Restore is unlike any supplement on the market. Made in the US, Restore is a soil-derived, scientifically-backed mineral supplement that has been shown in lab studies to strengthen tight junctions in the gut wall, our firewall against toxins entering the body. Restore helps create a biological environment for good gut bacteria to grow and flourish, to support improvement of overall health.
*Supply based on one person, one Tablespoon per day.
Optimal Gut Environment
Restore’s Benefits: Restore is a new generation, earth-derived supplement that promotes an optimal gut environment. It is not a probiotic. It is not a prebiotic. Rather, it is a carbon rich, alkaline liquid, with lignite derived trace organics and essential trace amino acids. With 70% of the immune system located in the gut, this optimal gut environment leads to great gut health. Restore is the first dietary supplement that delivers a balanced family of bacterial metabolites to promote a healthy firewall of tight junctions in the gut wall and blood brain barrier. Restore provides the communication network to support the return of biodiversity to the gut ecosystem that supports normal immune function.
The hallmark of Restore is that it is based in science. Our research has shown Restore to be non-toxic and to support the tight junction cells of the gut lining.
Non-toxic: For example, we performed the “gold standard” toxicology study on Restore gut supplement and showed that it is non-toxic on kidney cells even at high doses.
Gut Barrier: Additionally, Restore has been shown both in the laboratory and clinically to help support the functioning of the gut barrier and improve gut health by strengthening tight junction cells. In experiments, toxins like herbicides and gluten have been shown to degrade the gut barrier. Restore has been shown to promote the strengthening of the tight junction gut barrier in small and large gut membrane cells for an optimal gut environment.
Lignite Extract: One of the main elements in Restore is the lignite extract. Lignite comes from decomposed prehistoric matter. As plants decompose, they first form peat, which then turns into humate, then lignite, then leonardite and finally to coal. All of these are rich in carbon. One of the differences between all of these elements is the amount of time and pressure have been applied to them.