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Toxins not included in the doctrine
 

Mercury Detox
Dental work and fillings, not a problem.



Mercury Detox
Dental work and fillings, not a problem.


Js.mom Views: 3,519
Published: 14 y
 

Toxins not included in the doctrine


doctrine:
//www.curezone.org/forums/fm.asp?i=1597767#i


I don't think it's up to Newport to have to figure this stuff out for people.

Hyperammonia caused by a liver and/or kidneys not functioning very well, and excess glutamate in the brain because of it. For some, it's knowingly been a problem for several years.

What I don't get, is how people can really "know" that ammonia is a serious neurotoxin, and know that it goes with the parasites, bacterias, lyme etc- and yet, it is still totally ignored, like it's no big deal.

I understand why Newport get's frustrated with having to constantly remind people of stuff, and hold their hand because they have brain stuff going on and can't think straight because..because what?? These brain toxins ARE a big deal!

How much of the "brain stuff" is the parasites like the focus is always on, and how much of it is actually toxins that are doing real damage?? Do people really have monstor parasites eating them up from the shoulders up---or do they have serious toxins like these that probably will never be addressed as a problem? As long as the parasites are the entire focus, the brain stuff will continue, and neurological problems really won't be headed off.

How many people here ever take Ornithine on a regular basis? How many people here are taking the Magnesium/Potassium Aspartate on a regular basis? My guess is none. Why? That's what I don't get. What would it be like if someone opened up the brain and poured ammonia into it? That's what's going on with alot of people's brains here. It's not only the toxic metals, which are bad enough.

One of the main amino acids in the Malt Barley, is Aspartic acid (aspartate) which is what clears the excess glutamate caused by ammonia out of the brain.

//www.curezone.org/forums/fm.asp?i=1441663

Excess ammonia is a crucial factor in the development of neurodegenerative diseases, since ammonia interferes with the oxidative metabolism of neurons and thus reduces the production of ATP, our "energy molecule." In addition, ammonia gives rise to very harmful nitrogen-based free radicals.
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In the brain, glutamine is a substrate for the production of both excitatory and inhibitory neurotransmitters (glutamate and gamma-aminobutyric acid, popularly known as GABA).

Ammonia normally is removed from the blood in the liver by a series of chemical reactions called the urea cycle. During these sequential reactions, ammonia is converted into urea, which is excreted in the urine. The brain, however, lacks an effective urea cycle and therefore has only a limited capacity to remove any ammonia that enters the tissue from the blood because of the increased PS. The only way to eliminate any ammonia that has reached the brain cells is through a reaction mediated by an enzyme called glutamine synthetase, which combines a molecule of the amino acid glutamate with a molecule of ammonia to form the amino acid glutamine. The relevance of this reaction was confirmed in neuroimaging analyses measuring glutamine levels in the brains of alcoholic patients with HE. These studies found that the amounts of glutamine formed in the brain correlated with the severity of HE, confirming that the brain is exposed to elevated levels of ammonia (Lockwood et al. 1997). However, glutamine synthetase is present only in astrocytes, not in neurons, and cannot remove all the ammonia that enters the brain. As a result, neurons are virtually defenseless against increased ammonia concentrations and therefore are most likely to exhibit impaired function indicative of ammonia–related damage.
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Excess glutamate/glutamine:

Glutamate, in excess, is suspected of causing oxidative stress and leading to the destruction of neurons in Parkinson’s disease, amyotrophic lateral sclerosis and other autoimmune disorders.

Excess glutamate has also been suspected of destroying myelin and contributing to the disease process in multiple sclerosis.


Glutamate transporters[3] are found in neuronal and glial membranes. They rapidly remove glutamate from the extracellular space. In brain injury or disease, they can work in reverse and excess glutamate can accumulate outside cells. This process causes calcium ions to enter cells via NMDA receptor channels, leading to neuronal damage and eventual cell death, and is called excitotoxicity


Excitotoxicity due to glutamate occurs as part of the ischemic cascade and is associated with stroke and diseases like amyotrophic lateral sclerosis, lathyrism, autism, some forms of mental retardation and Alzheimer's disease.

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Excess Glutamate, Lyme Disease and Multiple Sclerosis:

http://autoimmunedisease.suite101.com/article.cfm/glutamate_excess_in_multipl...



In the Mayo Clinic Study published in October 2008, Dr. Vanna Lennon and her team have demonstrated that glutamate accumulates in the brain of patients with neuromyelitis optica. They propose that this is a result of NMO antiboides leading to glutamate excess. Dr. Lennon's study suggests that glutamate is responsible for the myelin destruction in this disorder.

Dr. Hong has previously shown the destructive role of glutamate in Parkinson’s disease. Dr. Yash Agrawal has explained how glutamate toxicity causes symptoms in both Lyme disease and multiple sclerosis. Dr. Agrawal explains that the ability of the beta-lactam Antibiotic cefrixatone to reduce glutamate accumulations accounts for its effectiveness in Lyme disease. He proposes that both cefrixatone and low dose naltrexone, by having the potential to reduce glutamate accumulations, have therapeutic value in Lyme disease, MS, and other neurological disorders.

Thus, while the Mayo researchers propose finding ways to block glutamate, the benefits of low dose naltrexone and beta lactam Antibiotics lie in their ability to reduce glutamate excess

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http://www.medicalnewstoday.com/articles/124477.php


The Mayo team, lead by Dr. Vanda Lennon, now show that NMO-IgG sets off a chain of events that leads to a toxic build-up of a neurotransmitter called glutamate. NMO-IgG binds to a protein that normally sops up excess glutamate from the space between brain cells. When NMO-IgG is around, this sponge-like action is blocked, allowing glutamate to accumulate. And too much glutamate can kill the cells that produce myelin - the protein that coats and protects neurons. The authors suggest that glutamate-induced damage to nerve cells and their insulating myelin coats might account for the neurological symptoms associated with Devic's disease.

 

 
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