この研究は、非熱的な低レベル、高周波、低周波パルス化磁界(搬送周波150MHz、磁束密度70〜3400 nT、パルス周波数8.3および217Hz)のばく露を受けたカタツムリ神経細胞の静止電位を調べた。著者らは、空洞共振器の磁界中で、生体電気パラメータを測定する方法を開発したと述べている。結果として、このようなばく露において、非熱的影響は確認されなかった、と報告している。
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To investigate the resting potential of snail nerve cells subjected to non-thermic effects of weak, high-frequency, low pulsed frequency magnetic fields. A method was developed in order to determine the bioelectric parameters in the magnetic field of a cavity resonator.
The treatment was performed 43 times, each time having a duration of 10, 20, or 30 min.
| 周波数 | 150 MHz |
|---|---|
| タイプ |
|
| ばく露時間 | continuous for 10 or 20 min |
| Modulation type | pulsed |
|---|---|
| Pulse width | 80 µs |
| Repetition frequency | 8.3 Hz |
| Additional information |
off-pulses |
| ばく露の発生源/構造 | |
|---|---|
| チャンバの詳細 | The electric field strength at the exposure site was always zero. The object was aligned such that the RF field and the geomagnetic field would flow through the nerve cells in the same direction. |
| ばく露装置の詳細 | The ganglion was fixed in the Ringer solution by cactus thorns instead of metal pins. |
| 測定量 | 値 | 種別 | Method | Mass | 備考 |
|---|---|---|---|---|---|
| 磁束密度 | 70 nT | - | 測定値 | - | - |
No significant differences between the average value of the resting potentials in the run up and run down occur either as a result of various intensities and modulations or from the duration of the treatment. The flux densities used were not strong enough to produce a measurable influence on the resting potential.
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