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14988


Date: November 07, 2024 at 08:17:25
From: akira, [DNS_Address]
Subject: I hope Kennedy can & will stop fluoride poisoning of our water(NT)


(NT)


Responses:
[14990] [14991] [14992] [14989]


14990


Date: November 07, 2024 at 10:51:04
From: ryan, [DNS_Address]
Subject: Re: I hope Kennedy can & will stop fluoride poisoning of our water


the only thing i agree with him on...


Responses:
[14991] [14992]


14991


Date: November 07, 2024 at 13:50:25
From: ryan, [DNS_Address]
Subject: Re: I hope Kennedy can & will stop fluoride poisoning of our water

URL: https://neurolaunch.com/fluoride-effects-on-brain-pineal-gland/


my big beef about fluoridated water is that it has minimal impact on children's dental health, and absolutely no health benefits for anyone over 15...it has been shown that topical application of fluoride has some benefit on cavity reduction, but ingested fluoride basically no benefit...the negative effects on children and adults have been repressed, and are largely not understood...the human body has no natural use for fluoride...it has been shown that it accumulates in the pineal gland of the brain causing increased pineal gland calcification...hazy as to the effects of that, but in general not good...it is also connected to lower IG in infants, renal damage and autism, which has markedly increased since water fluoridation was introduced...

Fluoride’s Impact on the Brain and Pineal Gland: Examining the Evidence

Fluoride, a ubiquitous mineral added to our water and dental products, may be silently infiltrating our brains and altering the delicate balance of our pineal gland, according to a growing body of research that raises concerns about its potential health implications. This seemingly innocuous substance, long hailed as a dental health savior, has found its way into nearly every aspect of our daily lives. But as we’ve become more accustomed to its presence, scientists have begun to question whether this widespread exposure might come at a cost we hadn’t anticipated.

The story of fluoride in public health is a tale of good intentions and unforeseen consequences. It all began in the early 20th century when researchers noticed that people living in areas with naturally high fluoride levels in their water had fewer cavities. This observation led to a nationwide push to add fluoride to public water supplies, a practice that continues to this day in many countries around the world.

But fluoride isn’t just lurking in our tap water. It’s also found in toothpaste, mouthwash, and even some foods and beverages. Heck, you might be sipping on a fluoride cocktail right now without even realizing it! And while we’ve been told for decades that this is all for our own good, a growing chorus of voices in the scientific community is starting to sing a different tune.
The Brain and Pineal Gland: A Delicate Dance of Structure and Function

Before we dive into the fluoride debate, let’s take a moment to appreciate the marvel that is the human brain. This three-pound lump of gray matter is the command center of our entire body, orchestrating everything from our thoughts and emotions to our ability to wiggle our toes. It’s a complex network of neurons, synapses, and specialized structures, each playing a crucial role in keeping us alive and kicking.

One of these specialized structures is the pineal gland, a tiny pine cone-shaped organ nestled deep within the brain. Despite its small size (about the size of a grain of rice), this little gland packs a powerful punch when it comes to our overall health and well-being. It’s often referred to as the “third eye” or the “seat of the soul,” and for good reason.

The pineal gland is our body’s natural timekeeper, regulating our circadian rhythms and producing the hormone melatonin. This hormone is crucial for maintaining healthy sleep-wake cycles, which is why the pineal gland is often called the “third eye” of the brain. It’s like having a tiny, biological clock tucked away in our skull, ticking away and keeping us in sync with the world around us.

But what happens when something interferes with this delicate system? That’s where our fluoride story takes an interesting turn.
Fluoride: The Uninvited Guest in Our Gray Matter

Now, you might be wondering how on earth fluoride manages to sneak its way into our brains in the first place. After all, doesn’t our body have some kind of security system to keep unwanted substances out? Well, it does – it’s called the blood-brain barrier, and it’s usually pretty good at its job. But fluoride, being the sneaky little molecule it is, has found a way to bypass this defense mechanism.

When we ingest fluoride, whether through drinking water, swallowing toothpaste, or eating certain foods, it gets absorbed into our bloodstream. From there, it can cross the blood-brain barrier and accumulate in various brain tissues. But here’s where things get really interesting: studies have shown that fluoride seems to have a particular affinity for the pineal gland.

