References
- Aaron R. K., Ciombor D. M.. 1993. Therapeutic effects of electromagnetic fields in stimulation of connective tissue repair. J. Cell. Biochem.. 52:42–46.
- Arvidsson U., Riedl M., Chakrabarti S., . 1995. Distribution and targeting of a mu-opioid receptor (MOR1) in brain and spinal cord. J. Neurosci.. 15:3328–3341.
- Avdikos A., Karkabounas S., Metsios A., . 2007. Anticancer effects on leiomyosarcoma-bearing Wistar rats after electromagnetic radiation of resonant radiofrequencies. Hell. J. Nucl. Med.. 10:95–101.
- Ayşe I. G., Zafer A., Sule O., . 2010. Differentiation of K562 cells under ELF-EMF applied at different time courses. Electromagn. Biol. Med.. 29:122–130.
- Bawin S. M., Satmary W. M., Jones R. A., . 1996. Extremely low frequency magnetic field disrupt rhythmic slow activity in rat hippocampal slices. Bioelectromagnetics. 17:388–395.
- Bonnet M. P., Mignon A., Mazoit J. X., . 2010. Analgesic efficacy and adverse effects of epidural morphine compared to parenteral opioids after elective caesarean section: a systematic review. Eur. J. Pain. 14:894e1–894e9.
- Del Seppia C., Luschi P., Ghione S., . 2000. Exposure to a hypogeomagnetic field or to oscillating magnetic fields similarly reduces stress-induced analgesia in C57 male mice. Life Sci.. 66:1299–1306.
- Del Seppia C., Ghione S., Luschi P., . 2007. Pain perception and electromagnetic fields. Neurosci. Biobehav. Rev.. 31:619–642.
- Endler P. C., Pongratz W., Smith C. W., . 1995. Non-molecular information transfer from thyroxine to frogs with regard to homeopathic toxicology. Vet. Hum. Toxicol.. 37:259–260.
- Evangelou A., Verginadis I., Avdikos A., . 2008. Comparison of the cytotoxic effects of a Sn-Mercaptonicotinic acid complex to the coherent electromagnetic resonant radiofrequency spectra of the same complex, on a rat leiomyosarcoma malignant cell line. Metal Ions Biol. Med.. 10:929.
- Evangelou A., Toliopoulos I., Giotis C., . 2011. Functionality of natural killer cells from end-stage cancer patients exposed to coherent electromagnetic fields. Electromagn. Biol. Med.. 30:46–56.
- Hashimoto T., Saito Y., Yamada K., . 2006. Enhancement of morphine analgesic effect with induction of a μ-opioid receptor endocytosis in rats. Anesthesiology. 105:574–580.
- Ikehara T., Park K. H., Yamaguchi H., . 2002. Effects of time varying strong magnetic field on release of cytosolic free Ca2+ from intracellular stores in cultural bovine adrenal chromaffin cells. Bioelectromagnetics. 23:505–515.
- Islamov B. I., Balabanova R. M., Funtikov V. A., . 2002. Effect of bioresonance therapy on antioxidant system in lymphocytes in patients with rheumatoid arthritis. Bull. Exp. Biol. Med.. 134:248–250.
- Jeong J. H., Choi K. B., Yi B. C., . 2000. Effects of extremely low frequency magnetic fields on pain thresholds in mice: roles of melatonin and opioids. J. Auton. Pharmacol.. 20:259–264.
- Kaczmarek L.. 1987. The role of protein kinase C in the regulation of ion channels and neurotransmitter release. Trends Neurosci.. 10:30–34.
- Karabetsos, E. (2000). Measurements' report of electromagnetic radiation levels emitted from the device Multi Channel Dynamic Exciter 100 v. 1 Report of EEAE: MIA EEΠ 2. “Demokritos.” Athens, Greece: Greek Atomic Energy Agency, Bulletin no 2, 15.11.
