Biopeptix® contains novel active ingredients such as Biologically Active Peptides, Growth Factors, Active Stem Cells and Anti-Glycation agents.
Biopeptix® contains novel active ingredients such as Biologically Active Peptides, Growth Factors, Active Stem Cells and Anti-Glycation agents.
Most natural substances are produced in more than one form. These forms differ from each other not only in structure and shape, but in activity and effectiveness as well. Most compounds have two asymmetrical forms designated as left (L for Levo) or right (D for Dextro).
This asymmetry is termed chirality.
Incorporation of organic compounds in cosmetic products requires careful selection of these ingredients. Ingredients that are either (L) or (D) may not absorb into skin at the same rate and may have lower effectiveness.
Therefore it is important to recognize and select the chirally correct forms when formulating a cosmetic product.
BIOPEPTIX® Cosmeceuticals utilizes the ingredients in their correct left (L) or right (D) form in all cosmetic formulations to assure optimal absorption and effectiveness.
Glycation is at the core of one of today’s most prominent theories on aging and morbidity. All Biopeptix® products contain anti-glycation agents, which are regarded as the last word in anti-aging. One of these is Aminoguanidine, a compound that prevents glycation of collagen and repairs damaged collagen as well. Another ingredient is L-Carnosine, also known as “super-peptide,” because of its many activities, namely, anti-glycation, anti-oxidant and anti-cancer qualities. Moreover, the products have been enriched with potent antioxidants (Lycopene, Bioflavones, Resveratrol and Vitamins), anti-bacterial agents (Proanthocyanins), healing and toning agents (Allantoin, Squalane and Centella Asiatica), and excellent moisturizers (hyaluronic acid, Glycosaminoglycans).
The ingredients’ great efficacy is further boosted through the use of the latest innovation in conduction means – the fullerenes, a spatial structure enveloping the active compounds that helps them penetrate the skin deeply with an efficiency that is tens of times greater than that of liposome-mediated penetration. For this breakthrough, the fullerene discoverers received a Nobel Prize in 1997