|
||||||||||||||||
|
||||||||||||||||
The following HTML text is provided to enhance online readability. Many aspects of typography translate only awkwardly to HTML. Please use the page image as the authoritative form to ensure accuracy. of man and rodents from 60 Hz magnetic fields. IEEE Trans. Biomed. Eng. 41:1018-1023. Yellon, S.M. 1994. Acute 60 Hz magnetic field exposure effects on the melatonin rhythm in the pineal gland and circulation of the adult Djungarian hamster. J. Pineal Res. 16(3):136-144. Yost, M.G., and R.P. Liburdy. 1992. Time-varying and static magnetic fields act in combination to alter calcium signal transduction in the lymphocyte. FEBS Lett. 296:117-122. Yost, M.G., J.D. Wu, G. Lee, L. Hristova, and R. Neutra. 1992. Multivariate modeling of residential wire codes and measured magnetic field parameters . Pp. 27-28 in Project Abstracts: The Annual Review of Research on Biological Effects of Electric and Magnetic Fields. Frederick, Md.: W/L Associates. Youngson, J.H.A.M., A.D. Clayden, A. Myers, and R.A. Cartwright. 1991. A case/control study of adult haematological malignancies in relation to overhead powerlines. Br. J. Cancer 63:977-985. Zusman, I.P., H.P. Yaffe, and A. Ornoy. 1990. Effects of pulsing electromagnetic fields on the prenatal and postnatal development in mice and rats: In vivo and in vitro studies. Teratology 42:157-170. Zwingelberg, R., G. Obe, M. Rosenthal, M. Mevissen, S. Buntenkötter, and W. Löscher. 1993. Exposure of rats to a 50-Hz 30-mT magnetic field influences neither the frequencies of sister-chromatid exchanges nor proliferation characteristics of cultured peripheral lymphocytes. Mutat. Res. 302:39-44.
|
|
|||||||||||||||
