Gomez-Delgado, M. Mrjia-Arangure, A. Cartagena-Sandoval, and M. Residence close to high-tension electric power lines and its association with leukemia in children in Spanish. Infant Mex. Falugi, C. Grattorola, and G. Effects of low-intensity pulsed electromagnetic fields on the early development of sea urchins. Fam, W. Long-term biological effects of very intense 60 Hz electric field on mice. Fewtrell, C. Magnetic fields and cancer in children residing near Swedish high-voltage power lines.
Magnetic fields, leukemia, and central nervous system tumors in Swedish adults residing near high-voltage power lines.
Calcium Movement in Excitable Cells
Fiorani, M. Cantoni, P. Sestili, R.
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Conti, P. Nicolini, F. Vetrano, and M. Fiorio, R. Morichetti, R. Vellosi, and G. Mutagenicity and toxicity of electromagnetic fields. Fitton-Jackson, S. The response of skeletal tissues to pulsed magnetic fields.
Richards and K. Rajan, eds. Oxford, U. Fitzsimmons, R. Farley, W. Adey, and D. Frequency dependence of increased cell proliferation, in vitro, in exposures to a low-amplitude, low-frequency electric field: Evidence for dependence on increased mitogen activity released into culture medium.
Strong, S. Mohan, and D. Low-amplitude, low-frequency electric field-stimulated bone cell proliferation may in part be mediated by increased IGF-II release. Fleiss J. Meta-analysis in epidemiology, with special reference to studies of the association between exposure to environmental tobacco smoke and lung cancer: A critique. Floderus, B. Persson, C. Stenlund, A. Wennberg, A. Ost, and B. Occupational exposure to electromagnetic fields in relation to leukemia and brain tumors: A case-control study in Sweden.
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Cancer Causes Control Tornqvist, and C. Incidence of selected cancers in Swedish railway workers, Foster, K. Dielectric permittivity and electrical conductivity of biological materials. Polk and E. Postow, eds. Frazier, M. Reese, J. Morris, R.
Jostes, and D. Exposure of mammalian cells to Hz magnetic or electric fields: Analysis of DNA repair induced, single-strand breaks. Free, M.
Kaune, R. Phillips, and H. Endocrinological effects of strong Hz electric fields on rats. Friedenberg, Z. Bioelectric potentials in bone. Bone Jt. Bioelectricity and fracture healing. Andrews, B.
Smolenski, B. Pearl, and C. Bone reaction to varying amounts of direct current. Roberts, Jr. Didizian, and C. Stimulation of fracture healing by direct current in the rabbit fibula. Harlow, and C. Healing of nonunion of the medial malleolus by means of direct current: A case report. Trauma Harlow, R. Heppenstall, and C. The cellular origin of bioelectric potentials in bone. Tissue Res. Zemsky, R. Pollis, and C. The response of non-traumatized bone to direct current.
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Frolen, H. Svedenstal, and L. Effects of pulsed magnetic fields on the developing mouse embryo. Fukuda, E. On the piezoelectric effect of bone.
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