In fact, research has found that the pineal gland can accumulate more fluoride than any other soft tissue in the body. It’s like the pineal gland is some kind of fluoride magnet! This accumulation can lead to calcification of the pineal gland, a process where calcium builds up in the tissue. These calcifications are sometimes referred to as “brain sand,” and their presence in the pineal gland has puzzled scientists for years.

But why should we care about a little extra fluoride in our brains? Well, that’s where things start to get a bit worrying.
Fluoride and Brain Function: A Neurotoxic Relationship?

The potential effects of fluoride on brain function have been a subject of intense study and debate in recent years. Some researchers have raised concerns about fluoride’s potential neurotoxicity, suggesting that it could impair cognitive function and even contribute to neurodegenerative disorders.

One of the primary concerns is fluoride’s impact on neurotransmitter systems. These chemical messengers are crucial for proper brain function, allowing neurons to communicate with each other and coordinate various bodily functions. Some studies have suggested that fluoride exposure could alter the levels of certain neurotransmitters, potentially disrupting this delicate balance.

Moreover, fluoride has been linked to increased oxidative stress and inflammation in the brain. Oxidative stress occurs when there’s an imbalance between free radicals and antioxidants in the body, leading to cellular damage. This process has been implicated in various neurological disorders, from Alzheimer’s disease to Parkinson’s.

But before you start panicking and swearing off tap water for good, it’s important to note that the relationship between fluoride exposure and these potential effects is complex and not fully understood. Many of these studies have been conducted on animals or in laboratory settings, and their relevance to human health at typical exposure levels is still a matter of debate.
The Pineal Gland: Fluoride’s Favorite Hangout Spot

Remember our little friend, the pineal gland? Well, it turns out that this tiny structure might be bearing the brunt of fluoride’s effects on the brain. As we mentioned earlier, the pineal gland tends to accumulate more fluoride than other soft tissues in the body. But what does this mean for its function?

One of the primary concerns is fluoride’s potential to disrupt melatonin production. Melatonin, often called the “sleep hormone,” plays a crucial role in regulating our sleep-wake cycles. Some studies have suggested that fluoride accumulation in the pineal gland could interfere with melatonin synthesis, potentially leading to sleep disturbances and other circadian rhythm-related issues.

But it’s not just about sleep. The pineal gland is also involved in calcium signaling, a process that’s important for various cellular functions. Fluoride’s presence in the pineal gland could potentially interfere with this signaling, leading to broader implications for overall endocrine function.

It’s worth noting that other environmental factors, such as electromagnetic fields (EMFs), have also been studied for their potential effects on the brain. While the mechanisms may be different, it’s a reminder that our modern environment presents a complex array of potential influences on our neurological health.
The Fluoride Debate: A Scientific Tug-of-War

If you’re feeling a bit confused by now, you’re not alone. The fluoride debate is a contentious one, with passionate arguments on both sides. On one hand, we have decades of public health policy supporting fluoridation as a safe and effective way to prevent tooth decay. On the other hand, we have a growing body of research suggesting potential risks to neurological health.

So, what gives? Well, part of the challenge lies in studying the long-term effects of fluoride exposure. Many of the potential risks we’ve discussed are associated with chronic, low-level exposure over many years or even decades. Designing studies to accurately assess these effects in human populations is incredibly challenging and often fraught with confounding factors.

Moreover, the debate around optimal fluoride levels for public health is ongoing. While some countries have reduced or eliminated water fluoridation in recent years, others continue to support the practice. The World Health Organization, for instance, still recommends water fluoridation as a public health measure, albeit with guidelines for maximum fluoride concentrations.
Navigating the Fluoride Conundrum: What Can We Do?

So, where does all this leave us? Should we be tossing out our fluoride toothpaste and investing in water filtration systems? Not necessarily. While the research on fluoride’s potential neurological effects is concerning, it’s important to remember that the benefits of fluoride for dental health are well-established.

Interestingly, good oral hygiene practices like flossing have been linked to better brain health, reminding us of the complex connections between different aspects of our health. It’s a bit like solving a puzzle – each piece of information helps us build a clearer picture of how to maintain our overall well-being.

