HydrOxygen
- Stabilization processes mean that more oxygen gets to the cell before dispersal than ever before
- Oxygen promotes the cell’s ability to heal
- Combats effects of parasites by creating an aerobic environment where parasites struggle to survive
Proper oxygen levels are a requirement for efficient cellular respiration. Oxygen is a highly reactive element, meaning that it bonds easily with so many other elements. This has proven a challenge in efforts to create oxygen supplements that have the ability to go systemic, and not just die in the gut. Our science team has overcome this obstacle, using proprietary processes that stabilizes HydrOxygen and push it through to the organs, tissues, and cells that it needs to impact in order to accomplish its mission without dissipation or diminishing effectiveness.
Formulated with Carbon Technology
Carbon Technology is a proprietary blend of fulvic acids, humic acids, and polysaccharides that support cellular repair and the body’s natural ability to detoxify.* With a low pH, Carbon Technology also helps protect ingredients from being digested by stomach acid, so that they remain intact as they enter the desired location in the body.
Proper oxygen levels are a requirement for proper cellular respiration.
Oxygen is a highly reactive element, meaning that it bonds easily with so many other elements. Oxygen's high reactivity is due to its biradical electron configuration. Its two unpaired electrons make the molecule highly susceptible to bond formation. This has proven a challenge in efforts to create oxygen supplements that have the ability to go systemic, and not just die in the gut.
Yeast infections, such as Candida albicans occur most frequently in an oxygen-poor environment in the body. Yeast cells produce large amounts of acetaldehyde, causing cellular damage, interfering with intestinal absorption, and disrupting white and red blood cell functions.
Our science team has overcome this obstacle, using proprietary processes that stabilize HydrOxygen and push it through to the organs, tissues, and cells that it needs to impact in order to accomplish its mission without dissipation or diminishing effectiveness.
