Maternal mobile phone exposure adversely affects the electrophysiological properties of Purkinje neurons in rat offspring
Neuroscience, 2013•Elsevier
Electromagnetic field (EMF) radiations emitted from mobile phones may cause structural
damage to neurons. With the increased usage of mobile phones worldwide, concerns about
their possible effects on the nervous system are rising. In the present study, we aimed to
elucidate the possible effects of prenatal EMF exposure on the cerebellum of offspring
Wistar rats. Rats in the EMF group were exposed to 900-MHz pulse-EMF irradiation for 6 h
per day during all gestation period. Ten offspring per each group were evaluated for …
damage to neurons. With the increased usage of mobile phones worldwide, concerns about
their possible effects on the nervous system are rising. In the present study, we aimed to
elucidate the possible effects of prenatal EMF exposure on the cerebellum of offspring
Wistar rats. Rats in the EMF group were exposed to 900-MHz pulse-EMF irradiation for 6 h
per day during all gestation period. Ten offspring per each group were evaluated for …
Abstract
Electromagnetic field (EMF) radiations emitted from mobile phones may cause structural damage to neurons. With the increased usage of mobile phones worldwide, concerns about their possible effects on the nervous system are rising. In the present study, we aimed to elucidate the possible effects of prenatal EMF exposure on the cerebellum of offspring Wistar rats. Rats in the EMF group were exposed to 900-MHz pulse-EMF irradiation for 6 h per day during all gestation period. Ten offspring per each group were evaluated for behavioral and electrophysiological evaluations. Cerebellum-related behavioral dysfunctions were analyzed using motor learning and cerebellum-dependent functional tasks (Accelerated Rotarod, Hanging and Open field tests). Whole-cell patch clamp recordings were used for electrophysiological evaluations. The results of the present study failed to show any behavioral abnormalities in rats exposed to chronic EMF radiation. However, whole-cell patch clamp recordings revealed decreased neuronal excitability of Purkinje cells in rats exposed to EMF. The most prominent changes included afterhyperpolarization amplitude, spike frequency, half width and first spike latency. In conclusion, the results of the present study show that prenatal EMF exposure results in altered electrophysiological properties of Purkinje neurons. However, these changes may not be severe enough to alter the cerebellum-dependent functional tasks.
Elsevier
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