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EMFs and Pregnancy, Fertility Research

EMFs and Pregnancy Research

Somavedic Science-based Certifications and Studies

Certified to Reduce the Negative Cellular Effects of Mobile Phone Radiation

This test shows that cell regeneration/wound healing of connective tissue fibroblasts and activity of functional neutrophils as the first defense of the innate immune system against invading microbial pathogens are significantly decreased by mobile phone radiation.

The use of the Somavedic Amber was able to attenuate these unwanted effects.

Certified to Protect against Cell Phone Radiation

Based on positive test results of the protective influence of the Somavedic Medic Green Ultra against cell phone radiation, the Bion Institute has awarded the Bion Certificate of approval to the Somavedic Medic Green Ultra.

Certified to Protect against Wireless Router Radiation

Based on positive results of the testing, protective influence of the product Somavedic Medic Green Ultra on human organism against wireless router radiation met all the criteria required to obtain the Bion certificate.

EMFs and Miscarriage Research
  1. Li, DK, et al. A population-based prospective cohort study of personal exposure to magnetic fields during pregnancy and the risk of miscarriage.” Epidemiology, vol. .13, no. 1, 2002, pp. 9-20.
  2. Li, De-Kun, et al., “Exposure to Magnetic Field Non-Ionizing Radiation and the Risk of Miscarriage: A Prospective Cohort Study, Scientific Reports 7, Article number: 17541 (2017)
  3. Mahmoudabadi, F., et al. Use of Mobile Phone During Pregnancy and the Risk of Spontaneous Abortion. Journal of Environmental Health Science and Engineering 13:34. (2015). 
  4. Taktom, Sadeghi, et al.Preterm birth among women living within 600 meters of high voltage overhead Power Lines: a case-control study. Romanian Journal of Internal Medicine, 2017.

EMFs and Problems in Offspring Research
  1. Mother’s Exposure to Electromagnetic Fields Before and During Pregnancy is Associated with Risk of Speech Problems in Offspring. Zarei, S., et al. Journal of Biomedical Physics and Engineering 9(1):61-68. (2019). 
  2. Maternal Occupational Exposure to Extremely Low Frequency Magnetic Fields and the Risk of Brain Cancer in the Offspring. Li, P, et al. Cancer Causes & Control 20(6):945-55. (2009). 
  3. Prenatal and Postnatal Exposure to Cell Phone Use and Behavioral Problems in Children. Divan, HA., et al. Epidemiology 19(4):523-29 (2008). 
  4. Kyung-Hwa Choi, et al. “Neurodevelopment for the first three years following prenatal mobile phone use, radio frequency radiation and lead exposure.” Environmental Research, vol. 156, 2017, pp. 810-817. 
  5. Birks, Laura, et al.Maternal cell phone use during pregnancy and child behavioral problems in five birth cohorts.” Environment International, vol. 104, 2017, pp. 122-31. 
  6. Li, De-Kun, et al.A Prospective Study of In-utero Exposure to Magnetic Fields and the Risk of Childhood Obesity. Scientific Reports, vol. 2, no. 540, 2012. 
  7. Sudan, M., et al. Prenatal and Postnatal Cell Phone Exposures and Headaches in Children. The Open Pediatric Medical Journal, vol. 6, 2012, pp. 46-52.  
  8. Li, De-Kun, Hong Chen and Roxana Odouli.Maternal Exposure to Magnetic Fields During Pregnancy in Relation to the Risk of Asthma in Offspring. Archives of Pediatric and Adolescent Medicine, vol. 165, no. 10, 2011, pp. 945-50.

