Glutathione GSH is a highly assimilable reduced GSH form that can enter the bloodstream via liposome delivery and bypass the digestive system and the liver's first pass.*
Transporting glutathione from the digestive system into the blood can be a challenging process.
Glutathione is the most critical and integral part of the detoxification system with its antioxidant properties. All xenobiotics, including free radicals, pathogens, and heavy metals, like mercury, “stick” onto glutathione (the “SH” in “GSH” is the sulfur-hydrogen ion attached to the molecule) and are then carried out of the body through bile and stool. Chronic illness, as well as long-term toxic exposure to xenobiotic overload, can not only deplete stores of glutathione but also may inhibit its production.
Methylation and the production and recycling of glutathione are two of a healthy body's most important biochemical functions. (See Methyl-B12 Liposome for methylation).
Glutathione is an antioxidant produced by the body as it protects cells against the oxidative stress of free radicals. As such, it protects highly vulnerable DNA from damage (also consider PRP53 Code Liposome Spray), binds heavy metals, removes toxins, and enhances immune function, particularly viral infections.
Glutathione (GSH) is a sulfur-containing (tripeptide thiol) compound molecule that is made inside every cell in the human body and is found in its highest levels in the liver, eyes, spleen, pancreas, and kidneys. However, the highest glutathione concentration is found in the liver, making it critically important in detoxifying and eliminating free radicals. Accumulation of these compounds may result in oxidative stress, which occurs when the generation of free radicals in the body exceeds the body's ability to neutralize and eliminate them.
Assimilable and deliverable (GSH) Glutathione may be a significant and vital step in every detoxification program, helping to significantly reduce the risk of xenobiotic translocation, reabsorption, and detoxifying organ and systems overload.