Investigation of Co-genotoxic Effects of Radiofrequency Electromagnetic Fields In Vivo
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P. Heikkinen | P. Heikkinen | L. Puranen | L. Verschaeve | J. Juutilainen | G. Verheyen | T. Kumlin | J. Juutilainen | L. Puranen | L. Verschaeve | G. Verheyen | U. Van Gorp | F. Boonen | F. Vander Plaetse | A. Maes | T. Kumlin | J. Mäki-Paakkanen | U. Van Gorp | A. Maes | J. Mäki‐Paakkanen | F. vander Plaetse | F. Boonen
[1] T. Sofuni,et al. The micronucleus assay with mouse peripheral blood reticulocytes using acridine orange-coated slides. , 1990, Mutation research.
[2] W. W. Daniel. Applied Nonparametric Statistics , 1979 .
[3] W F Pickard,et al. Measurement of DNA damage after acute exposure to pulsed‐wave 2450 MHz microwaves in rat brain cells by two alkaline comet assay methods , 2004, International journal of radiation biology.
[4] V. Kosma,et al. Effects of 50 Hz magnetic fields on UV-induced skin tumourigenesis in ODC-transgenic and non-transgenic mice. , 1998, International journal of radiation biology.
[5] J E Moulder,et al. Cell phones and cancer: what is the evidence for a connection? , 1999, Radiation research.
[6] Identification of clastogenic and/or aneugenic events during the preneoplastic stages of experimental rat hepatocarcinogenesis by fluorescence in situ hybridization. , 1995, Carcinogenesis.
[7] M Jacobsen,et al. Re: Carcinogenicity of the drinking water mutagen 3-chloro-4-(dichloromethyl)-5-hydroxy-2(5H)-furanone in the rat. , 1997, Journal of the National Cancer Institute.
[8] M. Kirsch‐Volders,et al. C-banding as a simple tool to discriminate between micronuclei induced by clastogens and aneugens. , 1988, Stain technology.
[9] M. Fenech,et al. Kinetochore detection in micronuclei: an alternative method for measuring chromosome loss. , 1989, Mutagenesis.
[10] The suitability of rat peripheral blood in subchronic studies for the micronucleus assay. , 1995, Mutation research.
[11] C. Price. Fluorescence in situ hybridization. , 1993, Blood reviews.
[12] B. Miller,et al. Application of antikinetochore antibody staining (CREST staining) to micronuclei in erythrocytes induced in vivo. , 1990, Mutagenesis.
[13] B. Trask,et al. Fluorescence in situ hybridization: applications in cytogenetics and gene mapping. , 1991, Trends in genetics : TIG.
[14] R. Tice,et al. A simple technique for quantitation of low levels of DNA damage in individual cells. , 1988, Experimental cell research.
[15] Volkert Hansen,et al. RF exposure of biological systems in radial waveguides , 1999 .
[16] A. T. Sumner. A simple technique for demonstrating centromeric heterochromatin. , 1972, Experimental cell research.
[17] J. Majeska,et al. A direct comparison of mouse and rat bone marrow and blood as target tissues in the micronucleus assay. , 1997, Mutation research.
[18] M. Meltz,et al. Radiofrequency exposure and mammalian cell toxicity, genotoxicity, and transformation , 2003, Bioelectromagnetics.
[19] B. Hoebee,et al. The isolation of rat chromosome probes and their application in cytogenetic tests. , 1996, Mutation research.
[20] Makoto Hayashi,et al. Evaluation of the rat micronucleus test with bone marrow and peripheral blood: Summary of the 9th collaborative study by CSGMT/JEMS·MMS , 1998, Environmental and molecular mutagenesis.
[21] M D Waters,et al. IPCS guidelines for the monitoring of genotoxic effects of carcinogens in humans. International Programme on Chemical Safety. , 2000, Mutation research.
[22] W F Pickard,et al. DNA damage in rat brain cells after in vivo exposure to 2450 MHz electromagnetic radiation and various methods of euthanasia. , 1998, Radiation research.
[23] Y. Sasaki,et al. Detection of in vivo genotoxicity of 3-chloro-4-(dichloromethyl)-5-hydroxy-2[5H]-furanone (MX) by the alkaline single cell gel electrophoresis (Comet) assay in multiple mouse organs. , 1997, Mutation research.
[24] M. Meltz,et al. Absence of mutagenic interaction between microwaves and mitomycin C in mammalian cells , 1989, Environmental and molecular mutagenesis.