EMFs and Fetal Development Research
  1. Non-ionizing radiation as possible carcinogen. Gupta, S., et al. International Journal of Environmental Health Research 1-25. (2020). 
  2. Mobile Phone Use During Pregnancy: Which Association With Fetal Growth? Boileau, N., et al. Journal of Gynecology Obstetrics and Human Reproduction 49(8):101852. (2020). 
  3. Prenatal Exposure to Extremely Low Frequency Magnetic Field and Its Impact on Fetal Growth. Ren, Y., et al. Environmental Health 18(1):6. (2019).
  4. Maternal Cell Phone Use During Pregnancy, Pregnancy Duration And Fetal Growth In Four Birth Cohorts. Tsarna, E., et al. American Journal of Epidemiology 188(7):1270-1280. (2019). 
  5. Effect of radiofrequency radiation on reproductive health. Singh, R., et al. Indian Journal of Medical Research 148(Suppl 1): S92–S99. (2018). 
  6. The Effects of Radiofrequency Radiation on Mice Fetus Weight, Length and Tissues. Alimohammadi, I., et al. Data in Brief 19:2189-2194. (2018). 
  7. Effects of Prenatal Exposure to WiFi Signal (2.45 GHz) on Postnatal Development and Behavior in Rat: Influence of Maternal Restraint. Othman, H., et al. Behavioral Brain Research 326:291-301. (2017). 
  8. Postnatal Development and Behavior Effects of In-Utero Exposure of Rats to Radiofrequency Waves Emitted From Conventional WiFi Devices. Othman, H., et al. Environmental Toxicology and Pharmacology 52:239-247 (2017). 
  9. Lasting Hepatotoxic Effects of Prenatal Mobile Phone Exposure. Yilmaz, A., et al. The Journal of Maternal-Fetal & Neonatal Medicine 30(11):1355-1359 (2017). 
  10. Multiple Assessment Methods of Prenatal Exposure to Radio Frequency Radiation from Telecommunication in the Mothers and Children’s Environmental Health (MOCEH) Study. Choi, KH., et al. International Journal of Occupational Medicine and Environmental Health 29(6):959-972 (2016). 
  11. The Use of Signal-Transduction and Metabolic Pathways to Predict Human Disease Targets from Electric and Magnetic Fields Using in vitro Data in Human Cell Lines. Parham, F., et al. Frontiers in Public Health 4(193). (2016). 
  12. A Review on Electromagnetic Fields (EMFs) and the Reproductive System. Asghari, A., et al. Electronic Physician Journal 8(7):2655-2662. (2016). 
  13. Oxidative Mechanisms of Biological Activity of Low-Intensity Radiofrequency Radiation. Yakymenko, I., et al. Electromagnetic Biology and Medicine 35(2):186-202. (2016). 
  14. Genotoxicity Induced by Foetal and Infant Exposure to Magnetic Fields and Modulation of Ionising Radiation Effects. Udroiu, I., et al. PLoS One10(11):E0142259. (2015).
  15. Oxidative Stress of Brain and Liver is Increased by Wi-Fi (2.45 GHz) Exposure of Rats During Pregnancy and the Development of Newborns. Çelik, Ö., et al. Journal of Chemical Neuroanatomy 75(Pt B):134-139. (2015). 
  16. Neurodegenerative Changes and Apoptosis Induced by Intrauterine and Extrauterine Exposure of Radiofrequency Radiation. Güler, G., et al. Journal of Chemical Neuroanatomy 75(Pt B):128-133. (2015). 
  17. Maternal Exposure to a Continuous 900-MHz Electromagnetic Field Provokes Neuronal Loss and Pathological Changes in Cerebellum of 32-Day-Old Female Rat Offspring. Odacı, E., et al. Journal of Chemical Neuroanatomy 75(Pt B):105-110. (2015). 
  18. Different Periods of Intrauterine Exposure to Electromagnetic Field: Influence on Female Rats’ Fertility, Prenatal and Postnatal Development. Alchalabi, A., et al. Asian Pacific Journal of Reproduction 5(1):14-23. (2015). 
  19. Effects of Prenatal 900 MHz Electromagnetic Field Exposures on the Histology of Rat Kidney. Ulubay, M., et al. International Journal of Radiation Biology 91(1):35-41. (2015). 
  20. The Effect of Exposure of Rats During Prenatal Period to Radiation Spreading from Mobile Phones on Renal Development. Bedir, R., et al. Renal Failure 37(2):305-9. (2015). 
  21. Dosimetric Study of Fetal Exposure to Uniform Magnetic Fields at 50 Hz. Liorni, I., et al. Bioelectromagnetics 35(8):580-97 (2014).
  22. Influence of Pregnancy Stage and Fetus Position on the Whole-Body and Local Exposure of the Fetus to RF-EMF. Varsier, N. et al. Physics in Medicine and Biology 59(17):4913-26. (2014). 
