研究のタイプ: 医学/生物学の研究 (experimental study)

[携帯電話のばく露の歪み聴覚異物の発生メカニズムに対する影響] med./bio.

Influence on the mechanisms of generation of distortion product otoacoustic emissions of mobile phone exposure

著者: Parazzini M, Bell S, Thuroczy G, Molnar F, Tognola G, Lutman ME, Ravazzani P
掲載誌: Hear Res 2005; 208 (1-2): 68-78
RISフォーマットで参考文献をダウンロード

この研究は、15人の被験者の外有毛細胞機能を、制御された電磁界EMFばく露の前後に実施した歪成分耳音響放射(DPOAE)記録によって評価した。DPOAE記録の感度を高めて聴覚機能のわずかな変化を特定するために、逆高速フーリエ変換(IFFT)分析および時間領域ウィンドウ処理を適用して、DPOAEの生成メカニズムが異なる2つ信号、すなわち、蝸牛基底板全体(1次発生源)および基底板の特定の部位(2次発生源)からの信号を分離した。その結果、最大出力(900 MHzで2 Wまたは1800 MHzで1 W)での10分間のEMFばく露は、いずれのDPOAE生成メカニズムにも変化を引き起こさないことが示された、と報告している。

The detailed summary of this article is not available in your language or incomplete. Would you like to see a complete translation of the summary? Then please contact us →

研究目的(著者による)

To study the effects of mobile phone exposure on distortion product otoacoustic emissions generation mechanisms.

影響評価項目

ばく露

ばく露 パラメータ
ばく露1: 900 MHz
Modulation type: pulsed
ばく露時間: continuous for 10 min
ばく露2: 1,800 MHz
Modulation type: pulsed
ばく露時間: continuous for 10 min

General information

There were two sessions on separate days (at least 24 h apart) with a genuine (test) exposure and with a sham (control) exposure in a double-blind counterbalanced design. Half of the participants received GSM exposure at 900 MHz and the other half received GSM exposure at 1800 MHz.

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 10 min
Modulation
Modulation type pulsed
ばく露装置
ばく露の発生源/構造
  • セルラ-電話
  • at full power
ばく露装置の詳細 A system of phone fixation, made of non-metallic plastic materials and consisting of a headband, an adjustable arm and a phone holder that allowed free head movement, was used for placing the phone in the normal use position, in accordance with CENELEC standard EN 50361.
Sham exposure A sham exposure was conducted.
Additional information The sham or genuine exposure was realised using a 50-Ω resistive load or an open-circuit dummy load of the same shape and structure connected to the remote antenna connector of the phone.
パラメータ
測定量 種別 Method Mass 備考
電力 2 W - - - -
SAR 0.41 W/kg maximum 測定値 - -
Additional parameter details

The indicated maximum SAR was measured at a distance of 30 mm from the surface of the phantom. In normal phone use, this position corresponds approximately to that of the cochlea.

測定および計算の詳細

In order to estimate the level of EMF exposure in the inner ear region, SAR measurements were made in standard brain tissue equivalent liquid in a phantom using a 3-D step motor robot system, internal E-field probe and a non-metallic phone-positioning system with the phone being held on the phantom in the ''touch position'', according to CENELEC standard EN 50361. The output of the phone had previously been measured using a frequency and power meter and circulators through the external antenna output of the phone.

ばく露2

主たる特性
周波数 1,800 MHz
タイプ
  • electromagnetic field
ばく露時間 continuous for 10 min
Modulation
Modulation type pulsed
ばく露装置
ばく露の発生源/構造
  • E1と同じ装置
パラメータ
測定量 種別 Method Mass 備考
電力 1 W - - - -
SAR 0.19 W/kg maximum 測定値 - -
Additional parameter details

same as E1

ばく露を受けた生物:

方法 影響評価項目/測定パラメータ/方法

研究対象とした生物試料:
研究対象とした臓器系:
  • 感覚器
  • ear
調査の時期:
  • ばく露前
  • ばく露後

研究の主なアウトカム(著者による)

The data showed that 10 min of electromagnetic field exposure at the maximum power (2 W at 900 MHz or 1 W at 1800 MHz) does not induce any changes in either distortion product otoacoustic emissions generation mechanism.

研究の種別:

研究助成

関連論文