极低频（1 - 120赫兹）和调制（50赫兹）射频场对体外脑组织钙离子外流的影响。

Effects of ELF (1-120 Hz) and modulated (50 Hz) RF fields on the efflux of calcium ions from brain tissue in vitro.

作者信息

Blackman C F, Benane S G, House D E, Joines W T

出版信息

Bioelectromagnetics. 1985;6(1):1-11. doi: 10.1002/bem.2250060102.

Abstract

We have previously shown that 16-Hz, sinusoidal electromagnetic fields can cause enhanced efflux of calcium ions from chick brain tissue, in vitro, in two intensity regions centered on 6 and 40 Vp-p/m. Alternatively, 1-Hz and 30-Hz fields at 40 Vp-p/m did not cause enhanced efflux. We now demonstrate that although there is no enhanced efflux associated with a 42-Hz field at 30, 40, 50, or 60 Vp-p/m, a 45-Hz field causes enhanced efflux in an intensity range around 40 Vp-p/m that is essentially identical to the response observed for 16-Hz fields. Fields at 50 Hz induce enhanced efflux in a narrower intensity region between 45 and 50 Vp-p/m, while radiofrequency carrier waves, amplitude modulated at 50 Hz, also display enhanced efflux over a narrow power density range. Electromagnetic fields at 60 Hz cause enhanced efflux only at 35 and 40 Vp-p/m, intensities slightly lower than those that are effective at 50 Hz. Finally, exposures over a series of frequencies at 42.5 Vp-p/m reveal two frequency regions that elicit enhanced efflux--one centered on 15 Hz, the other extending from 45 to 105 Hz.

摘要

我们之前已经表明，16赫兹的正弦电磁场能够在体外使鸡脑组织中的钙离子流出增强，在以6和40 Vp-p/m为中心的两个强度区域内出现这种情况。相比之下，40 Vp-p/m的1赫兹和30赫兹电磁场不会导致流出增强。我们现在证明，虽然在30、40、50或60 Vp-p/m时，42赫兹的电磁场不会导致流出增强，但45赫兹的电磁场在40 Vp-p/m左右的强度范围内会导致流出增强，这与16赫兹电磁场观察到的反应基本相同。50赫兹的电磁场在45至50 Vp-p/m之间较窄的强度区域内诱导流出增强，而以50赫兹进行幅度调制的射频载波在较窄的功率密度范围内也显示出流出增强。60赫兹的电磁场仅在35和40 Vp-p/m时导致流出增强，其强度略低于在50赫兹时有效的强度。最后，在42.5 Vp-p/m下对一系列频率的暴露揭示了两个引起流出增强的频率区域——一个以15赫兹为中心，另一个从45赫兹延伸到105赫兹。