この研究は、パルス波(パルス幅 2マイクロ秒、500 pps)または連続波の2,450MHzのマイクロ波ばく露を受けたラットの線条体、前頭皮質、海馬および視床下部において、ナトリウム依存性の高親和性コリン取り込みを測定した2つの先行研究(Guyら:Journal of Microwave Power 14:327-338、1979、Guyら、Radio Science 14:63-74、1979)を合わせて、放射パラメータについて検討している。前者は円筒導波管、後者は小型無反響チャンバとばく露方法が異なるが、2つの先行研究の全てのばく露条件において、全身平均SARは0.6W / kgであった。この条件の全てマイクロ波ばく露後に、前頭皮質でのコリン取り込み低下が観察された;使用されたばく露システムに依らず、ばく露後の海馬でのコリン取り込み低下はパルス波で観察され、連続波では観察されなかった;線条体でのコリン取り込み低下は、小型無反響チャンバでのパルスまたは連続波のどちらのばく露後にも観察された;調査したばく露条件のいずれにおいても、視床下部でのコリン取り込みの有意な変化は観察されなかった、などを総合的に考察している。
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To measure sodium-dependent high-affinity choline uptake in the brain of rats after acute exposure to pulsed or continuous wave (CW) 2450 MHz microwaves. In addition the effects of microwave exposure in two exposure systems (the cylindrical waveguide and the miniature anechoic chamber) are compared.
Rats were exposed to pulsed or CW microwaves in either a cylindrical waveguide system or a miniature anechoic chamber.
| 周波数 | 2,450 MHz |
|---|---|
| タイプ |
|
| 特性 |
|
| 偏波 |
|
| ばく露時間 | continuous for 45 min |
| Modulation type | pulsed, CW |
|---|---|
| Pulse width | 2 µs |
| Repetition frequency | 500 Hz |
| Additional information |
pulsed or CW |
| ばく露の発生源/構造 |
|
|---|---|
| チャンバの詳細 | The cylindrical waveguide system [Guy et al., 1979] consisted of four individual exposure tubes consisting of a section of circular waveguide made of galvanized wire screen. The circularly polarised field in TE11 mode propagated perpendicular to the longitudinal axis of the rat housed in a plastic chamber with a floor of glass rods. |
| Sham exposure | A sham exposure was conducted. |
| 周波数 | 2,450 MHz |
|---|---|
| タイプ |
|
| 偏波 |
|
| ばく露時間 | continuous for 45 min |
| Modulation type | pulsed, CW |
|---|---|
| Pulse width | 2 µs |
| Repetition frequency | 500 Hz |
| Additional information |
pulsed or CW |
| ばく露の発生源/構造 | |
|---|---|
| チャンバの詳細 | The miniature anechoic chamber [Guy, 1979] was made of thick stock hardboard panels lined inside with RF absorbing materials. A standard-gain horn antenna mounted at the tapered roof of the chamber provided plane-polarised irradiation. A plastic animal cage was placed on a Styrofoam platform such that its long axis was parallel to the electric field. |
| Sham exposure | A sham exposure was conducted. |
1) The effects on frontal cortical choline uptake are independent of the irradiation system or use of pulsed or continuous wave (CW) microwaves. Decrease in choline uptake was observed in the frontal cortex after microwave irradiation in all of the above exposure conditions. 2) The hippocampal choline uptake decreased after pulsed but not after continuous wave (CW) microwave exposure. 3) The effects on striatal choline uptake depend on the exposure system used. Choline uptake was decreased after irradiation to either pulsed or continuous wave (CW) microwaves in the miniature anechoic chamber. 4) The irradiation to microwaves under the present conditions had no effect on hypothalamic choline uptake.
The results suggest that the biological effects of microwaves can depend on the parameter of the irradiation.
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