Other Safety Claims

Other safety claims in skincare products include being dermatologist-tested, which means it’s evaluated for skin safety; hypoallergenic, indicating reduced risk of allergic reactions; non-comedogenic, ensuring it won’t clog pores; and paraben-free, avoiding certain preservatives. These claims provide assurance of safety and suitability for sensitive skin types.

Cream

Drops

Cosmetic Products

Natural Foods

Biomarker Testing List:

Biomarker	Scientific Pathway Details	Used to Prove Claims
Microbial Contamination Levels	Assesses the presence of harmful microorganisms in the product.	Microbial Safety efficacy
Allergen Test Results	Evaluates potential allergic reactions to the product.	Non- Allergy efficacy
Dermatological Irritation	Measures of redness, swelling, and discomfort in in-vitro tests.	Skin Tolerance

Scientific Driven with our Technology:

Using our expertise in immunology and cell culture, we develop immunoassays based on ELISA principle. Using cutting edge tools like 3D tissues (some of which are OECD approved for skin / cornea irritation), we bring the human experimentation into the labs. Curating a list of research publications, we have developed a platform to test products for their biomarkers mimicking the human model to generate data to back our label claims.

Read our Blog on Cosmetic Product Claims and other Product Claims (natural / herbal / naturopathy etc)

Related Services

Allergen Testing

Identifies and quantifies potential allergens in a product to ensure it does not trigger allergic reactions in sensitive individuals.

Microbial Testing

Ensures that products are free from harmful bacteria, fungi, and yeast. This includes tests for contamination and the effectiveness of preservatives.

Photoirritation Testing

Determines if a product causes skin irritation when exposed to sunlight or UV radiation, which is crucial for products used in sunny conditions.

Toxicological Risk Assessment

Evaluates the potential toxic effects of a product’s ingredients through various methods, including in-vitro assays, animal studies, and computational modeling.