Interesting that they target erythritol and xylitol which are both found in nature (in small amounts) but said nothing about sucralose and aspartame which are man made poisons.
Aspartic Acid+Phenylalanine+Methanol→Aspartame+Water. After roughly 86 degrees aspartame breaks down back into Aspartic Acid, Phenylalanine, and Methanol.
Aspartic Acid:
Neurotoxicity: Aspartic acid functions as an excitatory neurotransmitter, meaning it helps transmit nerve impulses. This is a normal and essential function in the brain. High doses of aspartic acid have been shown to cause neurotoxic effects in some animal studies.
Inflammation: Some studies have investigated the relationship between amino acids like aspartic acid and inflammation. Elevated levels of excitatory amino acids could theoretically influence inflammatory processes
Cancer: Certain studies have suggested that aspartic acid might influence oncogenic pathways
Phenylalanine
Neurotoxicity: high levels of phenylalanine can accumulate in the brain, leading to neurotoxicity. Symptoms include intellectual disability, behavioral problems, and seizures.
Inflammation: Elevated phenylalanine levels, may influence inflammatory processes. For example, it might affect the production of inflammatory mediators or impact gut health.
Cancer: There is some evidence suggesting that alterations in amino acid metabolism, including phenylalanine, could be linked to cancer development. Phenylalanine's role in cellular processes and its impact on neurotransmitter levels may influence cancer progression.
Methanol
Neurotoxicity: Methanol itself is not highly toxic, but it is metabolized in the liver to formaldehyde and formic acid, both of which are highly toxic. Formaldehyde can damage neural tissues, and formic acid can interfere with cellular respiration and lead to metabolic acidosis, which can affect the nervous system.
Inflammation: The metabolism of methanol to formaldehyde and formic acid generates reactive oxygen species (ROS), which can cause oxidative stress. Oxidative stress is known to induce inflammatory responses and damage tissues.
Cancer: Methanol itself is not classified as a human carcinogen. However, its metabolite, formaldehyde, is a known carcinogen. Formaldehyde has been associated with various cancers, including nasopharyngeal cancer and leukemia.
Interesting that they target erythritol and xylitol which are both found in nature (in small amounts) but said nothing about sucralose and aspartame which are man made poisons.
Aspartame is made from the feces of e. Coli correct?
Xyloton protects teeth and also breaks down bacterial biofilm. It’s almost as if they want oeiole to be sick. EDIT TYPO: $ick
Aspartic Acid:
Neurotoxicity: Aspartic acid functions as an excitatory neurotransmitter, meaning it helps transmit nerve impulses. This is a normal and essential function in the brain. High doses of aspartic acid have been shown to cause neurotoxic effects in some animal studies.
Inflammation: Some studies have investigated the relationship between amino acids like aspartic acid and inflammation. Elevated levels of excitatory amino acids could theoretically influence inflammatory processes
Cancer: Certain studies have suggested that aspartic acid might influence oncogenic pathways
Phenylalanine
Neurotoxicity: high levels of phenylalanine can accumulate in the brain, leading to neurotoxicity. Symptoms include intellectual disability, behavioral problems, and seizures.
Inflammation: Elevated phenylalanine levels, may influence inflammatory processes. For example, it might affect the production of inflammatory mediators or impact gut health.
Cancer: There is some evidence suggesting that alterations in amino acid metabolism, including phenylalanine, could be linked to cancer development. Phenylalanine's role in cellular processes and its impact on neurotransmitter levels may influence cancer progression.
Methanol
Neurotoxicity: Methanol itself is not highly toxic, but it is metabolized in the liver to formaldehyde and formic acid, both of which are highly toxic. Formaldehyde can damage neural tissues, and formic acid can interfere with cellular respiration and lead to metabolic acidosis, which can affect the nervous system.
Inflammation: The metabolism of methanol to formaldehyde and formic acid generates reactive oxygen species (ROS), which can cause oxidative stress. Oxidative stress is known to induce inflammatory responses and damage tissues.
Cancer: Methanol itself is not classified as a human carcinogen. However, its metabolite, formaldehyde, is a known carcinogen. Formaldehyde has been associated with various cancers, including nasopharyngeal cancer and leukemia.