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Patterns of cellular phone use among young people in 12 countries: Implications for RF exposure
Langer, Chelsea E.,de Llobet, Patricia,Dalmau, Albert,Wiart, Joe,Goedhart, Geertje,Hours, Martine,Benke, Geza P.,Bouka, Evdoxia,Bruchim, Revital,Choi, Kyung-Hwa,Eng, Amanda,Ha, Mina,Karalexi, Maria,Ki Elsevier 2017 Environment international Vol.107 No.-
<P><B>Abstract</B></P> <P>Characterizing exposure to radiofrequency (RF) fields from wireless telecommunications technologies during childhood and adolescence is a research priority in investigating the health effects of RF. The Mobi-Expo study aimed to describe characteristics and determinants of cellular phone use in 534 young people (10–24years) in 12 countries. The study used a specifically designed software application installed on smartphones to collect data on the use of wireless telecommunications devices within this age group. The role of gender, age, maternal education, calendar period, and country was evaluated through multivariate models mutually adjusting for all variables. Call number and duration were higher among females compared to males (geometric mean (GM) ratio 1.17 and 1.42, respectively), among 20–24year olds compared to 10–14year olds (GM ratio 2.09 and 4.40, respectively), and among lowest compared to highest social classes (GM ratio 1.52 and 1.58, respectively). The number of SMS was higher in females (GM ratio 1.46) and the middle age group (15–19year olds: GM ratio 2.21 compared to 10–14year olds) and decreased over time. Data use was highest in the oldest age group, whereas Wi-Fi use was highest in the middle age group. Both data and Wi-Fi use increased over time. Large differences in the number and duration of calls, SMS, and data/Wi-Fi use were seen by country, with country and age accounting for up to 50% of the variance. Hands-free and laterality of use did not show significant differences by sex, age, education, study period, or country. Although limited by a convenience sample, these results provide valuable insights to the design, analysis, and interpretation of future epidemiological studies concerning the health effects of exposure resulting from cellular phone use in young people. In addition, the information provided by this research may be used to design strategies to minimize RF exposure.</P> <P><B>Highlights</B></P> <P> <UL> <LI> Number and duration of calls varied by sex, age range, and socioeconomic status </LI> <LI> Laterality and hands-free use were less influenced by user characteristics </LI> <LI> Country of origin explained most of the variance in number and duration of calls, as well as SMS and data/Wi-Fi </LI> </UL> </P>
Beard, B.B.,Kainz, W.,Onishi, T.,Iyama, T.,Watanabe, S.,Fujiwara, O.,Wang, Jianqing,Bit-Babik, G.,Faraone, A.,Wiart, J.,Christ, A.,Kuster, N.,Lee, Ae-Kyoung,Kroeze, H.,Siegbahn, M.,Keshvari, J.,Abrish [Institute of Electrical and Electronics Engineers 2006 IEEE transactions on electromagnetic compatibility Vol.48 No.2
The specific absorption rates (SAR) determined computationally in the specific anthropomorphic mannequin (SAM) and anatomically correct models of the human head when exposed to a mobile phone model are compared as part of a study organized by IEEE Standards Coordinating Committee 34, Sub-Committee 2, and Working Group 2, and carried out by an international task force comprising 14 government, academic, and industrial research institutions. The detailed study protocol defined the computational head and mobile phone models. The participants used different finite-difference time-domain software and independently positioned the mobile phone and head models in accordance with the protocol. The results show that when the pinna SAR is calculated separately from the head SAR, SAM produced a higher SAR in the head than the anatomically correct head models. Also the larger (adult) head produced a statistically significant higher peak SAR for both the 1- and 10-g averages than did the smaller (child) head for all conditions of frequency and position.