Abstract
The phenomenon of adaptive response (AR) in animal and human cells exposed to ionizing radiation is well documented in scientific literature. We have examined whether such AR could be induced in mice exposed to non-ionizing radiofrequency fields (RF) used for wireless communications. Mice were pre-exposed to 900 MHz RF at 120 µW/cm2 power density for 4 hours/day for 1, 3, 5, 7 and 14 days and then subjected to an acute dose of 3 Gy γ-radiation. The primary DNA damage in the form of alkali labile base damage and single strand breaks in the DNA of peripheral blood leukocytes was determined using the alkaline comet assay. The results indicated that the extent of damage in mice which were pre-exposed to RF for 1 day and then subjected to γ-radiation was similar and not significantly different from those exposed to γ-radiation alone. However, mice which were pre-exposed to RF for 3, 5, 7 and 14 days showed progressively decreased damage and was significantly different from those exposed to γ-radiation alone. Thus, the data indicated that RF pre-exposure is capable of inducing AR and suggested that the pre-exposure for more than 4 hours for 1 day is necessary to elicit such AR.
Highlights
Induction of adaptive response (AR) in mammalian cells exposed to ionizing radiation (IR) is well documented in scientific literature
The results indicated that the animals which were exposed to AD+CD showed significantly reduced hematopoietic tissue damage assessed from colony forming cells in the bone marrow and spleen and, increased survival as compared to those exposed to CD alone
We have evaluated the extent of primary DNA damage in the form of alkali base damage and single strand breaks in the DNA in peripheral blood leukocyte in mice pre-exposed to 900 MHz radiofrequency fields (RF) at 120 mW/cm2 power density for 4 hours/day for 1, 3, 5, 7 and 14 days (AD) and subjected to 3 Gy c-radiation (CD)
Summary
Induction of adaptive response (AR) in mammalian cells exposed to ionizing radiation (IR) is well documented in scientific literature. Mice were pre-exposed to 900 MHz RF at 12, 120 and 1200 mW/cm power density (548 mW/kg specific absorption rate) for 1 hour/day for 14 days (AD) and subjected to a high dose of c-radiation (CD). We have evaluated the extent of primary DNA damage in the form of alkali base damage and single strand breaks in the DNA in peripheral blood leukocyte in mice pre-exposed to 900 MHz RF at 120 mW/cm power density for 4 hours/day for 1, 3, 5, 7 and 14 days (AD) and subjected to 3 Gy c-radiation (CD). A significant reduction in damage was observed in mice exposed to AD+CD as compared to those subjected CD alone suggesting that RF pre-exposure was capable of inducing AR and more than 4 hours for 1 day exposure is necessary to elicit such response
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