Strong Anti-aging agent, Finexell-T11

Old aging skin

Youth recovery with skin regeneration and improvement of wrinkles. Are you ready?

Wrinkles make one looks old, so one tries his or her best not to have any wrinkles on one’s face. However, have you wondered why do we get wrinkles?

Aging are categorized into extrinsic and intrinsic aging. Extrinsic aging is caused by external factors such as smoking, stress and drinking. It is easier to target the external factor by changing our lifestyle but not on intrinsic aging.

On the other hand, intrinsic aging is caused by long-term exposure of sunlight radiation and decrease in elastic proteins and collagen in our skin.

Normally prevention of intrinsic aging requires the help of skincare products or Botox injection other than just simply changing the lifestyle. As Botox is not affordable to all, skin products are usually the better choice. Many formulators know this truth and try to develop the attractive anti-aging products. However, how to develop such products? Have you ever considered the peptides to be used in your formulation? Our anti-aging agent, Finexell-T11, can be an option.

What is Finexell-T11?

A powerful anti-aging agent, Finexell-T11, is a complex consisting of 4 types of peptides (Hexapeptide-9, Tripeptide-29, Tripeptide-1, Acetyl hexapeptide-8) and Lactobacillus/Collagen Ferment Filtrate. The four different type of peptides play a unique role in anti-aging effect. The extent of anti-aging effect is determined by the length, depth, number of wrinkles on the skin!

Benefits of Finexell-T11

  1. Regenerate skin
  2. Wound healing effect
  3. Improve elasticity of the skin
  4. Excellent skin permeation
  5. Multiple types of peptides to give a total anti-aging care

Anti-aging Mechanisms of Finexell-T11

Thickening capacity

Anti-aging mechanism of Finexell-T11

Lactobacillus/Collagen Ferment Filtrate (Irritation-relief) enhances collagen biosynthesis, provide anti-oxidant and anti-inflammatory effect. This reduces the amount of free radical in our skin with the increase of antioxidant defences. On the other hand, Tripeptide-1 promote cellular protection through repairing the DNA of the cells and reducing cell death. Hexapeptide-9, Tripeptide-29 and Acetyl hexapeptide-8 improves corium barrier through the inhibition of MMP enzymes and promote extracellular collagen production. Additionally, the presence of Hexapeptide-9 promote skin regeneration. All of the above play a role in reducing wrinkles and lead to strong anti-aging effect.

Testing Results on Finexell-T11's Efficacy

Finexell-T11 - Skin regeneration assay

Finexell-T11 test results

According to the skin regeneration test, there is an increase in the amount of cells regenerated when Finexell-T11 is applied onto HACAT and HDF cells. (HACAT cell is human keratinocyte while HDF cell is Human Fibroblast cell). In general, the higher the percentage of Finexell-T11 added, more cell regenerated and greater the anti-aging effect.

Wound Healing Assay

Finexell-T11 test results

The cell recovery capacity was examined through growth of skin cells (white color portion) by performing wound healing assay. According to Finexell-T11-Wound healing assay, the higher the percentage of Finexell-T11 added, the more obvious the healing effect.

Collagen Synthesis Assay

Finexell-T11 test results

Collagen is synthesized as a procollagen form in the cell. When propeptide is cleaved, it will secreted out of the cell and extracellular collagen fibrils will be formed. Therefore, the amount of free propetides reflects the amount of collagen synthesized in the cells. According to the assay, Finexell-T11 induced collagen production in a concentration-dependent manner in HDF cells. Comparing with CTL (When 0% of Finexell is added), 3-5% of Finexell-T11 is enough to promote hydrolysis of collagen and improve wrinkles.

MMP-1 Inhibition Assay

UV-irradiation promotes expressions of various substrate protein degrading enzymes (Matrix MetalloProteinase, MMP). One of the most common collagen-degrading enzymes is MMP-1. By examining the degree of inhibition of this MMP-1, the wrinkle-reducing effect can be determined. According to the assay, Finexell-T11 is more effective than Retinol in wrinkle reducing, with blue bar showing a lower percentage of MMP-1 expression than orange bar at different percentage of anti-aging agents.

Stability Test (Cream)

Finexell-T11 stability test results

From the first row (Cream type) and second row (Water Solution Type) bottles, there is no discolouration and change in odor after phase separation in 8 weeks at 50 °C. The final content of Finexell-T11 still more than  95% in the solution.

Clinical Test Result

Strong Anti-aging effect with Skin regeneration, Finexell-T11 peptide

According to clinical test, the roughness value (Ra) for wrinkles decreases over 8 weeks. The experimental data from the left shown that after 8 weeks, the values of Ra decreases from 15.75μm to 15.1μm [orange] when compared to week 0. Additionally, the base roughness depth (R3z) value for wrinkles also decreases over 8 weeks. Hence, Finexell-T11 is effective in reducing roughness and depth of wrinkles as compared to control.

Formulation guides

Eye Cream

A Glycerin Humectant Glycerin 3.0
A Butylene Glycol Humectant Butylene Glycol 7.0
A Tetrasodium EDTA Chelating Agent Tetrasodium EDTA 0.1
A Water Solvent Water Add to 100
B Shea Butter Refined Emollient Butyrospermum parkii (shea) butter 1.0
B Cetearyl alcohol Base Cetearyl alcohol 3.0
B Glyceryl Stearate dan PEG-100 Stearate Emulsifier Glyceryl Stearate dan PEG-100 Stearate 3.0
B Stearic acid Emulsifer Stearic acid 0.8
B Hydrogel Oil PFKC Moisturizer & Lubricat Glycerin and Glyceryl Acrylate/Acrylic Acid Copolymer and 1,2-Hexanediol and PVM/MA Copolymer 0.7
C Multicare AM 50KCS*** Rheology modifier Sodium polyacryloyl dimethyl taurate, Dicaprylyl ether, Polyglyceryl 10 dilaurate, water 1.2
D Finexell-T11 Anti-aging agent Hexapeptide-9, Tripeptide-29, Tripeptide-1, Acetyl hexapeptide-8, Lactobacillus/Collagen Ferment Filtrate A&PEP 3.0
E Troycare PE 73 Preservative Phenoxyethanol, Ethylhexylglycerine Troy 0.8
F Perfume Perfume Mixture Compounds 0.05
Total 100

Formulation Procedure

  1. Heat phase A until the temperature is 70°C
  2. Heat phase B until the temperature is 70°C
  3. Add phase B to phase A and mix homogenously
  4. When the temperature of the mixtures reaches 40°C, add phase C and mix homogenously
  5. Add phase D, E and F step by step, continue mixing

Final product appearance

Appearance Cream
Color White
pH 5.5-6.5
Viscosity, cps 30.000-40.000cps

What is your choice?

If you are looking for the powerful anti-aging ingrediet for your formulation, please contact us now for sample!

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