Description
What is Hilyses® ?
The Bionic prebiotic
Hilyses® is a source of free Nucleotide , Nucleosides and Glutamic acid , enriched with valuable yeast functional carbohydrates β-Glucan and Mannan Oligosaccharides.
Hilyses® is ideal for young animals and breeding stock nutrition. Dietary nucleotides have been reportedly beneficial, especially for young animals, since they positively influence Immunity , lipid metabolism, tissue growth, development, and repair.
Species : Poultry , Cattle , Fish , Shrimp and Pets
When to use?
1-Animals in reproductive period
2- Stressful period
3- Challenging enviroment
4- Young animals
Why Hilyses is unique?
100 % Bioavailability
We can expect benefits on :
Immnunity
As Hilyses is a source of free nucleotides, it makes cell division
more efficient and faster. This is essential for tissues with rapid
“turnover” and limited capacity to perform de novo synthesis such as: Blood: multiplication of blood cells.
Intestine: enterocytes cells renewal. Liver: hepatic cells renewal
Intestinal integrity
Hilyses improves the growth and maturity of epithelial cells: Nucleotides allow an increase in
intestinal epithelial cells division, with lower energy consumption.
MOS binds pathogenic bacteria and they pass through the intestine without colonization.
Higher growth / Better feed conversion
The combined impact of Hilyses on the immune system and intestine, leads to
higher growth and better feed conversion
What is Hilyses ?
Is a source of free nucleotides and nucleosides, the ideal
form of absorption. Supports the early development of
young animals and the efficiency of breeders improving
the feed conversion and overall productivity.
Differences among yeasts
Hilyses presents a higher content of RNA than regular yeast. ICC exclusive
fermentation process, releases the RNA on fermentation media and treats it with
an unique enzyme blend in order to hydrolyze the RNA into FREE NUCLEOTIDES
and NUCLEOSIDES, which are readily assimilated by the body. MOS and β-Glucans
are fully functional. Protein is digested into short chain peptides