Ingredient
TEA-C12-13 ALKETH-3 SULFATE
Substance information
"TEA" refers to a salt of triethanolamine. "Alketh-" refers to a PEG ether of an alkanol (alkyl alcohol). The preceding numbers "C x-y" refer to the length of the alkyl (carbon) chains. The number behind "alketh-" refers to the average number of molecular units -CH2-CH2-O-. Sulfates (sulphates) are salts or esters of sulphuric acid.
Function(s) of this ingredient in cosmetic products
SURFACTANT - EMULSIFYING
Allows the formation of finely dispersed mixtures of oil and water (emulsions)
Origin
synthetic (Information may exclusively reflect the status at initial entry of this ingredient into the relevant INCI dictionary; technological progress may have added new manufacturing options based on substances of different origin)
Background information on use in cosmetics
Emulsifiers are often used in cosmetics as excipients. They allow actually unmixable components like oil and water to be brought in a permanently stable emulsion. In this way both aqueous and oily care and active ingredients can be used in one and the same product in cosmetics. Emulsifiers are able to do that since their molecules consist of a lipophilic and a hydrophilic part. In this way they can reduce the interfacial tension which actually exists between two incompatible substances like fat and water. Emulsifiers are, more particularly, used for creams, lotions and cleansing agents. At present emulsifiers are, however, more than only excipients which keep an emulsion stable. Fatty acid esters on the basis of sugar, lecithin or glycerin monodistearate contribute, for instance, to improving the moisture balance of the skin and are, therefore, also considered as cosmetic active ingredients. Polyethylene glycols (INCI: PEG-...) are poly condensation products of ethylene glycol, or polymerisation products of ethylene oxide. The number added to the name refers to the mean number of ethylene oxide units in the substance. The consistency of the PEG derivatives is increasingly solid with a growing degree of polymerisation. PEGs with a mean molar mass of up to 600 g/mol are liquid, up to 1,000 g/mol wax-like and from 4,000 g/mol solid wax-like substances. By mixing solid and liquid components, products of a creamy consistency are obtained which are used as water-free and water rinse-off bases. With growing molar mass water solubility and hygroscopicity (ability to absorb moisture) of the polyethylene glycols decrease.
Information on safe use
This substance is expressly approved and / or subject to a restriction as a result of an entry in Annex III of the EC Cosmetics Regulation after an assessment by the Scientific Committee on Consumer Safety of the EU Commission (SCCS). Restrictions can relate eg to purity criteria, a maximum concentration or the restriction to certain product categories. Subject to the conditions possibly imposed in Annex III, the use of this substance in cosmetic products is safe. Claudia Fruijtier-Pölloth: Safety assessment on polyethylene glycols (PEGs) and their derivatives as used in cosmetic products. In: "Toxicology" (2005), No. 214, P. 1-38. Publisher: Elsevier Ireland Ltd.
Why are we talking about it?
Annex III of the European Cosmetic Products Regulation sets maximum limits for the level of nitrosamines in mono- and trialkylamines and -alkanolamines and in fatty acid dialkylamines and dialkanolamides. Formation of relevant nitrosamines can occur by the reaction of secondary amino compounds contained as impurities in such ingredients with nitrosating agents (with nitrites; nitrosation reaction). Nitrosamines, which are potentially carcinogenic components, may therefore appear as unavoidable traces in the cosmetic product after its manufacture. The facts: There is a global strategy against the formation of nitrosamines, relying on cosmetic regulations and the recommendations of professional bodies (1 and 2). This strategy covers the raw materials (whose purity is controlled to limit impurities), the manufacturing process, storage and the finished product. Choosing ingredients with low potential for nitrosation is also critical (2). In order to guarantee the effectiveness of these measures, nitrosamines levels are measured in the raw materials and in the finished product. To limit the formation of nitrosamines, it is also possible to add ingredients to the formula which will prevent this reaction. Cosmetic formulation is a rigorous science with many constraints, which the issue of nitrosamine management perfectly illustrates. Key points to take away: The formation of nitrosamines is a very well regulated issue in the manufacture of cosmetic products, from raw materials to finished products. All precautions are taken to avoid their formation. Sources: (1) Opinion of the European Scientific Committee on Consumer Safety (SCCS): SCCS/1458/11 - Opinion on Nitrosamines and Secondary Amines in Cosmetic Products: https://ec.europa.eu/health/scientific_committees/consumer_safety/docs/sccs_o_090.pdf (2) COSMETICS EUROPE: Technical guidance document on minimising and determining nitrosamines in cosmetics, 2009: https://cosmeticseurope.eu/download/TjBjaHR5ekxhQ0Vxbkc1eEtKU2NTdz09
Belongs to the following substance groups
Regulating cosmetics
Cosmetics Ingredients are subject to regulation. Please note, different regulations may apply to cosmetic ingredients outside the EU.