  23. Autism-Relevant Social Abnormalities in Mice Exposed Perinatally to Extremely Low Frequency Electromagnetic Fields. Alsaeed, I., et al. International Journal of Developmental Neuroscience 37:58-64. (2014). 
  24. Pyramidal Cell Loss in the Cornu Ammonis of 32-day-old Female Rats Following Exposure to a 900 Megahertz Electromagnetic Field During Prenatal Days 13–21. Bas, O., et al. NeuroQuantology 11(4):591-599. (2013). 
  25. The Effects of 900 Megahertz Electromagnetic Field Applied in the Prenatal Period on Spinal Cord Morphology and Motor Behavior in Female Rat Pups. Odaci, E., et al. NeuroQuantology 11(4):573-581. (2013). 
  26. Fetal Radiofrequency Radiation Exposure From 800-1900 MHz-Rated Cellular Telephones Affects Neurodevelopment and Behavior in Mice. Aldad, T., et al. Science Reports 2:312. (2012).
  27. Cranial and Postcranial Skeletal Variations Induced in Mouse Embryos by Mobile Phone Radiation. Fragopoulou, AF., et al. Pathophysiology 17(3):169-77. (2010). 
  28. Dysbindin Modulates Prefrontal Cortical Glutamatergic Circuits and Working Memory Function in Mice. Jentsch, JD., et al Neuropsychopharmacology 34(12):2601–2608. (2009). 
  29. Stress Signalling Pathways that Impair Prefrontal Cortex Structure and Function. Arnsten, A. National Review of Neuroscience 10(6):410–422. (2009). 
  30. Reproductive and Developmental Effects of EMF in Vertebrate Animal Models. Pourlis, A.F. Pathophysiology 16(2-3):179-89. (2009). 
  31. Effects of Prenatal Exposure to a 900 MHz Electromagnetic Field on the Dentate Gyrus of Rats: A Stereological and Histopathological Study. Odaci, E., et al. Brain Research 1238:224–229. (2008). 
  32. Exposure to Cell Phone Radiation Up-Regulates Apoptosis Genes in Primary Cultures of Neurons and Astrocytes. Zhao, T., et al. Neuroscience Letters 412:34–38. (2007). 
  33. Cell Death Induced by GSM 900-MHz and DCS 1800-MHz Mobile Telephony Radiation. Panagopoulos, DJ., et al. Mutation Research 626(1-2):69–78. (2006). 
  34. Ultra High Frequency-Electromagnetic Field Irradiation During Pregnancy Leads to an Increase in Erythrocytes Micronuclei Incidence in Rat Offspring. Ferreira, A., et al. Life Sciences 80(1):43-50. (2006). 
  35. Attention-Deficit Hyperactivity Disorder. Biederman, J. & Faraone, S. V. Lancet 366(9506):237–248. (2005). 
  36. Attention-Deficit/Hyperactivity Disorder: An Overview of the Etiology and a Review of the Literature Relating to the Correlates and Lifecourse Outcomes for Men and Women. Brassett-Harknett, A. & Butler, N. Clinical Psychology Review 27(2):188–210. (2005). 
  37. Sage, Cindy, and Ernesto Burgio. "Electromagnetic Fields, Pulsed Radiofrequency Radiation, and Epigenetics: How Wireless Technologies May Affect Childhood Development. BioInitiative & Child Development, 2017.
  38. Bahreyni, Toossi, et al. “Exposure to mobile phone (900-1800 MHz) during pregnancy: tissue oxidative stress after childbirth.” Journal of Maternal-Fetal and Neonatal Medicine, 2017, pp. 1-6.
  39. Othman, Haifa, et al. "Effects of prenatal exposure to WiFi signal (2.45 GHz) on postnatal development and behavior in rat: Influence of maternal restraint.” Behavioural Brain Research, vol. 36, 2017, pp. 291-302.
  40. Zehra, Topal, et al. "The effects of prenatal long-duration exposure to 900-MHz electromagnetic field on the 21-day-old newborn male rat liver.” Turkish Journal of Medical Sciences, vol. 45, 2015.
  41. Chen, Chunhai, et al. "Exposure to 1800 MHz radiofrequency radiation impairs neurite outgrowth of embryonic neural stem cells.” Scientific Reports, vol. 4, no. 5103, 2014.
  42. Razavinasab, M., K. Moazzami and M. Shabani M. "Maternal mobile phone exposure alters intrinsic electrophysiological properties of CA1 pyramidal neurons in rat offspring. Toxicology and Industrial Health, vol. 30, no. 2, 2014, pp. 101-96.
  43. Jing, J., et al. "The influence of microwave radiation from cellular phone on fetal rat brain.” Electromagnetic Biology and Medicine, vol. 31, no. 1, 2012, pp. 57-66.
  44. Bas, O., et al. "Chronic prenatal exposure to the 900 megahertz electromagnetic field induces pyramidal cell loss in the hippocampus of newborn rats. Toxicology and Industrial Health, vol. 25, no. 6, 2009, pp. 377–84.
  45. Rezk, Ahmed Y., et al.Fetal and neonatal responses following maternal exposure to mobile phones.” Saudi Medical Journal, vol. 29, no. 2, 2008, pp. 218-23.

