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

[細胞周期および姉妹染色分体交換頻度に対する無線周波電磁界の影響:培養ヒトリンパ球の分析] med./bio.

[The influence of radiofrequency electromagnetic fields on the cell cycle and the frequency of sister chromatid exchanges: analyses of human lymphocytes in culture]

著者: Antonopoulos A, Obe G, Brinkmann K, Eisenbrandt H, Grigat JP, Elsner R, Storbeck W, Dehmel G
掲載誌: Edition Wissenschaft 1998; 14: 3-13
Journal not peer-reviewed
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この論文は、社団法人die Forschungsgemeinschaft Funk (1992年から活動している研究資金提供団体)へのドイツ語の研究報告書である。研究課題は、高周波電界ばく露を受けた培養ヒトリンパ球細胞周期の速度とSCE(姉妹染色分体交換)の頻度を調べることであった。ばく露には、ドイツの携帯電話のDおよびEシステム、および公安当局のBOSシステムに採用されている高周波電磁界をシミュレートでき、細胞実験が可能な専用のばく露システムを開発した。結果として、細胞周期およびSCEに電磁界ばく露の影響は見られなかったと報告している。

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研究目的(著者による)

To investigate the velocity of cell cycle and the frequency of sister-chromatid exchange in cultured lymphocytes exposed to high frequency electromagnetic fields.

影響評価項目

ばく露

ばく露 パラメータ
ばく露1: 1,800 MHz
Modulation type: pulsed
ばく露時間: continuous for 48, 52, 56, 64, and 68 h
  • SAR: 1,700 mW/kg mean
ばく露2: 900 MHz
Modulation type: pulsed
ばく露時間: continuous for 48, 52, 56, 64, and 68 h
  • SAR: 208 mW/kg mean
ばく露3: 380 MHz
Modulation type: pulsed
ばく露時間: continuous for 48, 52, 56, 64, and 68 h

ばく露1

主たる特性
周波数 1,800 MHz
タイプ
  • electromagnetic field
特性
  • guided field
ばく露時間 continuous for 48, 52, 56, 64, and 68 h
Modulation
Modulation type pulsed
Duty cycle 11.76 %
Repetition frequency 217 Hz
Additional information

German E-Network
ばく露装置
ばく露の発生源/構造
  • 導波管
  • 79 x 158 x 1300 mm³, signal generator
ばく露装置の詳細 Fitted into the removable waveguide wall was a rectangular sample holder that could hold 6 sample tubes of 17 mm diameter filled with 5 ml of medium which were circulated by temperature-controlled white oil and thus maintained at a constant temperature of 37 °C ± 0.1 °C.
Sham exposure A sham exposure was conducted.
Additional information A second identical sample holder for control tubes was placed into an RF-proof container.
パラメータ
測定量 種別 Method Mass 備考
SAR 1,700 mW/kg mean 計算値 - -
測定および計算の詳細

The power fed into the waveguide was measured using a short monopole and a detector diode and was monitored by a computer throughout the experiment as well as the data supplied by two temperature sensors. SAR values averaged over the test tubes were determined by numerical simulations using FDTD. More detailed information can be found in the second article of the publication [Hansen et al., 1998].

ばく露2

主たる特性
周波数 900 MHz
タイプ
  • electromagnetic field
特性
  • guided field
ばく露時間 continuous for 48, 52, 56, 64, and 68 h
Modulation
Modulation type pulsed
Duty cycle 12 %
Repetition frequency 217 Hz
Additional information

German D-Network
ばく露装置
ばく露の発生源/構造
  • 導波管
  • 129,5 x 259 x 1300 mm³, signal generator
Sham exposure A sham exposure was conducted.
パラメータ
測定量 種別 Method Mass 備考
SAR 208 mW/kg mean 計算値 - -

ばく露3

主たる特性
周波数 380 MHz
タイプ
  • electromagnetic field
特性
  • guided field
ばく露時間 continuous for 48, 52, 56, 64, and 68 h
Modulation
Modulation type pulsed
Pulse width 13.11 ms
Duty cycle 23.15 %
Repetition frequency 17.65 Hz
Additional information

German digital police radio
ばく露装置
ばく露の発生源/構造
  • TEMセル
  • 600 x 600 x 600 mm³, signal generator
ばく露装置の詳細 A round sample holder was placed on the bottom of the TEM cell.
Sham exposure A sham exposure was conducted.
パラメータ
測定量 種別 Method Mass 備考
電力 90 W peak 測定値 - -
SAR 82.9 mW/kg mean 計算値 - -

Reference articles

  • Hansen V et al. (1998): [細胞周期および姉妹染色分体交換に対する高周波電磁界の影響:培地でのヒトリンパ球を用いた分析]

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:
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 velocity of cell cycle and the frequency of sister-chromatid exchange were not affected.

研究の種別:

研究助成