PEMF and Cancer
Effect of magnetic fields on tumor growth and viability. I. Tatarov, A. Panda, D. Petkov, K. Kolappaswamy, K. Thompson, A. Kavirayani, M. M. Lipsky, E. Elson, C. C. Davis, S. S. Martin, and L. J. DeTolla, Comp. Med., vol. 61, no. 4, pp. 339–345, 2011.
Low intensity and frequency pulsed electromagnetic fields selectively impair breast cancer cell viability. S. Crocetti, C. Beyer, G. Schade, M. Egli, J. Fröhlich, and A. Franco-Obregón, PLoS One, vol. 8, no. 9, p. e72944, 2013.
Treating cancer with amplitude-modulated electromagnetic fields: a potential paradigm shift, again? C. F. Blackman, Br. J. Cancer, vol. 106, no. 2, pp. 241–2, 2012.
Effects of in vitro electrical stimulation on enhancement and suppression of malignant lymphoma cell proliferation. Lyte M, Gannon JE, O’clock GD Jr (1991): JNCI 83: 1 16- 1 19.
A review on the use of magnetic fields and ultrasound for non-invasive cancer treatment. 2018 Jun 20. doi: 10.1016/j.jare.2018.06.003. Somoshree Senguptaa and Vamsi K. Ballaa.
Mechanisms and therapeutic effectiveness of pulsed electromagnetic field therapy in oncology
Nanosecond pulsed electric fields cause melanomas to self-destruct
Effects of PEMF on a murine osteosarcoma cell line: drug-resistant (P-glycoprotein-positive) and non-resistant cells
Extremely low frequency (ELF) pulsed-gradient magnetic fields inhibit malignant tumour growth at different biological levels
Treatment of experimental tumors with a combination of a pulsing magnetic field and an antitumor drug
Cytotoxicity of temozolomide on human glioblastoma cells is enhanced by the concomitant exposure to an extremely low-frequency electromagnetic field (100Hz, 100G).
Therapeutic effects of low frequency pulsed electromagnetic fields on rat liver cancer. Res Inven Int J Eng Sci. 2013;2(9):17–18. Emara S.O., EL-Kholy S.M., Kazem A.H., Hussein N.A., Al-dein R.S.S.