[25] P. Heikkinen,et al. Effects of Mobile Phone Radiation on X-Ray-Induced Tumorigenesis in Mice , 2001, Radiation research.
[26] K. Yamamoto,et al. A comparison of diameters of micronuclei induced by clastogens and by spindle poisons. , 1980, Mutation research.
[27] M. Kirsch‐Volders,et al. The mouse bone marrow micronucleus assay can be used to distinguish aneugens from clastogens. , 1989, Mutagenesis.
[28] L. Verschaeve,et al. Cytogenetic effects of 935.2-MHz (GSM) microwaves alone and in combination with mitomycin C. , 1997, Mutation research.
[29] V. Kašuba,et al. Micronucleus induction after whole-body microwave irradiation of rats. , 2002, Mutation research.
[30] C. Streffer,et al. A cytogenetic analysis of the long-term effect of uranium mining on peripheral lymphocytes using the micronucleus–centromere assay , 2001, International journal of radiation biology.
[31] A Basten,et al. Lymphomas in E mu-Pim1 transgenic mice exposed to pulsed 900 MHZ electromagnetic fields. , 1997, Radiation research.
[32] H. Lai,et al. Single- and double-strand DNA breaks in rat brain cells after acute exposure to radiofrequency electromagnetic radiation. , 1996, International journal of radiation biology.
[33] I. Adler,et al. Differentiation of micronuclei in mouse bone marrow cells: a comparison between CREST staining and fluorescent in situ hybridization with centromeric and telomeric DNA probes. , 1994, Mutagenesis.
[34] L. Verschaeve,et al. 954 MHz microwaves enhance the mutagenic properties of mitomycin C , 1996, Environmental and molecular mutagenesis.
[35] L. Giovannelli,et al. Vulnerability to DNA damage in the aging rat substantia nigra: a study with the comet assay , 2003, Brain Research.
[36] Val Gebski,et al. Long-Term Exposure of Eμ-Pim1 Transgenic Mice to 898.4 MHz Microwaves does not Increase Lymphoma Incidence , 2002, Radiation research.
[37] L. Verschaeve,et al. Cytogenetic investigations on microwaves emitted by a 455.7 MHz car phone. , 2000, Folia biologica.
[38] L. Verschaeve,et al. Genetic, carcinogenic and teratogenic effects of radiofrequency fields. , 1998, Mutation research.
[39] T. Vartiainen,et al. Carcinogenicity of the drinking water mutagen 3-chloro-4-(dichloromethyl)-5-hydroxy-2(5H)-furanone in the rat. , 1997, Journal of the National Cancer Institute.
[40] M. Meltz,et al. Radiofrequency (microwave) radiation exposure of mammalian cells during UV-induced DNA repair synthesis. , 1987, Radiation research.
[41] M. Meltz,et al. Influence of radiofrequency radiation on chromosome aberrations in CHO cells and its interaction with DNA-damaging agents. , 1990, Radiation research.
[42] David Brusick,et al. Genotoxicity of radiofrequency radiation , 1998, Environmental and molecular mutagenesis.
[43] M. Meltz,et al. Effects of radiofrequency radiation and simultaneous exposure with mitomycin C on the frequency of sister chromatid exchanges in Chinese hamster ovary cells. , 1987, Environmental mutagenesis.
[44] S. Shott,et al. Nonparametric Statistics , 2018, The Encyclopedia of Archaeological Sciences.
[45] H. Lai,et al. Acute low-intensity microwave exposure increases DNA single-strand breaks in rat brain cells. , 1995, Bioelectromagnetics.
[46] L. Verschaeve,et al. Cytogenetic effects of 900 MHz (GSM) microwaves on human lymphocytes. , 2001, Bioelectromagnetics.
[47] M. Meltz,et al. Absence of a synergistic effect between moderate-power radio-frequency electromagnetic radiation and adriamycin on cell-cycle progression and sister-chromatid exchange. , 1991, Bioelectromagnetics.
[48] Ji-liang He,et al. Study of low-intensity 2450-MHz microwave exposure enhancing the genotoxic effects of mitomycin C using micronucleus test and comet assay in vitro. , 2002, Biomedical and environmental sciences : BES.
[49] Eli Jerby,et al. Exposure of human peripheral blood lymphocytes to electromagnetic fields associated with cellular phones leads to chromosomal instability , 2003 .