This article is real interesting on a number of levels. First the removal of Beta-Amyloid plaque is a consequence of Alzheimer’s. Beta-Amyloid plaque is a structured protein waste that accumulates with age throughout the whole body. One of the only methods currently to remove Beta-Amyloid plaque is through the use of Serrapeptase, an enzyme generated by the silkworm that eats structured waste products in the body. In this article they curiously use the word erase rather than remove. Are the cellphone frequencies erasing the underlying pattern within the genetic code and as a result the Beta-amyloid plaque is dissapearing?
This information is phenomenal for the use of Orgone on cellphones. Orgone has been shown to amplify growth responses in plants when placed on a cellphone.
To purchase an Orgone cellphone chip for under $20.

All those cancer concerns surrounding cell phones may have to make room for good news. Astonished scientists found that electromagnetic radiation from cell phones not only boosted the memories of young mice, but even reversed Alzheimer’s symptoms in old mice. Their study marks the first to investigate how long-term electromagnetic radiation affects memory function.

The University of South Florida study showed that the electromagnetic waves erase brain deposits of the harmful protein beta-amyloid, which represents a hallmark of mentally crippling Alzheimer’s disease. The exposure also prevented build-up from the protein in younger Alzheimer’s mice — a possible lead on future non-invasive Alzheimer’s treatments for humans.

Almost 100 mice endured two 1-hour periods of daily exposure to an antenna that generated a cell phone signal, during a period of seven to nine months. Most of the mice were genetically engineered to develop Alzheimer’s, but some non-demented mice also allowed researchers to see how the electromagnetic waves affect normal memory.

Even the non-demented mice saw benefits from the exposure through increased blood flow and energy metabolism in the brain. That improved brain activity actually boosted the memory of the mice to above-normal levels.

“It will take some time to determine the exact mechanisms involved in these beneficial memory effects,” said Gary Arendash, a biomedical researcher at the University of Southern Florida. “One thing is clear, however — the cognitive benefits of long-term electromagnetic exposure are real, because we saw them in both protection- and treatment-based experiments involving Alzheimer’s mice, as well as in normal mice.”

Future non-invasive treatments based on electromagnetic exposure might even help soldiers suffering from traumatic brain injury due to blasts, Arendash and his colleagues said. Such traumatic brain injuries also involve boosted production of the troublesome beta-amyloid plaque.
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