Department of Biology, Laurentian University, Sudbury, Ontario, Canada.
Neurosci Lett. 2012 Aug 15;523(2):131-4. doi: 10.1016/j.neulet.2012.06.059. Epub 2012 Jun 28.
Weak (1 μT) physiologically patterned magnetic fields produce changes in behavioral, physiological, and cellular activity. In the present experiments 12 temporal samples of the electroencephalographic anomaly and normal activity of a person (SLH) whose proximity reliably affected the brain activity of others were extracted from QEEG data, digitized, and presented as equivalent magnetic field patterns to B16 mouse melanoma cells. Only two of the patterns, both originating from the primary source (right temporal lobe) of the EEG anomaly reduced the cell growth by one-third compared to the other patterns extracted from his QEEG or sham field exposures. In previous experiments these EEG transients were also associated with marked increases in photon emissions from the right side of SLH's head. The results suggest that the intrinsic complexity of electroencephalographic patterns of some people, when amplified appropriately and applied as computer-generated magnetic fields in the three spatial planes, could diminish cancer cell growth.
弱(1 μT)生理模式磁场会引起行为、生理和细胞活动的变化。在本实验中,从脑电图数据中提取了一个人(SLH)的 12 个脑电图异常和正常活动的时间样本,这些样本可靠地影响了他人的大脑活动,对其进行数字化,并呈现为等效磁场模式施加于 B16 小鼠黑色素瘤细胞。仅两个源自脑电图异常的主要源(右颞叶)的模式,与从他的脑电图或假磁场暴露中提取的其他模式相比,将细胞生长减少了三分之一。在之前的实验中,这些脑电图瞬变也与 SLH 头部右侧光子发射的显著增加有关。结果表明,一些人的脑电图模式的固有复杂性,当以适当的方式放大并作为计算机生成的磁场应用于三个空间平面时,可能会降低癌细胞的生长。
