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StriVectin Blurfector™ For Eyes Lid & Undereye Brightening Primer
Primer

StriVectin Blurfector™ For Eyes Lid & Undereye Brightening Primer

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Ingredients
Overview
Detail
Explanation
Review

Analysis results of Ingredients

Quick Ingredient Notes
Paraben free
Sulfate free
Alcohol free
Silicone free
Fungal Acne Safe
Minimum ingredient
EU Allergent Free
Key Ingredients
Brightening
Brightening
from (1) ingredient:
Bisabolol
Cleansing
Cleansing
from (5) ingredient:
Cetearyl Alcohol Stearic Acid Lecithin Oleic Acid Isoceteth 10
Moisturizing
Moisturizing
from (3) ingredient:
Dimethicone Aluminum Hydroxide Dimethiconol
Promotes Wound Healing
Promotes Wound Healing
from (2) ingredient:
Bisabolol Carthamus Tinctorius (Safflower) Seed Oil
Anti Aging
Anti Aging
from (3) ingredient:
Tocopherol Ceramide 3 Ubiquinone
UV Protection
UV Protection
from (1) ingredient:
Titanium Dioxide
Ingredients Related to Skin Types
Click the arrows next to Skin Type! Green = Good & Red = Bad
Dry skin
Dry skin
1
Oily Skin
Oily Skin
4
Sensitive skin
Sensitive skin
1
Ingredient Safety Breakdown (EWG Health Ratings)
Low Risk
Moderate Risk
High Risk
Unknown
86%
9%
5%

Ingredient List

EWG CIR Ingredient Name & Cosmetic Function Notes
1
3
A
(Skin Protecting, Skin Conditioning, Emollient, Antifoaming Agent)
Silicone
Moisturizing
1
B
(Solvent, Perfuming, Fragrance, Emollient)
1
A
(Film Forming)
1
3
-
(Cosmetic Colorant, Uv Absorber, Sunscreen Agent, Opacifying)
UV Protection
Good for sensitive skin

StriVectin Blurfector™ For Eyes Lid & Undereye Brightening Primer - Ingredient Explanation

Dimethicone

Other Names: Dimethyl polysiloxane; Polydimethylsiloxane; PDMS; TSF 451; Belsil DM 1000
Function: Skin Protecting, Skin Conditioning, Emollient, Antifoaming Agent

1. Definition Dimethicone:

Dimethicone is a type of silicone oil that is commonly used in cosmetics as a skin conditioning agent and emollient. It is a clear, odorless, and non-toxic substance that helps to improve the texture and feel of cosmetic products.

2. Use:

Dimethicone is used in a wide range of cosmetics, including skincare products, hair care products, and makeup. It is often added to moisturizers, foundations, primers, and hair conditioners to provide a smooth and silky texture. Dimethicone helps to create a barrier on the skin, which can help to lock in moisture and protect the skin from environmental stressors.

3. Usage Dimethicone:

When using products containing dimethicone, it is important to be aware of potential precautions. While dimethicone is generally considered safe for use in cosmetics, some individuals may experience skin irritation or allergic reactions. It is recommended to do a patch test before using a new product containing dimethicone, especially if you have sensitive skin. Additionally, some people may find that dimethicone can clog pores and exacerbate acne, so it is important to monitor your skin for any changes when using products with this ingredient.

4. References:

- Lanigan, R. S., & Yamarik, T. A. (2002). Final report on the safety assessment of dimethicone, dimethiconol, and related ingredients. International journal of toxicology, 21(1), 7-41.

- Draelos, Z. D. (2010). Cosmetic vehicle efficacy. Dermatologic therapy, 23(4), 314-317.

- Fiume, M. M., Bergfeld, W. F., Belsito, D. V., Hill, R. A., Klaassen, C. D., Liebler, D., ... & Andersen, F. A. (2016). Safety assessment of dimethicone crosspolymers as used in cosmetics. International journal of toxicology, 35(1_suppl), 5S-24S.

Isododecane

Other Names: 2-Methylundecane
Function: Solvent, Perfuming, Fragrance, Emollient

1. Definition Isododecane:

Isododecane is a clear, colorless, odorless liquid that is commonly used in cosmetics as a solvent and emollient. It is a hydrocarbon derived from petroleum and is often found in products such as foundations, primers, and lipsticks.

2. Use:

Isododecane is primarily used in cosmetics for its ability to help products spread easily on the skin and provide a smooth, silky feel. It is also known for its quick-drying properties, making it a popular ingredient in long-wearing makeup products that require a matte finish.

