Sienkiewicz Z J, Haylock R G, Bartrum R, Saunders R D
National Radiological Protection Board, Chilton, Didcot, Oxfordshire, United Kingdom.
Bioelectromagnetics. 1998;19(8):486-93. doi: 10.1002/(sici)1521-186x(1998)19:8<486::aid-bem6>3.0.co;2-k.
Intense magnetic fields have been shown to affect memory-related behaviours of rodents. A series of experiments was performed to investigate further the effects of a 50 Hz magnetic field on the foraging behaviour of adult, male C57BL/6J mice performing a spatial learning task in an eight-arm radial maze. Exposure to vertical, sinusoidal magnetic fields between 7.5 microT and 7.5 mT for 45 min immediately before daily testing sessions caused transient decreases in performance that depended on the applied flux density. Exposure above a threshold of between 7.5 and 75 microT significantly increased the number of errors the animals made and reduced the rate of acquisition of the task without any effect on overall accuracy. However, the imposition of a 45-minute delay between exposure at 0.75 mT and behavioural testing resulted in the elimination of any deficit. Similarly, exposure to fields between 7.5 microT and 0.75 mT for 45 min each day for 4 days after training had no amnesic effects on the retention and subsequent performance of the task. Overall, these results provide additional evidence that 50 Hz magnetic fields may cause subtle changes in the processing of spatial information in mice. Although these effects appear dependent on field strength, even at high flux densities the field-induced deficits tend to be transient and reversible.
强磁场已被证明会影响啮齿动物与记忆相关的行为。进行了一系列实验,以进一步研究50Hz磁场对成年雄性C57BL/6J小鼠在八臂放射状迷宫中执行空间学习任务时觅食行为的影响。在每天测试前立即暴露于7.5微特斯拉至7.5毫特斯拉的垂直正弦磁场中45分钟,会导致表现出现短暂下降,这取决于所施加的通量密度。暴露于7.5至75微特斯拉之间的阈值以上会显著增加动物犯错误的数量,并降低任务的习得率,而对总体准确性没有任何影响。然而,在暴露于0.75毫特斯拉和行为测试之间施加45分钟的延迟会消除任何缺陷。同样,训练后每天暴露于7.5微特斯拉至0.75毫特斯拉的磁场中45分钟,持续4天,对任务的保持和后续表现没有失忆效应。总体而言,这些结果提供了额外的证据,表明50Hz磁场可能会导致小鼠空间信息处理发生细微变化。尽管这些效应似乎取决于场强,但即使在高通量密度下,场诱导的缺陷往往也是短暂的且可逆的。
