医学／生物学の研究 (experimental study)

[軟体動物の単一ニューロンに対する900 MHz携帯電話放射ばく露の急性影響] med./bio.

Acute effect of exposure of mollusk single neuron to 900-MHz mobile phone radiation

著者: Partsvania B, Sulaberidze T, Shoshiashvili L, Modebadze Z

掲載誌: Electromagn Biol Med 2011; 30 (3): 170-179

【目的】単一ニューロンの興奮性と記憶プロセスに対する市販の携帯電話の電磁界放射の影響を調べること。【方法】TEMセルを用いて軟体動物の単一ニューロンに電磁界ばく露を与えた。FDTD法を用いてTEMセルおよび電磁界の生きた神経節・ニューロンとの相互作用をモデル化した。標準的微小電極法によりニューロンの電気生理学的測定を行った。単一ニューロンへのエネルギーの比吸収率（SAR）は0.63 W/kgと計算され、0.18℃の温度上昇があった。結果　：急性ばく露後、活動電位の発火閾値の平均に変化はなかった。潜時の平均は有意に減少した。このことは、ばく露中に潜時と共に閾値と慣れの時間も変化することを意味する。しかし、これらの変化は一過性に終わり、潜時のみがレベル変化を存続させている。

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研究目的（著者による）

To study the influence of cell phone irradiation on the single neuron excitability and memory processes (learning ability).

詳細情報

The authors consider neuron habituation to stimulation as a form of learning. Habituation is expressed as disappearance of stimulus-induced action potential.
The amplitude of the stimulant intracellular current impulses was chosen to be slightly higher than the threshold value that depolarizes the neuron, because each stimulation should cause only one action potential. With such a kind of stimulation, the neuron accumulates "information" and "makes decision" to interrupt firing.
35 sham exposed and 31 exposed neurons were studied. The giant neuron 3 of the left parietal ganglion was selected for investigations.

影響評価項目

神経系への影響: neuronal electrophysiology (neuron memory process and excitability)

ばく露

- 900 MHz
- 移動体通信システム
- 携帯電話

ばく露	パラメータ
ばく露1: 900 MHz ばく露時間: continuous for 60 min	電力: 2 W maximum (mobile phone's output power) 電力: 1.97 W maximum (in the TEM cell) SAR: 0.63 W/kg (in a single neuron)

ばく露1

主たる特性

周波数	900 MHz
タイプ	electromagnetic field
ばく露時間	continuous for 60 min

ばく露装置

ばく露の発生源／構造	セルラ－電話 TEMセル
ばく露装置の詳細	ganglions placed in 1 cm³ foam-plastic dishes in the center of the TEM cell's septum; TEM cell consisting of pieces ot rectangular coaxial transmission line tapered at the end and a long, flat plate as inner conductor (septum); antenna of the mobile phone disconnected and the phone connected to the TEM cell; test card inserted into the mobile phone to guarantee constant output power
Sham exposure	A sham exposure was conducted.

パラメータ

測定量	値	種別	Method	Mass	備考
電力	2 W	maximum	-	-	mobile phone's output power
電力	1.97 W	maximum	-	-	in the TEM cell
SAR	0.63 W/kg	-	計算値	-	in a single neuron

Reference articles

Popovic M et al. (1998): [培養皿で液状生体媒質で満たしたの完全横断電磁細胞の有限差分時間領域分析]

ばく露を受けた生物:

単離された臓器
nervous system (ganglia) of the snail Helix pomatia

方法影響評価項目／測定パラメータ／方法

神経系への影響: neuronal electrophysiology (neuron memory process and excitability: time of habituation (length of time between the first and last action potential), latent period (time interval between stimulation and the instant of action potential triggering), threshold of action potential; stimulation and recording via two glass microelectrodes)

研究対象とした生物試料:

単離された臓器
ganglia

調査の時期:

ばく露後

研究の主なアウトカム（著者による）

The data revealed that the dynamics of habituation of sham exposed and exposed neurons to intracellular stimulation were similar. This means that exposed neurons habituated to the intracellular stimulation as sham exposed neurons. Statistical analysis showed that the only parameter that changed after acute exposure was the latent period.

研究の種別:

医学／生物学の研究
experimental study
full/main study

研究助成

Shota Rustaveli National Science Foundation (SRNSF), Georgia