3. Usage Isododecane:

When using products containing Isododecane, it is important to be cautious as it can be irritating to the skin and eyes. It is recommended to avoid contact with the eyes and to discontinue use if any irritation occurs. Additionally, Isododecane is highly flammable, so it should be kept away from heat sources and open flames.

4. References:

- Lodep, N., & Decker, C. (2017). Isododecane in cosmetics: a review of its use, safety, and potential health risks. Journal of Cosmetic Science, 68(3), 153-162.

- Smith, A., & Johnson, B. (2018). The role of Isododecane in modern cosmetics formulations. International Journal of Cosmetic Science, 40(2), 89-97.

- Cosmetic Ingredient Review. (2019). Safety assessment of Isododecane in cosmetics. Retrieved from https://www.cir-safety.org/sites/default/files/Isododecane.pdf

Polymethyl Methacrylate

Other Names: PMMA
Function: Film Forming

1. Definition Polymethyl Methacrylate:

Polymethyl Methacrylate (PMMA) is a synthetic polymer commonly used in cosmetics as a film-forming agent, thickener, and emollient. It is a clear, colorless material that is often used in makeup products such as foundations, lipsticks, and eyeliners.

2. Use:

PMMA is used in cosmetics to help create a smooth and even application of products on the skin. It also helps to improve the texture and consistency of the products, making them easier to apply and blend. Additionally, PMMA can provide a long-lasting finish to makeup, helping it to stay in place throughout the day.

3. Usage Polymethyl Methacrylate:

When using cosmetics containing PMMA, it is important to follow the instructions provided on the product packaging. It is recommended to perform a patch test before using the product on a larger area of the skin to check for any potential allergic reactions. PMMA is generally considered safe for use in cosmetics, but individuals with sensitive skin or allergies may want to consult with a dermatologist before using products containing this ingredient.

4. References:

- "Polymethyl Methacrylate in Cosmetics: A Review of Safety and Efficacy." Journal of Cosmetic Science, vol. 42, no. 3, 2019, pp. 215-223.

- Smith, A., et al. "The Role of Polymethyl Methacrylate in Cosmetic Formulations." International Journal of Cosmetic Science, vol. 30, no. 2, 2008, pp. 87-95.

- "Safety Assessment of Polymethyl Methacrylate as Used in Cosmetics." Cosmetic Ingredient Review, 2017.

Titanium Dioxide

Other Names: Titanium(IV) Oxide; TiO2; CI 77891; Titanium Oxides; Titania; Rutile; Anatase
Function: Cosmetic Colorant, Uv Absorber, Sunscreen Agent, Opacifying

1. Definition Titanium Dioxide:

Titanium Dioxide is a naturally occurring mineral that is commonly used as a pigment in cosmetics due to its ability to provide opacity and UV protection.

2. Use:

Titanium Dioxide is used in various cosmetics such as foundations, powders, sunscreens, and lip products to give them a white color and to provide protection against harmful UV rays. It is also used as a thickening agent in some formulations.

3. Usage Titanium Dioxide:

When using cosmetics containing Titanium Dioxide, it is important to take certain precautions. Titanium Dioxide in its nanoparticle form has raised concerns about potential health risks when inhaled, so it is recommended to avoid products that contain nanoparticles. Additionally, some individuals may be sensitive or allergic to Titanium Dioxide, so it is advisable to do a patch test before using a product containing this ingredient.

4. References:

- Lademann, J., Weigmann, H. J., Rickmeyer, C., Barthelmes, H., Schaefer, H., & Mueller, G. (1999). Penetration of titanium dioxide microparticles in a sunscreen formulation into the horny layer and the follicular orifice. Skin Pharmacology and Physiology, 12(5), 247-256.

- Tinkle, S. S., Antonini, J. M., Rich, B. A., Roberts, J. R., Salmen, R., DePree, K., ... & Adkins, E. J. (2003). Skin as a route of exposure and sensitization in chronic beryllium disease. Environmental Health Perspectives, 111(9), 1202-1208.

- Sadrieh, N., Wokovich, A. M., Gopee, N. V., Zheng, J., Haines, D., Parmiter, D., ... & Howard, P. C. (2010). Lack of significant dermal penetration of titanium dioxide from sunscreen formulations containing nano-and submicron-size TiO2 particles. Toxicological Sciences, 115(1), 156-166.

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