Catrice Prime and Fine Anti-Red Primer

Catrice Prime and Fine Anti-Red Primer
4.6
/ 10
Moisturizing
3.6 Humectancy icon Humectancy
5.6 Occlusivity icon Occlusivity
$$$$

Review

Results you may expect from using Catrice Prime and Fine Anti-Red Primer:

Based on the ingredient analysis by CreamScan, these are the key benefits you can expect from using Catrice Prime and Fine Anti-Red Primer:

  • Moderate moisturizing. It has a moisturizing rating of 4.6 out of 10.

How moisturizing is it?

Quite moisturizing: Catrice Prime and Fine Anti-Red Primer has a moisturizing rating of 4.6 out of 10.

Is it more humectant or occlusive? This product has relatively comparable levels of humectancy and occlusivity: a moderate humectancy of 3.6 out of 10, primarily due to the substantial concentration of Glycerin (est. ≈3.0%), and a moderate occlusivity of 5.6 out of 10, mainly due to the high content of Dimethicone (est. ≈9.0%) and Cannabis Sativa Seed Oil (est. ≈2.0%).

Please refer to the Ratings section below for details of the moisturizing rating calculation.

Anti-wrinkle efficacy

According to CreamScan analysis, Catrice Prime and Fine Anti-Red Primer has a zero anti-wrinkle rating.

It contains Ascorbyl Palmitate, an ingredient marketed as effective in reducing wrinkles. However, the studies supporting the anti-wrinkle claims of Ascorbyl Palmitate provide insufficient evidence of its efficacy according to CreamScan Research Evaluation Standards. Therefore, this ingredient does not generate the anti-wrinkle rating.

Moisturizers, when used regularly, are proven to prevent wrinkle formation and even reduce existing wrinkles. Therefore, this product, like any other moisturizer, could deliver some anti-wrinkle effects through its moisturizing action.

Please refer to the Ratings section below for details of the anti-wrinkle rating calculation.

Ingredients

Est. % Ingredient Origin Functions
65
9
6
4
3
2.5
2
1.5
1.3
1
0.3
0.3
0.3
0.3
0.3
0.3
0.3
0.3
0.3
0.3
0.3
0.3
0.3
0.3
0.3
0.3
0.3
0.3
0.3
Est. %
Function:
Origin:
Function:
Origin:
Function:
Origin:
Function:
Origin:
Function:
Origin:
Function:
Origin:
Function:
Origin:
Function:
Origin:
Function:
Origin:
Function:
Origin:
Function:
Origin:
Function:
Origin:
Function:
Origin:
Function:
Origin:
Function:
Origin:
Function:
Origin:
Function:
Origin:
Function:
Origin:
Function:
Origin:
Function:
Origin:
Function:
Origin:
Function:
Origin:
Function:
Origin:
Function:
Origin:
Function:
Origin:
Function:
Origin:
Function:
Origin:
Function:
Origin:
Function:
Origin:

Ratings

All humectants
3.6
3
0.3
0.3
Benchmark
10
All occlusives
11.3
9.0
2.0
0.3
Benchmark
20
Moisturizing rating
4.6
Ingredient Est. % Benchmark Raiting
Humectancy All humectants 3.6 10
3.6
3
0.3
0.3
Occlusivity All occlusives 11.3 20
5.6
9.0
2.0
0.3
Moisturizing rating
4.6
Ingredient Est. % Benchmark Humectancy
3
0.3
0.3
All humectants 3.6 10
3.6
All humectants
3.6
3
0.3
0.3
Benchmark
10
Ingredient Est. % Benchmark Occlusivity
9
2
0.3
All occlusives 11.3 20
5.6
All occlusives
11.3
9.0
2.0
0.3
Benchmark
20
Ingredient
Ingredient anti-wrinkle power
when present at, %
in this formula est. %
Rating
n/a
- 0.3 -
Total
0
Ascorbyl Palmitate
-
Ingredient anti-wrinkle power
n/a
when present at, %
-
in this formula, est. %
0.3
Anti-wrinkle rating
0
Ingredient Est. % Benchmark
Rich in Antioxidants
1.5
0.3
All antioxidants 1.8 3 No
All antioxidants
1.8
Tocopheryl Acetate
1.5
Ascorbyl Palmitate
0.3
Benchmark
3
Ingredient Est. % Benchmark
Rich in Soothing
None
All soothing 0 5 No
All soothing
0
None
Benchmark
5

Ingredients explained

Water
Est. %65
Function
Origin
The most used ingredient in skincare. Its concentration defines the product texture: rich creams may have about 50% of water while a light jelly about 90%. Water doesn’t moisturize the skin by itself and is used in skincare as a solvent for other ingredients.
Dimethicone
Est. %9
Function
Origin
The most common silicone in skincare. It forms a silky, smooth film on the skin’s surface and can help to prevent water loss. It also aids in wound healing and can treat and soften scars. Dimethicone is considered to be very safe for use.
Talc
Est. %6
Function
Origin
A mineral powder used as a base material for powders, make-up, and pastes that absorbs sweat and oils very well. It is also often used in baby powders. Talc should never be applied to skin with a damaged lipid barrier (e.g. wounds and burns).
Cetyl PEG/PPG-10/1 Dimethicone
Est. %4
Function
Origin
A silicone-based powerful emulsifier that helps to create lightweight and pleasant feeling lotions and creams.
Glycerin
Est. %3
Function
Origin

The most popular moisturizing ingredient in the world. It is a powerful humectant – cheap yet very effective.

