REFERENCES
- Thompson C. B. Apoptosis in the Pathogenesis and Treatment of Disease. Science 1995; 267: 1456–1462
- Bergamaschi G., Rosti V., Danova M., Lucotti C., Cazzola M. Apoptosis: Biology and Clinical Aspects. Haematologica 1994; 79: 86–93
- Hisamitsu T., Narita K., Kasahara T., Seto A., Yu Y., Asano K. Induction of Apoptosis in Human Leukemic Cells by Magnetic Fields. Jpn. J. Physiol. 1997; 47: 307–310
- Narita K., Hanakawa K., Kasahara T., Hisamitsu T., Asano K. Induction of Apoptotic Cell Death in Human Leukemic Cell Line, HL-60, by Extremely Low Frequency Electric Magnetic Fields: Analysis of the Possible Mechanism In Vitro. In Vivo 1997; 11: 329–336
- Ismael S. J., Callera F., Garcia A. B., Baffa O., Falcao R. P. Increased Dexamethasone-Induced Apoptosis of Thymocytes from Mice Exposed to Long-Term Extremely Low Frequency Magnetic Fields. Bioelectromagnetics 1998; 19: 131–135
- Duke R. C., Cohen J. J. Morphology and Biochemical Assays of Apoptosis. Curr. Protein Immunol. 1992; 17(suppl 3)1–16
- Spain J. D. Basic Microcomputer Models in Biology. Addison-Wesley, London 1982; 24
- Repacholi M. H. Low-Level Exposure to Radiofrequency Electromagnetic Fields: Health Effects and Research Needs. Bioelectromagnetics 1998; 19: 1–19
- Repacholi M. H., Greenebaum B. Interaction of Static and Extremely Low Frequency Electric and Magnetic Fields with Living Systems: Health Effects and Research Needs. Bioelectromagnetics 1999; 20: 133–160
- Blumenthal N. C., Ricci J., Breger L., Zychlinsky A., Solomon H., Chen G. G., Kuznetsov D., Dorfman R. Electromagnetic Fields on Cell Attachment and Induction of Apoptosis. Bioelectromagnetics 1997; 18(3)264–272
- Blank M., Goodman R. Do Electromagnetic Fields Interact Directly with DNA?. Bioelectromagnetics 1997; 18: 111–115
- Popp F. A., Chang J. J. Mechanism of Interaction Between Electromagnetic Fields and Living Organisms. Sci. China C Life Sci., in press, 43
- Cadossi R., Hentz V. R., Kipp J., Iverson R., Ceccherelli G., Zucchini P., Emilia G., Torelli G., Franceschi C. Effect of Low Frequency Low Energy Pulsing Electromagnetic Field (PEMF) on X-ray-Irradiated Mice. Exp. Hematol. 1989; 17(2)88–95
- Cadossi R., Zucchini P., Emilia G., Franceschi C., Cossarizza A., Santantonio M., Mandolini G., Torelli G. Effect of Low Frequency Low Energy Pulsing Electromagnetic Fields on Mice Injected with Cyclophosphamide. Exp. Hematol. 1991; 19(3)196–201
- Flipo D., Fournier M., Benquet C., Roux P., Le Boulaire C., Pinsky C., LaBella F. S., Krzystyniak K. Increased Apoptosis, Changes in Intracellular Ca2+, and Functional Alterations in Lymphocytes and Macrophages After In Vitro Exposure to Static Magnetic Field. J. Toxicol. Environ. Health 1998; 54(1)63–76
- Eichwald C., Kaiser F. Model for External Influences on Cellular Signal Transduction Pathway Including Cytosolic Calcium Oscillations. Bioelectromagnetics 1995; 16: 75–85
- Valberg P. A., Kavet R., Rafferty C. N. Can Low-Level 50/60 Hz Electric and Magnetic Fields Cause Biological Effects? Radiat. Res. 1997; 148: 2–21
- Reshetnyak S. A., Shcheglov V. A., Blagodatskikh S. V. Mechanisms of Interaction of Electromagnetic Radiation with a Biosystem. Laser Phys. 1996; 6: 621–653
- Berg H. Low-Frequency Electromagnetic Field Effects on Cell Metabolism. Bioelectrochemistry of Cells and Tissues, D. Walz, H. Berger. Birkhauser Verlag, Basel, Boaton, Berlin 1995; 285–301
- Adair R. K. Effects of Weak High-Frequency Electromagnetic Fields on Biological Systems. Radio Frequency Radiation Standards: Biological Effects Edited, B. J. Klauenberg, M. Grandolfo, D. N. Erwin. Plenum Press, New York 1994; 207–221
- Luben R. B. Membrane Signal-Transduction Mechanisms and Biological Effects of Low-Energy Electromagnetic Fields. Electromagnetic Fields: Biological Interactions and Mechanism, M. Blank. American Chemical Society, Washington, DC 1995; 437–450