Radiation literature survey

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This is an animal study that looked into the effect of extremely low frequency (ELF) magnetic fields (MF) on behavioural, hormonal, and metabolic changes in rats. In the study, rats were exposed to a 0.1 mT magnetic field at frequencies of 1 and 5 Hertz (Hz), for a period of up to 21 days. ELF-MF exposure did not alter body weight, or food and water intake. There were different effects observed between the exposure at 1 and 5 Hz on two stress hormones. The exposure at 5 Hz also showed increased activities in dopamine-related behaviour. The authors concluded that the effects of ELF-MF on hormonal and behavioural responses may differ depending on the frequency and time of exposure.

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In animals, the possibility that exposure to ELF fields may affect neurobehavioral function has been explored by a number of different studies and these have been reviewed by the World Health Organization (WHO, 2007). The review by WHO found no consistent effects of ELF fields in stress-related hormones of the pituitary-adrenal axis in mammals, with the possible exception of transient (minutes duration) stress following the onset of ELF electric field exposure at levels significantly above perception thresholds. Furthermore most studies that investigated the effects of ELF fields in hormones involved in controlling metabolic activity found no effect.

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This is an in vitro study that investigated whether ELF magnetic fields resulting from electricity use can affect several cellular functions, such as cell proliferation and apoptosis. Mouse embryonic fibroblasts (MEF) were exposed to 50 Hz ELF magnetic fields at 2 mT for 0.5h, 2h, 6h, 12h, and 24h. The authors found significant increases in some cellular and molecular mechanisms.

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This is a pooled analysis of all the epidemiological studies investigating the association between mobile phone use and brain cancer. The authors report a reduced cancer risk (odds ratio = 0.8).They found that individual study design causes the major difference in published results among the studies. The authors concluded that the results of the pooled analysis support reassuring rather than alarming conclusions on long-term health risks from mobile phone use.

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This animal study investigated the effects of exposure to third generation (3G) mobile phone to the parotid gland of rats. Rats were exposed to a 2100 megahertz (MHz) 3G RF signal, at a specific absorption rate of 0.4 Watts per kilogram, for 6 hours/day, 5 days/week, for 10 or 40 days. The parotid glands were analysed for histopathological and biochemical changes. The two exposure groups showed numerous histopathological changes and more prominent in the 40-day exposed group. The cell size between the exposed group and the control group showed statistically significant difference. The authors concluded that exposure to 2100 MHz RF radiation causes salivary gland damage to some extent and especially with longer exposure duration.

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This in vitro study investigated whether exposure to extremely low frequency magnetic fields (at 1.5 microtesla) affects the cell growth of human epidermal keratinocytes. The authors found that two different types of epidermal keratinocytes responded to ELF magnetic fields differently, after simultaneous exposure, i.e. ELF exposure affected one type of cell but not the other. The authors suggested that the biological effects of ELF magnetic fields in epidermal keratinocytes are cell type specific.

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This animal study looked into any effects in the behaviour of mice due to in utero exposure to 9.417 GHz microwave radiation (type of radiofrequency, RF, radiation) during gestation. In some tests, the mice demonstrated less mobility indicating increased anxiety-related behaviour. Whilst in other tests less immobility was observed which correlates to decreased depression-related behaviour. It was also observed that male offspring showed decreased learning and memory, which was not observed in the female offspring. The authors suggested that microwaves may have gender-dependent effects on behaviour.

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To date there is still no established evidence that microwave radiation exposure during gestational period causes any neurobehavioural issues in animals. Although there are some studies such as this one showing possible effects other studies do not corroborate these findings. In this study the exposure was at a specific absorption rate (SAR) of 2 Watts per kilogram (W/kg), which is at the public exposure limit in the current Australian Standard. The frequency used in this experiment is typically used for satellite communication and radar and is not normally encountered by the public in the everyday environment.

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This animal study investigated the effects of Wi-Fi RF exposure on tooth development in growing rats. In the study rats were exposed to either RF radiation at 2.45 GHz (SAR = 0.009 W/kg) or sham for 2 hours per day during the periods of pregnancy (21 days) and lactation (21 days). The offspring were also exposed for up to 21 days after birth. Examination of the offspring’s teeth found no effect on the development of the teeth and surrounding tissues. However there were alterations in the teeth’s elemental composition especially in iron, copper and zinc suggesting that short-term exposure to Wi-Fi may cause an imbalance in the oxidative stress condition in the teeth of growing rats.

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This in vitro study investigated whether mobile phone RF exposure (at a SAR of 0.023 W/kg) affects the neurons of epileptic rat. The authors found that neurons were affected by epileptic episodes but not exposure to RF radiation.

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This is a pooled analysis of two case-control studies that investigated the risk of malignant brain tumours with the use of mobile and cordless (wireless) phones. A total of 1498 brain tumour cases and 3530 controls were included in the analysis. Overall, it was found that mobile phone use increased the risk of glioma (odds ratio, OR = 1.3, 95% confidence interval, 95% CI, 1.1 – 1.6). The risk increased with longer latency period, especially in the group that used mobile phones for more than 25 years. Use of cordless phones increased the risk to OR = 1.4, 95% CI = 1.1-1.7. The highest risk was for ipsilateral mobile or cordless phone use (used at the same side of the head as the tumour location) at OR = 1.8, 95% CI = 1.4-2.2 and OR = 1.7, 95% CI = 1.3-2.1, respectively. The authors concluded that these results support the hypothesis that RF exposure from wireless phones cause glioma.

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This is a cross-sectional study investigated the association between mobile phone use and inattention in a group of 7,102 adolescent participants. The authors reported an association between self-reported mobile phone use (more than 60 minutes a day) and inattention in adolescents.

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It is unclear from these results if the inattention was due to the radiofrequency radiation exposure or due to being distracted from using the phone.