Description
Known as the “master antioxidant”, glutathione is essential for good health, and it affects how other antioxidants and vitamins work in your body. Glutathione is produced naturally in the body, and other antioxidants (including vitamin E and vitamin C) depend on glutathione to function. Glutathione may reverse and repair the damages caused by oxidative stress, and help strengthen the immune system, making us less susceptible to disease.
Helps With Environmental Toxins
Our modern environment exposes us to toxins at every turn, and they take a toll on our bodies. We are exposed to pesticides through the foods we eat, and heavy metals through our water, workplaces, food, and more. Cigarette smoke can pollute the air we breathe, as can countless numbers of cars and factories pumping exhaust into the air. Glutathione works to bind to these toxins and helps remove them. Through aging our bodies drop in natural glutathione levels, even by up to 10 percent a decade! Our bodies have to work overtime to clear all of toxins and our glutathione stores can become depleted. We need this master antioxidant to clear oxidative stress, so supplementation is necessary.
Why Pills Don’t Work
So you know how important glutathione is, now how are you going to get it into your body, to those cells that need it the most? Unfortunately, glutathione in capsule form is virtually worthless, and you might as well throw away your money. As soon as they hit your digestive system, enzymes break them down leaving little to no glutathione available for your cells. How can you get glutathione to your cells? Liposomes are the answer!
Liposomal Glutathione is the Answer
Liposomal glutathione encapsulates the fragile antioxidant within a protective phospholipid barrier. This barrier allows the liposomes to pass through the stomach wall and into the bloodstream where they can reach your cells. Glutathione pills are destroyed in the digestive system, and liposomes are necessary to transport critical antioxidants to the cells. Our bodies need glutathione, and liposomes are the way to deliver it!
How Liposomal Glutathione Helps
What happens to the body when it is under oxidative stress? Toxins in the body can build up and leave us susceptible to disease. Glutathione helps the body to clear those toxins, and fight disease. Glutathione in research trials showed to be promising in helping the symptoms of diabetes (7). Glutathione gives the body antioxidant defense helps with nutrient metabolism, and combats oxidative stress. This could mean glutathione could help combat aging (1) and the development of many diseases including : seizures, Alzheimer’s disease, Parkinson’s disease (6), liver disease, cystic fibrosis, sickle cell anemia, heart attacks, and strokes (8).
Glutathione is critical for immune function (9), and could help your body have a better defense against disease. Glutathione is a heavy metal detoxer (3) and is vital to mitochondrial function and maintenance of mitochondrial DNA (4). Glutathione not only protects the body from toxins (5) but it reduces inflammation (2), both of which can lead to disease and premature aging.
Why NanoVite
Our liposomal glutathione is the best you can get—it is in a highly bioavailable formula that can reach your cells, and is all-natural and non-GMO. If you are wasting your money on glutathione pills, you need to turn to the power of liposomes. If you want to combat aging, resist disease, and cleanse toxins from your body at the cellular level, you need to harness the power of nature’s master antioxidant—glutathione. Boost your body’s healing power with the help of Nanovite Liposomal Glutathione!
1 https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5413479/
2 https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4684116/
3 https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4684116/table/t1-8-12/
4 https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4684116/table/t1-8-12/
5 https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4684116/
6 https://www.michaeljfox.org/foundation/news-detail.php?ask-the-md-glutathione-and-parkinson
7 https://www.ncbi.nlm.nih.gov/pubmed/27470531