For those concerned about fluoride exposure, there are some steps you can take:

1. Be mindful of your fluoride intake: Pay attention to the fluoride content in your water and dental products.
2. Consider alternative toothpaste options: There are fluoride-free toothpastes available if you’re worried about excessive exposure.
3. Stay informed: Keep up with the latest research and recommendations from reputable health organizations.
4. Maintain good overall health: A healthy diet and lifestyle can help support your body’s natural detoxification processes.
The Bottom Line: Balancing Risks and Benefits

As we wrap up our deep dive into the world of fluoride and its potential effects on the brain and pineal gland, it’s clear that this is a complex issue with no easy answers. The research in this area is ongoing, and our understanding continues to evolve.

What we can say is that while fluoride has undoubtedly played a role in improving dental health worldwide, it’s important to approach its use with a balanced perspective. As with many things in life, moderation may be key. Just as we need to balance our calcium intake for optimal neurological health, we may need to be mindful of our fluoride exposure as well.

It’s also worth remembering that our brains are remarkably resilient organs. Even conditions like the flu, which can temporarily affect cognitive function, don’t typically cause lasting damage to a healthy brain. However, this doesn’t mean we shouldn’t be proactive about protecting our neurological health.

As we continue to unravel the mysteries of the brain and its intricate workings, it’s likely that our understanding of fluoride’s effects will become clearer. In the meantime, staying informed, making conscious choices about our fluoride exposure, and maintaining good overall health are probably our best bets for navigating this complex issue.

Who knows? Maybe one day we’ll look back on the great fluoride debate of the early 21st century and chuckle at how much we didn’t know. But until then, let’s keep our minds open, our toothbrushes ready, and our pineal glands… well, as un-calcified as possible!

References:

1. National Research Council. (2006). Fluoride in Drinking Water: A Scientific Review of EPA’s Standards. Washington, DC: The National Academies Press.

2. Luke, J. (2001). Fluoride deposition in the aged human pineal gland. Caries Research, 35(2), 125-128.

3. Grandjean, P., & Landrigan, P. J. (2014). Neurobehavioural effects of developmental toxicity. The Lancet Neurology, 13(3), 330-338.

4. Peckham, S., & Awofeso, N. (2014). Water fluoridation: a critical review of the physiological effects of ingested fluoride as a public health intervention. The Scientific World Journal, 2014.

5. Malin, A. J., & Till, C. (2015). Exposure to fluoridated water and attention deficit hyperactivity disorder prevalence among children and adolescents in the United States: an ecological association. Environmental Health, 14(1), 17.

6. World Health Organization. (2019). Guidelines for drinking-water quality: fourth edition incorporating the first addendum. Geneva: World Health Organization.

7. Bashash, M., Thomas, D., Hu, H., Martinez-Mier, E. A., Sanchez, B. N., Basu, N., … & Téllez-Rojo, M. M. (2017). Prenatal fluoride exposure and cognitive outcomes in children at 4 and 6–12 years of age in Mexico. Environmental Health Perspectives, 125(9), 097017.

8. Choi, A. L., Sun, G., Zhang, Y., & Grandjean, P. (2012). Developmental fluoride neurotoxicity: a systematic review and meta-analysis. Environmental Health Perspectives, 120(10), 1362-1368.

9. Valdez-Jiménez, L., Soria Fregozo, C., Miranda Beltrán, M. L., Gutiérrez Coronado, O., & Pérez Vega, M. I. (2011). Effects of the fluoride on the central nervous system. Neurologia, 26(5), 297-300.

10. Nakamoto, T., & Rawls, H. R. (2018). Fluoride exposure in early life as the possible root cause of disease in later life. The Journal of Clinical Pediatric Dentistry, 42(5), 325-330.


Responses:
[14992]


14992


Date: November 08, 2024 at 03:00:13
From: akira, [DNS_Address]
Subject: Re: I hope Kennedy can & will stop fluoride poisoning of our water


great link. I wasn't aware of the brain, pineal gland research (not surprised) but
have been aware of studies done over 2 decades ago showing how systemically
deleterious fluoride is to the body. Back then European countries began
prohibiting it from being added to the water. Not the good old US. It's incredible
we're still poisoning our population with it. And we wonder how so many people
could vote for trump.


Responses:
None


14989


Date: November 07, 2024 at 08:22:19
From: shadow, [DNS_Address]
Subject: Re: I hope Kennedy can & will stop fluoride poisoning of our water(NT)


I agree flouride should come out of our water...but I don't
hope Kennedy does anything whatsoever, he needs to not be
appointed anywhere with impact on human beings...


Responses:
None


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