- Karkabounas S., Havelas K., Kostoula O. K., . 2006. Effects of low intensity static electromagnetic radiofrequency fields on leiomyosarcoma and smooth muscle cell lines. Hell. J. Nucl. Med.. 9:167–172.
- Kavaliers M., Innes D.. Sex differences in magnetic field inhibition of morphine-induced responses of wild deer mice. Physiol. Behav.. 1987a; 40:559–562.
- Kavaliers M., Ossenkopp K. P.. Calcium channel involvement in magnetic field inhibition of morphine-induced analgesia. Arch. Pharmacol.. 1987b; 336:308–315.
- Keeler J.. 2005. NMR and energy levels. In: Keeler J.. editors. Understanding NMR Spectroscopy. West Sussex: John Wiley and Sons Ltd1–19.
- László J., Reiczigel J., Székely L., . 2007. Optimization of static magnetic field parameters improves analgesic effect in mice. Bioelectromagnetics. 28 8: 615–627.
- Martin L. J., Koren S. A., Persinger M. A.. 2004. Thermal analgesic effects from weak, complex magnetic fields and pharmacological interactions. Pharmacol. Biochem. Behav.. 78:217–227.
- Miura M., Takayama K., Okada J.. 1993. Increase in nitric oxide and cyclic GMP of rat cerebellum by radio frequency burst-type electromagnetic field radiation. J. Physiol.. 461:513–524.
- Pessina G. P., Aldimucci C., Palmi M., . 2001. Pulsed electromagnetic fields affect the intracellular calcium concentrations in human astrocytoma cells. Bioelectromagnetics. 22:503–510.
- Prado W. A.. 2001. Involvement of calcium in pain and antinociception. Braz. J. Med. Biol. Res.. 34:449–461.
- Prato F. S., Robertson J. A., Desjardins D., . 2005. Daily repeated magnetic field shielding induces analgesia in CD-1 mice. Bioelectromagnetics. 26:109–117.
- Schiller P. W.. 2005. Opioid peptide-derived analgesics. AAPS J.. 7:560–565.
- Sert C., Söker S., Deniz M., . 2011. Intracellular Ca(2+) levels in rat ventricle cells exposed to extremely low frequency magnetic field. Electromagn. Biol. Med.. 30:14–20.
- Sienkiewicz Z., Jones N., Bottomley A.. 2005. Neurobehavioral effects of electromagnetic fields. Bioelectromagnetics. 7:S116–S126.
- Simko M.. 2007. Cell type specific redox status is responsible for diverse electromagnetic field effects. Curr. Med. Chem.. 14:1141–1152.
- Spiros C. K., Scarpelis G., Havelas K., . 2006. Electromagnetic (EMF) signals of nerve growth factor (NGF) may induce differentiation of rat pheochromatocytoma cells PC 12. Tumor Biol.. 27:87.
- Strasák L., Bártová E., Krejci J., . 2009. Effects of ELF-EMF on brain proteins in mice. Electromagn. Biol. Med.. 28:96–104.
- Stronati L., Testa A., Villani P., . 2004. Absence of genotoxicity in human blood cells exposed to 50 Hz magnetic fields as assessed by comet assay, chromosome aberration, micronucleus, and sister chromatid exchange analyses. Bioelectromagnetics. 25:41–48.
- Tao Q., Henderson A.. 1999. EMF induces differentiation in HL-60 cells. J. Cell. Biochem.. 73:212–217.
- Tofani S., Cintorino M., Barone D., . 2002. Increased mouse survival, tumor growth inhibition and decreased immunoreactive p53 after exposure to magnetic fields. Bioelectromagnetics. 23:230–238.
- Walker J. L., Kryscio R., Smith J., . 2007. Electromagnetic field treatment of nerve crush injury in a rat model: effect of signal configuration on functional recovery. Bioelectromagnetics. 28:256–263.
- Wolf F. I., Torsello A., Tedesco B., . 2005. 50-Hz extremely low frequency electromagnetic fields enhance cell proliferation and DNA damage: possible involvement of a redox mechanism. Biochim. Biophys. Acta. 1743:120–129.