Isododecane
Est. %2.5
Function
Origin
An emollient derived from petroleum with high spreadability. It is often used as a replacement for oils and silicones because it leaves no residue behind on the skin. When a product is labeled as “oil-free” it may contain isododecane instead of heavier oils.
Cannabis Sativa Seed Oil
Est. %2
Function
Origin
Also known as hemp seed oil, an occlusive moisturizing and emollient oil derived from the seeds of industrial hemp. It has nothing to do with full-spectrum CBD or THC. It contains unsaturated fatty acids, antioxidant phytosterols, phytol, and vitamin E.
Tocopheryl Acetate
Est. %1.5
Function
Origin

An antioxidant derivative of tocopherol (vitamin E). It helps to protect cells from free radicals and UV damage through the conversion to active vitamin E in the skin. It is more stable than tocopherol.

Sodium Chloride
Est. %1.3
Function
Origin

You’re definitely familiar with sodium chloride, even if you don’t think you are. It’s table salt! Salt works well with some cleansing ingredients (surfactants) to thicken them into gels. It also acts as a stabilizer for water-in-oil emulsions.

Magnesium Sulfate
Est. %1
Function
Origin
A naturally occurring mineral that is commonly used in skincare products as a bulking agent. It helps to control the viscosity of products by making them thicker.
Disteardimonium Hectorite
Est. %0.3
Function
Origin
A clay ingredient that functions primarily as a viscosity controlling agent that thickens all types of formulas. Disteardimonium hectorite imparts a smooth, velvety feel, making it a luxurious addition to any formula.
Hydrogen Dimethicone
Est. %0.3
Function
Origin
Description is coming soon
Ascorbyl Palmitate
Est. %0.3
Function
Origin
A form of vitamin C derived from ascorbic acid and palmitic acid. It is more stable and less irritating than ascorbic acid. Unfortunately, Ascorbyl Palmitate lacks the studies to prove its anti-wrinkle efficacy.
Tetrasodium EDTA
Est. %0.3
Function
Origin
One of the most common synthetic chelators. It can reduce the 'hardness' of water and so is often used in rinse-off products.
Propylene Carbonate
Est. %0.3
Function
Origin
A derivative of propylene glycol that is used most frequently as a solvent. Additionally, propylene carbonate serves as a viscosity controlling agent reducing the thickness of the products it is added to.
Ethylhexylglycerin
Est. %0.3
Function
Origin
A preservative booster derived from glycerin. It is commonly paired with other preservatives to improve their efficacy. Ethylhexylglycerin is also a humectant due to its chemical base of glycerin.
Methicone
Est. %0.3
Function
Origin
A silicone oil that can function as an occlusive moisturizer and emollient. Occasionally, methicone is used as a surface modifier for various pigments to improve the longevity and vibrancy of colorants.
Aluminum Hydroxide
Est. %0.3
Function
Origin
A white mineral powder, also known as alumina, that is derived from aluminum metal. It is frequently used as an abrasive in exfoliating products and as a thickener. Aluminum oxide is also a great opacifier.
Phenoxyethanol
Est. %0.3
Function
Origin
The most frequently used preservative in skincare. It is a clear, oil-like liquid synthetic substance that protects products from harmful bacteria and yeast, whilst still leaving skin microflora unharmed. It is confirmed by research to be harmless.
Sodium Dehydroacetate
Est. %0.3
Function
Origin
A sodium salt of dehydroacetic acid that is most commonly used as a preservative. It is a strong fungicide and a moderate bactericide, which makes it an effective broad-spectrum preservative.
Benzoic Acid
Est. %0.3
Function
Origin
A preservative effective against fungi, yeast, and some bacteria. It is commonly paired with phenoxyethanol to create a broad spectrum preservation system. Benzoic acid can also serve as a pH adjuster, fragrance, and bulking agent.
Potassium Sorbate
Est. %0.3
Function
Origin
A preservative widely used in food and personal care products, available from natural sources or synthetically produced. Potassium sorbate works by inhibiting the growth of yeasts, molds, and some bacteria.
Dehydroacetic Acid
Est. %0.3
Function
Origin
A globally approved preservative ingredient. It is a powerful fungicide and a moderate bactericide, which makes it a broad-spectrum preservative. Because it is mildly effective against bacteria, it is often paired with stronger bactericides.
Fragrance
Est. %0.3
Function
Origin
Under trade secret law, manufacturers have the right not to disclose what exactly went into the fragrance and use the unspecific word Fragrance or Parfum instead. Many fragrances are highly allergenic.
Bismuth Oxychloride (CI 77163)
Est. %0.3
Function
Origin
An inorganic colorant that gives off a pearly white sheen. Its appearance is a result of light reflecting and refracting through the layers it forms.
Chromium Oxide Greens (CI 77288)
Est. %0.3
Function
Origin
Description is coming soon
Iron Oxides (CI 77492)
Est. %0.3
Function
Origin
Also known as iron (III) oxide, this ingredient is a yellow-colored pigment that can either be derived from minerals or produced synthetically. It adds yellow tones to cosmetic products.
Iron Oxides (CI 77499)
Est. %0.3
Function
Origin
A black colorant also known as black iron oxide used in a wide range of skincare products.
Titanium Dioxide (CI 77891)
Est. %0.3
Function
Origin
One of two the most commonly used mineral sunscreens. It can absorb UV light, including UVB – which causes burning, tanning, and even skin cancer. Also used as a colorant, titanium dioxide gives a product a bright white color.