Thanks to research first conducted by the University of Surrey in England in 1997, it is now known that the soft tissue of the adult pineal gland contains more fluoride than any other soft tissue in your body. In fact, the levels of pineal gland fluoride examined in the study were high enough to inhibit enzymes.

When your enzymes are damaged, it can lead to collagen breakdown, eczema, tissue damage, skin wrinkling, genetic damage, and immune suppression. It can also cause problems with your:

• Immune system
• Digestive system
• Respiratory system
• Blood circulation
• Kidney function

Pineal gland fluoride levels were measured at ~330 parts per million (ppm). The EPA currently sets the maximum allowed level of sodium fluoride in the drinking water at 4 ppm. This is nothing compared to the amount of fluoride found to be stored in the harder tissues of your pineal gland known as hyroxyapatite crystals. Fluoride levels observed in the hard tissue were found to be as high as 21,000 ppm. Hyroxyapatite crystals store more fluoride than any other hard tissue in your body, including teeth and bone.

After researchers concluded that the pineal gland was a major target for extreme fluoride accumulation in your body, they decided to conduct a series of experiments to determine if it was enough to impact the functioning of the gland, particularly melatonin production. Dr. Jennifer Luke from the University of Surrey in England led the researchers in performing the study.

The results were surprising even to the scientists on the research team. Animals treated with fluoride not only had lower levels of melatonin as expected, but female animals experienced an early onset of puberty. Due to the interference of melatonin production in the animals in response to the fluoride treatment, the hormonal triggers that are responsible for puberty were disturbed.

Dr. Luke summarized the findings:

“In conclusion, the human pineal gland contains the highest concentration of fluoride in the body. Fluoride is associated with depressed pineal melatonin synthesis by prepubertal gerbils and an accelerated onset of sexual maturation in the female gerbil. The results strengthen the hypothesis that the pineal has a role in the timing of the onset of puberty.”

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Tags: fluoride, pineal gland, puberty, research

This entry was posted on Wednesday, July 11th, 2012 at 3:37 pm and is filed under Research. You can follow any responses to this entry through the RSS 2.0 feed. You can leave a response, or trackback from your own site.