, Faculty of Medicine, Hirosaki Univ
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SUZUKI Yukihisa
Department of Electrical Engineering, Graduate School of Engineering, Tokyo Metropolitan University
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TAKI Masao
Department of Electrical Engineering, Graduate School of Engineering, Tokyo Metropolitan University
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Miyakoshi Junji
Dep. Of Radiological Life Sciences Div. Of Medical Life Sciences Graduate School Of Health Sciences
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Miyakoshi Junji
Department Of Radiation Genetics Faculty Of Medicine Kyoto University
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Miyakoshi Junji
Department Of Radiological Life Sciences Division Of Medical Life Sciences Graduate School Of Health
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Takashima Yoshio
Department Of Built Environment Interdisciplinary Graduate School Of Science And Engineering Tokyo I
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Takashima Yoshio
Department Of Radiological Technology School Of Health Sciences Faculty Of Medicine Hirosaki Univers
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Koyama Shin
Department Of Radiological Technology School Of Health Sciences Faculty Of Medicine Hirosaki Univers
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Miyakoshi Junji
Department Radiation Genetics Graduate School Of Medicine Kyoto University
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Miyakoshi Junji
Department Of Radiation Biology Kyoto College Of Pharmacy
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Miyakoshi Junji
Faculty Of Medicine Hirosaki University
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Sakurai Tomonori
Laboratory Of Applied Radio Engineering For Humanosphere Research Institute For Sustainable Humanosp
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Sakurai Tomonori
Department Of Radiological Technology School Of Health Sciences Faculty Of Medicine Hirosaki Univers
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Taki Masao
Department Of Electrical Engineering Graduate School Of Engineering Tokyo Metropolitan University
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Suzuki Yukihisa
Department Of Electrical Engineering Graduate School Of Engineering Tokyo Metropolitan University
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Taki Masao
Department Of Electric Engineering Faculty Of Engineering Tokyo Met. Univ.
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Suzuki Yukihisa
Department Of Electrical And Electronic Engineering Tokyo Metropolitan University
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Taki Masao
Department of Communications Engineering, Osaka University
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