Title of article
Does exposure to radiation emitted from mobile jammers influence the spatial memory?
Author/Authors
Shahi, A Lab Sciences Student - School of Medicine - Fasa University of Medical Sciences, Fasa, Iran , Shahnazar, F Medical Student - School of Medicine - Fasa University of Medical Sciences, Fasa, Iran , Nematolahi, S Biostatics Department - School of Medicine - Shiraz University of Medical Sciences, Shiraz, Iran , Dehghan, A Non Communicable Diseases Research Center - School of Medicine - Fasa University of Medical Sciences, Fasa, Iran , Shojaeifard, M.B Physiology Department - Fasa University of Medical Sciences, Fasa, Iran - Ionizing and non-ionizing radiation protection research center - Shiraz University of Medical Sciences, Shiraz, Iran
Pages
8
From page
993
To page
1000
Abstract
Background: The central nervous system is sensitive to radiation exposure as environmental pollution. This project aimed to evaluate the influence of jammer exposure radiation on spatial learning and memory. Materials and Methods: 50 adult male Sprague-Dawley rats were divided into five groups.
The experimental groups were exposed to jammer radiation for 2h/day once
or 2h/day for two weeks. Sham groups were similar to the experimental
groups which were exposed to switch-off. The distance from the jammer
router to the animals’ cages was 30 cm. In the second phase, using Morris
Water Maze, the effect of jammer exposure radiation on spatial learning and
memory was studied. Results: Data showed that radiation exposure once a
day for 2h caused a significant increase in the learning procedure in the
experimental group1, but we observed an increase in the parameters of
distance and escape latency in finding the platform for two weeks' exposure
in the experimental group 2. Conclusion: Results indicated that probably the
motivation of escape and use of the different cues led to learning in the
animals, while disrupting mobile performance through jammer router from
animal environment caused a better brain performance in the spatial learning
and memory in short term jammer radiation-treated animals group. However,
with the same test conditions, in long term jammer the radiation-treated
animals’ motivation reduced, which affected the responses and performance
and reduced the learning. Moreover, environmental conflicts such as radiofrequency waves lead to behavioral alternations.
Keywords
Jammer router , Morris Water Maze , spatial learning , memory
Journal title
International Journal of Radiation Research
Serial Year
2021
Record number
2721783
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