Introducing Pretty Cat’s new cutting-edge 3 D Rejuvenation Triple Hyaluronic Acid Serum for your skin’s best future!
Get ready for advanced, clinically-proven results & firmer, brighter, younger looking skin!
New! Science-powered, result-driven, ground-breaking 3 D Rejuvenation Triple Hyaluronic Acid Serum has launched , so get ready to supercharge your skincare routine for your skin’s best future with this revolutionary, hydrating face serum.
Discover the supercharged ingredients in this results-driven face serum.
The science-powered formula of Pretty Cat new hydrating face serum features supercharged skincare ingredients that have been expertly blended by our expert scientists to create a formula that leaves your skin looking firmer, brighter, younger and flooded with hydration!
With immediate hydration effects and lasting action in one-size-fits-all formulation,
Pretty Cat’s 3 D Rejuvenation Triple Hyaluronic Acid Serum is the new step in your science-powered skin routine to enhance the look of your skin.
The results-driven formula features a magic matrix of supercharged ingredients, expertly blended in a high-performance elixir to give your skin a rejuvenating 3-x dimensional boost.
This hydrating face serum is suitable for all skin types (including sensitive skin) and has a potent ingredient concentration blended in a perfectly attuned, water-based formula that can be layered under moisturiser and sunscreen.
A potent serum skilfully formulated with the transformative power of state-of-the-art ingredients from the Mother Nature and the latest lab-innovations in skin science.
Pretty Cat 3-D Rejuvenation Serum is an oil-free, easily absorbed formula with 5 types of Hyaluronic Acid and 29 active ingredients, clear, natural, paraben and cruelty free, and has no colour and no fragrance.
This multifunctional serum proven to increase and maintain the skin’s hydration along with hyaluronic acid level to help revive the natural plumpness, and firmness.
Moisturizes, hydrates, brightens, reduces wrinkles, and improves elasticity.Helps minimize dark spots from acne and hyperpigmentation.5 types of Hyaluronic Acid - from very small to large molecular weight ensure that our skin is treated evenly and on every dimension.
Pretty Cat 3-D Rejuvenation Serum improves skin's appearance by supplying it with increased amount of Hyaluronic Acid and stimulating its production. Hyaluronic Acid fills wrinkles from within, making skin look younger.
A new Pretty Cat 3-D Rejuvenation Serum delivers deep penetration of 5 types of Hyaluronic Acid into a different skin layers.
Ultra Low HA, Low HA, Absorbent HA and 3D HA.
Each type of Hyaluronic Acid serves a different and sophisticated purpose by gently wrapping and retaining our skin with hydration.
High molecular Hyaluronic Acid– forms a layer of moisture retaining barrier on surface of the skin preventing moisture loss, water evaporation.
Low molecular -Super HA – twice the moisture retention capacity. Locks in and retains a large volume of moisture inside the skin for superior hydration.
Super low HA – Contains tiniest molecule size that penetrates deeper into our skin and hydrates deep down into the inner skin layers.
Absorbent HA – HA with a strong moisture holding feature which allows the HA to stay longer on our skin, even after a heavy sweating or washing our skin.
3D HA – Closely bound together HA that forms a 3D hydrating net around the skin to provide superior and long-lasting moisture retention.
Schlesinger T.E., Powell C.R., “Efficacy and tolerability of low molecular weight hyaluronic acid sodium salt 0.2% cream in rosacea, “ J Drugs Dermatol. 2013 Jun 1;12(6):664-7. Available on: https://www.ncbi.nlm.nih.gov/pubmed/23839183
Sundaram, H., Mackiewicz, N., Burton, E., Peno-Mazzarino, L., Lati, E., Meunier, S., (2016) ,“Pilot Comparative Study of the Topical Action of a Novel, Crosslinked Resilient Hyaluronic Acid on Skin Hydration and Barrier Function in a Dynamic, Three-Dimensional Human Explant Model”, Journal of Drugs in Dermatology : JDD [01 Apr 2016, 15(4):434-441] Available on: https://pubmed.ncbi.nlm.nih.gov/25877232/