EMFs and Male Fertility Research
  1. Long-Term Exposure to 4G Smartphone Radiofrequency Electromagnetic Radiation Diminished Male Reproductive Potential by Directly Disrupting Spck3-MMP2-BTB Axis in the Testes of Adult Rats. Yu, G., et al. Science of The Total Environment 698(133860). (2020). 
  2. Radiations and Male Fertility. Kesari, K., et al. Reproductive Biology and Endocrinology 16(118). (2018). 
  3. The Effect of 2.45 GHz Non-Ionizing Radiation on the Structure and Ultrastructure of The Testis in Juvenile Rats. Simaiova, V., et al. Histology and Histopathology 34(4):18049. (2018). 
  4. Modulatory Effect of 900 MHz Radiation on Biochemical and Reproductive Parameters in Rats. Narayanan, SN., et al. Bratislava Medical Journal 119(9):581-587. (2018). 
  5. Aloe Arborescens Juice Prevents EMF-Induced Oxidative Stress and Thus Protects from Pathophysiology in the Male Reproductive System In Vitro. Solek, P., et al. Environmental Research 166:141-149. (2018). 
  6. Radiofrequency Radiation (900 MHz)-Induced DNA Damage and Cell Cycle Arrest in Testicular Germ Cells in Swiss Albino Mice. Pandey, N., et al. Toxicology and Industrial Health 33(4) 373-384. (2017). 
  7. The Effects of Radiofrequency Electromagnetic Radiation on Sperm Function. Houston, BJ., et al. Reproduction 152(6):R263-R276. (2016). 
  8. Male Fertility and its Association with Occupational and Mobile Phone Tower Hazards: An Analytical Study. Al-Quzwini, O., et al. Middle East Fertility Society Journal 21(4):236-240. (2016). 
  9. Sperm DNA Damage – The Effect of Stress and Everyday Life Factors. Radwan, M., et al. International Journal of Impotence Research 28(4):148-154. (2016).
  10. Electromagnetic Radiation at 900 MHz Induces Sperm Apoptosis through bcl-2, bax and caspase-3 Signaling Pathways in Rats. Liu, Q., et al. Journal of Reproductive Health 12:65. (2015). 
  11. Habits of Cell Phone usage and Sperm Quality - Does It Warrant Attention? Zilberlicht, A., et al. Reproductive BioMedicine Online 31(3):421-426. (2015). 
  12. In Vitro Effect of Cell Phone Radiation on Motility, DNA Fragmentation and Clusterin Gene Expression in Human Sperm. Zalata, A., et al. International Journal of Fertility and Sterility 9(1):129-136. (2015). 
  13. Extremely Low frequency Magnetic Fields Induce Spermatogenic Germ Cell Apoptosis: Possible Mechanism. Lee, S., et al. BioMed Research International 2014(567183). (2014). 
  14. Effect of mobile telephones on sperm quality: A systematic review and meta-analysis. Adams, J., et al. Environment International 70:106-112. (2014). 
  15. Effect of Electromagnetic Field Exposure on the Reproductive System. Gye, M., et al. Journal of Clinical and Experimental Reproductive Medicine 39(1):1-19. (2012). 
  16. Effects of the Exposure of Mobile Phones on Male Reproduction: A Review of the Literature. La Vignera, S., et al. Journal of Andrology 33(3):350-356. (2012).
  17. Use of Laptop Computers Connected to Internet Through Wi-Fi Decreases Human Sperm Motility and Increases Sperm DNA Fragmentation. Avendano, C., et al. Fertility and Sterility 97(1):39-45. (2012). 
  18. Exposure to Magnetic fields and the Risk of Poor Sperm Quality. Li, D.K, et al. Journal of Reproductive Toxicology 29(1):86-92. (2010). 
  19. Mobile Phone Radiation Induces Reactive Oxygen Species Production and DNA Damage in Human Spermatozoa In Vitro. De Luliis, G., et al. PLoS ONE 4(7). (2009).    
  20. Radio Frequency Electromagnetic Radiation (Rf-EMR) from GSM Mobile Phones Induces Oxidative Stress and Reduces Sperm Motility in Rats. Mailankot, M., et al. Clinics (San Paulo) 64(6):561-5. (2009). 
  21. Cell Phones: Modern Man’s Nemesis? Makker, K., et al. Reproductive BioMedicine Online 18(1):148-157. (2009). 
  22. Indicative SAR Levels Due to an Active Mobile Phone in a Front Trouser Pocket in Proximity to Common Metallic Objects. Whittow, WG., et al. IEEE Xplore 149-152 (2008). 
  23. Effect of Cell Phone Usage on Semen Analysis in Men Attending Infertility Clinic: An Observational Study. Agarwal, A., et al. Fertility and Sterility 89(1):124-128. (2008). 
  24. Cell Phones and Male Infertility: Dissecting the Relationship. Deepinder, F., et al. Reproductive BioMedicine Online 15(3):266-270. (2007). 
  25. Evaluation of the Effect of Using Mobile Phones on Male Fertility. Wdowiak, A., et al. Annals of Agricultural and Medicine 14(1):169-172. (2007).

Additional Resources

The Baby Safe Project



Environmental Health Trust

Physicians for Safe Technology