Objectives: To investigate to what degree radiofrequency electromagnetic radiation, induced by a mobile phone placed on the chest, impacts cardiac rhythm. Design: n=1, single blinded pilot study Setting: Academic hospital, Maastricht, the Netherlands Participants: One healthy female 24 years old participant. Interventions: The participant underwent four experimental sessions, spread over four days. A session consisted of four consecutive 15 minute conditions, three with a sham phone and one with a dialling mobile phone. The participant was blind for the condition. During each condition, per-millisecond electrocardiac activity (lead V4) and radiofrequency radiation was recorded jointly. Primary outcome measure: Heart rate. The association with radiation was analysed at two levels, (i) at macrolevel, based on averaged condition effects, and (ii) at microlevel, focusing on radiation peak-related effects within the exposure condition. Results: The macrolevel analysis clearly indicated that heart rate was lowered during the radiation exposure condition. The heart rate during the preceding and subsequent sham phone condition was respectively 1.014 beats/minute (p < 0.001) and 1.009 beats/minute (p < 0.001) higher compared to the radiation exposure condition. In order to conduct radiation-detector controlled microlevel analyses, 142 critical segments were identified, in which a radiation-free period was followed by a radiation peak. The heart rate during the radiation-free period showed a mean increase, whereas the radiation peak period was associated with a mean decrease in heart rate (time*period interaction: p=0.001). Thus, the macrolevel finding was confirmed at microlevel. Conclusions: Mobile phone radiation may impact heart rate, suggesting urgent further study to assess physiological safety parameters.
Effect of 2400 megahertz mobile phone radiation exposure on the behavior and hippocampus morphology in Swiss mouse model
