Radijo dažnio spinduliuotės poveikis širdžiai

  1. Türedi S, Hancı H, Topal Z, Ünal D, Mercantepe T, Bozkurt İ, Kaya H, Odacı E. The effects of prenatal exposure to a 900-MHz electromagnetic field on the 21-day-old male rat heart. Electromagnetic Biology and Medicine, Volume 34, Issue 4, Pages 390-397, 2015

  2. Vernon ST, Coffey S, Bhindi R, Soo Hoo SY, Nelson GI, Ward MR, Hansen PS, Asrress KN, Chow CK, Celermajer DS, O'Sullivan JF, Figtree GA. Increasing proportion of ST elevation myocardial infarction patients with coronary atherosclerosis poorly explained by standard modifiable risk factors. European Journal of Preventive Cardiology, Volume 24, Issue 17, 2017.

  3. Priyanka Bandara, Steven Weller. Cardiovascular disease: Time to identify emerging environmental risk factors. European Journal of Preventive Cardiology, Vol 24, Issue 17, 2017.

  4. Belpomme D, Campagnac C, Irigaray P. Reliable disease biomarkers characterizing and identifying electrohypersensitivity and multiple chemical sensitivity as two etiopathogenic aspects of a unique pathological disorder. Reviews on Environmental Health, Volume 30: Issue 4, Pages 251-71, 2015.

  5. Kalanjati VP, Purwantari KE, Prasetiowati L. Aluminium foil dampened the adverse effect of 2100 MHz mobile phone-induced radiation on the blood parameters and myocardium in rats. Environmental Science and Pollution Research, Vol 26, Issue 12, Pages 11686-11689, 2019.

  6. Vernon ST, Coffey S, Bhindi R, Soo Hoo SY, Nelson GI, Ward MR, Hansen PS, Asrress KN, Chow CK, Celermajer DS, O'Sullivan JF, Figtree GA. Increasing proportion of ST elevation myocardial infarction patients with coronary atherosclerosis poorly explained by standard modifiable risk factors. . European Journal of Preventive Cardiology, Vol 24, Issue 17, Pages 1824-1830 , 2017.

  7. Ekici B, Tanındı A, Ekici G, Diker E. The effects of the duration of mobile phone use on heart rate variability parameters in healthy subjects. The Anatolian Journal of Cardiology, Volume 16, Issue 11, Pages 833-838, 2016.

  8. Linda Saili, Amel Hanini, Chiraz Smirani, Ines Azzouz, Amina Azzouz, Mohsen Sakly, Hafedh Abdelmelek, Zihad Bouslama. Effects of acute exposure to WIFI signals (2.45 GHz) on heart variability and blood pressure in Albinos rabbit. Environmental Toxicology and Pharmacology, Volume 40, Issue 2, Pages 600-605, 2015.

  9. Pall M. L. Electromagnetic fields act via activation of voltage-gated calcium channels to produce beneficial or adverse effects. Journal of Cellular and Molecular Medicine, Volume 1, Issue ‏ 8, Pages 958-965, 2013

  10. Bortkiewicz A, Gadzicka E, Szymczak W, Zmyślony M. Heart rate variability (HRV) analysis in radio and TV broadcasting stations workers. International Journal of Occupational Medicine and Environmental Health, Volume 25, Issue 4, Pages 446-55, 2012.

  11. Kismali G, Ozgur E, Guler G, Akcay A, Sel T, Seyhan N. The influence of 1800 MHz GSM-like signals on blood chemistry and oxidative stress in non-pregnant and pregnant rabbits. International Journal of Radiation Biology Volume 88, Issue 5, Pages 414-9, 2012

  12. Andrzejak R, Poreba R, Poreba M, Derkacz A, Skalik R, Gac P, Beck B, Steinmetz-Beck A, Pilecki W. The influence of the call with a mobile phone on heart rate variability parameters in healthy volunteers. Industrial Health Volume 46, Issue 4, Pages 409-417, 2008

  13. Bellieni CV, Acampa M, Maffei M, Maffei S, Perrone S, Pinto I, Stacchini N, Buonocore G. Electromagnetic fields produced by incubators influence heart rate variability in newborns. Archives of Disease in Childhood-Fetal and Neonatal Edition, Volume 93, Issue 4, Pages F298-301, 2008

  14. Vangelova K, Deyanov C, Israel M. Cardiovascular risk in operators under radiofrequency electromagnetic radiation. International Journal of Hygiene and Environmental Health Volume 209, Issue 2, Pages 133-138, 2006

