Fight Cancer with Biophotons

Tarin | Oct 28, 2010 |

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In many times, the ways to halt the spread of cancer have detrimental effects on the body leading some to sprout the phrase "The Cure is worse than the disease." One example, is that Folic Acid taken during cancer helps halt the spread of cancerous DNA but Folic Acid also prevents further DNA damage that can cause further cancerous effects like alternate lengthening of telomeres.

Anything that lowers cellular proliferation rate like increasing myostation levels(also known as GDF-8) or lowering hormone production(testosterone inhibits myostatin and estrogen increases vascularity which helps increase the growth of cancer) will inhibit the spread of cancer. This will also have catabolic effects on the rest of your body. Lower testosterone means higher myostatin levels which will mean less muscle.

It's clear however that by the heavy usage of kemotherapy and hormone blockers that several catabolic cancerous treatments are in use as a way to delay the spread of cancer until a treatment can be found. Biophotons is one such method that can be used to fight cancer. Biophotons are biological photons that are generated by electromagnetic fields. Biophotons are different colors on the electromagnetic spectrum. Biophotons are transferred to neuron to neuron.

It would seem though that the particular color of biophoton has to be uniform throughout the entire body. So if the biophotons in your tumor are say purple(let's say purple inhibits cellular proliferation) the biophotons in your bulging biceps are purple as well.

Since biophotons can be generated by electromagnetic fields you can be affected by the biophoton emissions of light(known as low intensity light therapy), plants, and even hypnosis! Biophotons are speculated to play a role in redox reactions. Biophotons help prevent reactive oxygen species from causing DNA damage! Biophotons can also increase ATP production(which is good for marathon runners!).

Some speculate that biophotons are merely a bi-product of redox reactions rather than being a cause of them. Conversely, the effectiveness of low intensity light therapy either shows the effectiveness of biophotons or there's some other mechanism for LILT than inducing biophotonic activity at a certain spectrum. And an increase in biophotonic activity of one end of a neuron resulted in an increase in biophotonic activity at the other end.

At the time of this article there are but a sparse amount of articles about biophotons on pubmed. We aren't clear about what colors can produce certain effects. Though it would seem apt to stare at a lot of lights to increase biophotonic activity to prevent reactive oxidative species from causing DNA damage. And DNA damage is one of the causes to cancer. So if you want to help prevent cancer or you want to fight it look into biophotons and light therapy!