Our Technology

SH-DECAPEPTIDE-9 (SH-DP-9)™

RACINNE developed the Advanced SH-DP-9™ Synthesis to integrate powerful neuropeptides into our Ultimate Youth Power Series to correct fine lines, minimize large pores and restore a youthful glow. Used topically, SH-DP-9™ is quickly absorbed by the blood stream and mimics the actions of neuropeptides to activate collagen and elastin production, promote cell density,
facilitate nutrient absorption, and stimulate blood cell circulation in your skin.

Neuropeptides are secreted from the brain and nerve cells when our skin is injured, and act on cell surface receptors to repair damage. As we grow older, our ability to produce neuropeptides weakens, causing wrinkles and pigmentation. SH-DP-9™ (sh-Decapeptide-9) is a synthetically produced peptide consisting of amino acids arginine, glycine, leucine, lysine, phenylalanine, proline and tyrosine.

The integration of these neuropeptides into skin care products is considered revolutionary within the beauty industry, and Racinne has utilized advanced biotechnology to create a synthetic neuropeptide formula to deliver an innovative and effectively-proven anti-aging product.

 

CALLUS CULTIVATION TECHNOLOGY

As we age the stem cells in our epidermis lose their ability to regenerate, resulting in cataplasia, that is, the degenerative reversion of those skin cells.Dermis tissues face an even worse fate in mature years as they die off and drastically reduce in number, preventing our skin from healing while also causing our skin to lose elasticity, resulting in wrinkles and dark spots.

Plant callus extracts are crucial to fighting the visible signs of aging, as they possess the ability to regenerate and differentiate into diverse cells types. Callus cells are those that cover a plant’s wounds. These cells help plants recover from tissue damage. In the beauty industry, callus extracts can be used to repair damaged skin and help the skin retain its elasticity. When such extracts are applied to skin, skin cells are energized, which helps to restore the skin’s youthful and healthy glow. Unlike conventional plant extracts, plant callus extracts do not contain pesticide residues or contaminants, which is a further benefit.

RACINNE utilises revolutionary “Callus Cultivation Technology,” a powerful formula exclusively developed by RACINNE based on rare plant callus cells. By utilising these highly active agents for strong antioxidant activity, RACINNE’s products promote the skin’s elasticity, effectively strengthening the ability of skin cells to retain moisture while preventing signs of aging. Using rare plant callus extracts along with other effective active ingredients enables RACINNE’s products penetrate into the deepest layers of the skin to promote regeneration, improving dull, dehydrated and aged skin.

 

R & D PRODUCTION

To develop and produce premium skincare products that deliver the highest level of efficacy to its users, RACINNE has partnered with world-class laboratories and production facilities in Korea. By doing so, RACINNE has strategically put itself at the forefront of biotechnology in the cosmetics industry.

 

R & D

Utilising seven years of dedicated research and development into state-of-the-art beauty technology, RACINNE’s affiliated R&D laboratories perform innovative research and development on the anti-aging process and skin diseases using cutting-edge biotechnology. Our laboratories develop raw materials with high efficacy in anti-aging effects.
Their products are functional synthetic peptides, plant callus culture extracts, recombinant proteins, and novel nanobiomaterials.

 

PRODUCTION

RACINNE’s affiliated manufacturing facilities are the two largest cosmetic plants in South Korea and are dedicated to developing products using the latest technologies in the beauty industry. These facilities are CGMP and ISO-certified, among other certifications, all of which demonstrate the world-class level of RACINNE’s production and quality management systems.

Our products have been clinically tested by Ellead Skin & Bio Research.