  15. Ozguner F, Altinbas A, Ozaydin M, Dogan A, Vural H, Kisioglu AN, Cesur G, Yildirim NG. Mobile phone-induced myocardial oxidative stress: protection by a novel antioxidant agent caffeic acid phenethyl ester. Toxicology and Industrial Health Volume 21, Issue 9, Pages 223-30, 2005

  16. Andrew A. Grace, A.John Camm. Voltage-gated calcium-channels and antiarrhythmic drug action. Cardiovascular Research Volume 45, Issue 1, Pages 43–51, 2000

  17. Braune S, Wrocklage C, Raczek J, Gailus T, Lücking CH. Resting blood pressure increase during exposure to a radio-frequency electromagnetic field. The Lancet Volume 351, Issue 9119, Pages 1857-1858, 1998

  18. Szmigielski S, Bortkiewicz A, Gadzicka E, Zmyslony M, Kubacki R.. Alteration of diurnal rhythms of blood pressure and heart rate to workers exposed to radiofrequency electromagnetic field. Blood Pressure Monitoring Volume 3, Issue 6, Pages 323-30, 1998

  19. Bortkiewicz A, Zmyślony M, Gadzicka E, Pałczyński C, Szmigielski S. Ambulatory ECG monitoring in workers exposed to electromagnetic fields. Journal of Medical Engineering & Technology Volume 21, Issue 2, Pages 41-6, 1997

  20. Gadzicka E, Bortkiewicz A, Zmyślony M, Pałczyński C. Evaluation of selected functional circulation parameters of workers from various occupational groups exposed to electromagnetic fields of high frequency. III. 24-h monitoring of arterial blood pressure (ABP). Medycyna Pracy Volume 48, Issue 1, Pages 15-24, 1997

  21. Bortkiewicz A, Zmyślony M, Gadzicka E, Szymczak W. Evaluation of selected parameters of circulatory system function in various occupational groups exposed to high frequency electromagnetic fields. II. Electrocardiographic changes. Medycyna Pracy Volume 47, Issue 3, Pages 241-52, 1996

  22. Harold J. Cook, Nicholas H. Steneck, Arthur J. Vander, Gordon L. Kane. Early research on the biological effects of microwave radiation: 1940–1960. Annals of Science Volume 37, Issue 3, Pages 323-51, 1980

  23. G.C. de Oliveira, G.A.S. Maia, V.F. Cortes, H.D. Santos, L.M. Moreira, L.A. Barbosa (2013) The effect of gamma-radiation on the hemoglobin of stored red blood cells: the involvement of oxidative stress in hemoglobin conformation. ANNALS OF HEMATOLOGY, vol. 92, pp. 899-906

  24. J.A. Heredia-Rojas, A.O. Rodriguez-De La Fuente, M. del Roble Velazco-Campos, C.H. Leal-Garza, L.E. Rodriguez-Flores, B. de La Fuente-Cortez (2001) Cytological effects of 60 Hz magnetic fields on human lymphocytes in vitro: sister-chromatid exchanges, cell kinetics and mitotic rate. BIOELECTROMAGNETICS, vol. 22, pp. 145-149

  25. P. Hone, D. Lloyd, M. Szluinska, A. Edwards (2006) Chromatid damage in human lymphocytes is not affected by 50 Hz electromagnetic fields. RADIATION PROTECTION DOSIMETRY, vol. 121, pp. 321-324

  26. M. Lantow, M. Lupke, J. Frahm, M.O. Mattsson, N. Kuster, M. Simko (2006) ROS release and Hsp70 expression after exposure to 1,800 MHz radiofrequency electromagnetic fields in primary human monocytes and lymphocytes. RADIATION AND ENVIRONMENTAL BIOPHYSICS, vol. 45, pp. 55-62

  27. M. Mashevich, D. Folkman, A. Kesar, A. Barbul, R. Korenstein, E. Jerby, L. Avivi (2003) Exposure of human peripheral blood lymphocytes to electromagnetic fields associated with cellular phones leads to chromosomal instability. BIOELECTROMAGNETICS, vol. 24, pp. 82-90

  28. R. Mazor, A. Korenstein-Ilan, A. Barbul, Y. Eshet, A. Shahadi, E. Jerby, R. Korenstein (2008) Increased levels of numerical chromosome aberrations after in vitro exposure of human peripheral blood lymphocytes to radiofrequency electromagnetic fields for 72 hours. RADIATION RESEARCH, vol. 169, pp. 28-37