Science
Mechanism of Action
As a cyclic acetal, this compound acts as a stabilized form of cyclamen aldehyde. Its primary function on the skin is to deliver a green floral aroma. Acetals are inherently stable against nucleophiles and bases; however, they are susceptible to acid-catalyzed hydrolysis. This property allows for a potential gradual liberation of the parent cyclamen aldehyde under specific acidic skin conditions, which can lead to a sustained fragrance release.
Research
Clinical Evidence
Insufficient-data confidenceN/A
Transparency
Dusting Analysis
No information regarding dusting potential was found in the research data.
The Formula
Formulation
Stability
This cyclic acetal demonstrates stability across neutral to highly basic pH ranges, specifically from pH 7.0 to 14.0. It is stable when exposed to nucleophiles and bases. However, it is sensitive to acidic conditions, which can trigger hydrolysis, reverting the compound back to its parent cyclamen aldehyde. The presence of water may also facilitate this hydrolysis, and strong Lewis acids or powerful oxidizing agents can compromise its structural integrity.
Conflicts
- strong acids
- strong oxidizing agents
- strong Lewis acids
Safety
Safety Profile
The safety evaluation for CYCLAMEN ALDEHYDE ETHYLENEGLYCOL CYCLIC ACETAL largely relies on data for its parent compound, Cyclamen Aldehyde (CAS 103-95-7). Cyclamen Aldehyde is classified as a hazardous substance, known to cause skin irritation (H315) and potentially allergic skin reactions (H317), making it a concern for sensitive individuals. While this acetal form is designed for stability and controlled release, mitigating immediate reactivity, the potential for irritation or sensitization from the liberated Cyclamen Aldehyde on the skin still exists. Careful concentration control is essential when formulating with this ingredient.
Your Skin
Skin Compatibility
Our Assessment
Verdict
An optional fragrance ingredient valued for its green floral scent and controlled release potential, though caution is advised for sensitive skin due to the parent aldehyde's known allergenic properties.
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