i sorted through her tooth paste cabinet with my 6 year old and we threw out all the #fluoride
ones. she knows what to pay attention to next time shopping. interestingly, her mom did not protest 💟
repost from @quantumholistics
has been known as the ‘seat of soul’ for hundreds of years. Could #fluoride,
a ubiquitous vector of toxicity in the modern world, actually be calcifying this gland and literally turning it to stone?
Research published in 2001 showed that fluoride (F) deposits in the pineal gland with age and is associated with enhanced gland calcification. Eleven aged cadavares were dissected and their pineal glands assayed: “There was a positive correlation between pineal F[luoride] and pineal Ca[lcium] (r = 0.73, p<0.02) but no correlation between pineal F and bone F. By old age, the pineal gland has readily accumulated F and its F/Ca ratio is higher than bone.” This is the not the first research to implicate fluoride in contributing to so-called ectopic calcification, or the calcification of soft tissue. We address this in a previous report on the potential for fluoride to calcifiy the arteries.
What Is The Pineal Gland?
The pineal gland is a small endocrine gland in the vertebrate brain, and is sometimes called the “#thirdeye” as it is a light sensitive, centrally-located organ with cellular features resembling the human retina.
One article describes the role of the pineal gland in more technical terms here: “The role of the nonvisual photoreception is to synchronise periodic functions of living organisms to the environmental light periods in order to help survival of various species in different biotopes.” The pineal gland is best known for its role in producing the hormone melatonin from serotonin (triggered by the absence of light) and affects wake/sleep patterns and seasonal/circadian rhythms. Like a tiny pea-sized pine cone it is located near the center of the brain, between the two hemispheres and is a unique brain structure insofar as it is not protected by the blood-brain-barrier. This may also explain why it is uniquely sensitive to calcification via fluoride exposure. 🔁 @hollymrox