Koziak Adrian M, Desjardins Dawn, Keenliside Lynn D, Thomas Alex W, Prato Frank S
Lawson Health Research Institute, Department of Nuclear Medicine, St. Joseph's Health Care, London, Ontario, Canada.
Bioelectromagnetics. 2006 Jan;27(1):10-5. doi: 10.1002/bem.20170.
Orientation and nociception (pain sensitivity) are affected by exposure to geomagnetic or low frequency (<1,000 Hz) magnetic fields of approximately the earth's field strength, i.e., 50 microT. However, these effects are often dependent on the simultaneous presence of visible light. Recently, it was shown that nociception was affected in mice acutely exposed to an electromagnetic-shielded environment in the dark (<0.05 W/m(2)) during the mid-light phase of the diurnal cycle. Here, we report for the first time that if mice are exposed to magnetic shielding in the presence of visible light (0.6 W/m(2), 400-750 nm) that most of the effects of shielding are eliminated. This simple experimental protocol may be useful in investigating the role that light plays in the detection of ambient electromagnetic fields.
方向感和痛觉(疼痛敏感度)会受到暴露于地磁场强度(即50微特斯拉)左右的地磁场或低频(<1000赫兹)磁场的影响。然而,这些影响通常取决于可见光的同时存在。最近,研究表明,在昼夜周期的光照中期,处于黑暗环境(<0.05瓦/平方米)中急性暴露于电磁屏蔽环境的小鼠的痛觉受到了影响。在此,我们首次报告,如果小鼠在可见光(0.6瓦/平方米,400 - 750纳米)存在的情况下暴露于磁屏蔽环境,那么大部分屏蔽效应会被消除。这个简单的实验方案可能有助于研究光在检测周围电磁场中所起的作用。