Abstract
Although mobile phone (MP) use has been steadily increasing in the last decades and similar positive trends are expected for the near future, systematic investigations on neurophysiological and cognitive effects caused by recently developed technological standards for MPs are scarcely available. Here, we investigated the effects of radiofrequency (RF) fields emitted by new-generation mobile technologies, specifically, Universal Mobile Telecommunications System (UMTS) and Long-Term Evolution (LTE), on intrinsic scalp EEG activity in the alpha band (8–12 Hz) and cognitive performance in the Stroop test. The study involved 60 healthy, young-adult university students (34 for UMTS and 26 for LTE) with double-blind administration of Real and Sham exposure in separate sessions. EEG was recorded before, during and after RF exposure, and Stroop performance was assessed before and after EEG recording. Both RF exposure types caused a notable decrease in the alpha power over the whole scalp that persisted even after the cessation of the exposure, whereas no effects were found on any aspects of performance in the Stroop test. The results imply that the brain networks underlying global alpha oscillations might require minor reconfiguration to adapt to the local biophysical changes caused by focal RF exposure mimicking MP use.
Highlights
The worldwide use of mobile phones (MPs) is still rapidly growing
In an attempt to contribute to the systematic investigation of RF exposure effects, we studied the neurophysiological and cognitive effects of Universal Mobile Telecommunication System (UMTS) and Long-Term Evolution (LTE) technologies within the same experimental framework
Participants got faster with practice, resulting in reaction time (RT) being lower during post-exposure than pre-exposure testing
Summary
The worldwide use of mobile phones (MPs) is still rapidly growing. By 2020, almost three-quarters of the world’s population—or 5.7 billion people—will subscribe to mobile services[1]. Previous papers focused mainly on health effects of exposure to RF emitted by the classic second-generation (2G) MPs using the Global System of Mobile (GSM) technology[7,8]. Only a few studies examined the possible effects of 3G mobile radiation on cognition[9,10,11,12,13,14,15], whereas for the LTE system used by 4G MPs, no indices of human cognitive performance have been investigated far. Based on a systematic review study, GSM-like low-intensity EMF exposure does not seem to cause any measurable cognitive and/or psychomotor effects measured in simple reaction tasks[27]. Both IF and FAC appear only in the colour-naming (CN) task condition and not in the word-naming (WN) task condition[37]
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