Over ten years of dedicated R&D, Hughes has turned breakthrough science into reality. We refined the process, scaled the technology, and brought our biotransformed ingredients into full production. This is the origin of our story — and the foundation of everything we create.

Phosphorylated polyphenols can safely delivery to small intestine without degradation by gastro-intestinal fluid.

With the unique pharma-grade absorption mechanism, phospho-rylated polyphenols can easily cross the water barrier of small intestine, and absorbed into the body after a rapid enzymetic de-phosphorylation.

Due to its high water solubility, phosphorylated polyphenols demonstrate better, faster, and more effocoent absorption compared to native ones.

Lorem ipsum dolor sit amet, consectetuer adipiscing elit, sed diam nonummy nibh euismod tincidunt ut laoreet dolore magna aliquam erat volutpat.

Phosphorylated polyphenols can safely delivery to small intestine without degradation by gastro-intestinal fluid.

With the unique pharma-grade absorption mechanism, phospho-rylated polyphenols can easily cross the water barrier of small intestine, and absorbed into the body after a rapid enzymetic de-phosphorylation.

Due to its high water solubility, phosphorylated polyphenols demonstrate better, faster, and more effocoent absorption compared to native ones.

As a result, compared to native polyphenols, phosphorylated polyphenols are more easily absorbed and delivered more effectively to tissues.

Phosphorylated polyphenols can safely delivery to small intestine without degradation by gastro-intestinal fluid.

With the unique pharma-grade absorption mechanism, phospho-rylated polyphenols can easily cross the water barrier of small intestine, and absorbed into the body after a rapid enzymetic de-phosphorylation.

Due to its high water solubility, phosphorylated polyphenols demonstrate better, faster, and more effocoent absorption compared to native ones.

As a result, compared to native polyphenols, phosphorylated polyphenols are more easily absorbed and delivered more effectively to tissues.

Phosphorylated polyphenols can safely delivery to small intestine without degradation by gastro-intestinal fluid.

With the unique pharma-grade absorption mechanism, phospho-rylated polyphenols can easily cross the water barrier of small intestine, and absorbed into the body after a rapid enzymetic de-phosphorylation.

Due to its high water solubility, phosphorylated polyphenols demonstrate better, faster, and more effocoent absorption compared to native ones.

Lorem ipsum dolor sit amet, consectetuer adipiscing elit, sed diam nonummy nibh euismod tincidunt ut laoreet dolore magna aliquam erat volutpat.

Phosphorylated polyphenols can safely delivery to small intestine without degradation by gastro-intestinal fluid.

With the unique pharma-grade absorption mechanism, phospho-rylated polyphenols can easily cross the water barrier of small intestine, and absorbed into the body after a rapid enzymetic de-phosphorylation.

Due to its high water solubility, phosphorylated polyphenols demonstrate better, faster, and more effocoent absorption compared to native ones.

As a result, compared to native polyphenols, phosphorylated polyphenols are more easily absorbed and delivered more effectively to tissues.

Pioneering Precision Health: Driving Integrated Innovation of the RenoSorb™ Postbiotic Exo-platform ─ From Highly Potent Ingredients to End Products