微波引起的神经细胞变化:调制和温度的影响。
Microwave-induced changes in nerve cells: effects of modulation and temperature.
作者信息
Arber S L, Lin J C
出版信息
Bioelectromagnetics. 1985;6(3):257-70. doi: 10.1002/bem.2250060306.
Helix aspersa neurons were irradiated with continuous-wave (CW) and noise-amplitude-modulated microwaves (carrier frequency 2450 MHz, 20% AM, 2 Hz-20 kHz) in a specially designed waveguide exposure system. Continuous-wave microwave irradiations were conducted at 8 degrees, 21 degrees, and 28 degrees C, while noise-modulated irradiation was performed at 21 degrees C. The results showed that exposure of snail neurons to CW microwaves for 60 min at 12.9 W/kg inhibited spontaneous activity and reduced input resistance at 8 degrees and 21 degrees C but not at 28 degrees C. The relative decrease in resistance at 21 degrees C was half that at 8 degrees C. Exposure of neurons to noise-modulated microwaves at 6.8 and 14.4 W/kg predominately caused excitatory responses characterized by augmented membrane resistance and the appearance of greater activity. The effect differed qualitatively from the inhibition observed with continuous, unmodulated microwave irradiation.
在一个专门设计的波导暴露系统中,用连续波(CW)和噪声幅度调制微波(载波频率2450 MHz,20%调幅,2 Hz - 20 kHz)辐照非洲大蜗牛神经元。连续波微波辐照在8摄氏度、21摄氏度和28摄氏度下进行,而噪声调制辐照在21摄氏度下进行。结果表明,在12.9 W/kg的功率下,将蜗牛神经元暴露于连续波微波60分钟,在8摄氏度和21摄氏度时会抑制自发活动并降低输入电阻,但在28摄氏度时不会。在21摄氏度时电阻的相对下降幅度是8摄氏度时的一半。将神经元暴露于6.8和14.4 W/kg的噪声调制微波下,主要引起以膜电阻增加和活动增强为特征的兴奋性反应。该效应在性质上与连续、未调制微波辐照所观察到的抑制作用不同。
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