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Methyl Ethylcellulose
"Descrizione"
by admin (19362 pt)
2024-Oct-11 17:04

Methyl Ethyl Cellulose (Ethyl methylcellulose, E465) is a chemically modified cellulose derivative. It is used in various industries, including food, pharmaceuticals, and cosmetics, as a thickener, stabilizer, and emulsifier. This ingredient is valued for its ability to improve the texture, stability, and consistency of formulations. E465 is particularly known for its solubility in both water and certain organic solvents, making it versatile across many applications.

Chemical Composition and Structure

Methyl Ethyl Cellulose  is formed by replacing some of the hydroxyl groups in cellulose with both methyl (-CH₃) and ethyl (-C₂H₅) groups. The degree of substitution and the ratio of methyl to ethyl groups influence its solubility and functionality in various systems. The combination of these modifications gives methyl ethyl cellulose unique properties, including its solubility in water and organic solvents.

Physical Properties

It typically appears as a white or off-white powder that is odorless and tasteless. It is soluble in water and forms a viscous solution, making it useful as a thickener and stabilizer. Its ability to create films and improve the texture of products is highly appreciated in both food and non-food applications.

Production Process

Methyl Ethyl Cellulose  is produced by chemically modifying cellulose, usually derived from wood pulp or cotton, with both methyl chloride and ethyl chloride in the presence of an alkaline catalyst. This substitution of hydroxyl groups with methyl and ethyl groups alters the cellulose's natural properties, making it more soluble and functional in various formulations.

Applications

  • Food Industry: Methyl Ethyl Cellulose  (E465) is used as a thickener, stabilizer, and emulsifier in a range of food products such as sauces, gravies, and low-fat spreads. Its ability to create a smooth texture and improve stability makes it popular in processed foods.

  • Pharmaceuticals: In the pharmaceutical industry, methyl ethyl cellulose is used as a binder and controlled-release agent in tablet and capsule formulations. It helps maintain the stability of active ingredients and provides a consistent release of medication over time.

  • Cosmetics: In cosmetic formulations, methyl ethyl cellulose acts as a thickening agent and film-former in lotions, creams, and other personal care products. It helps improve the texture and consistency of products while also stabilizing emulsions.

INCI Functions:

Binder agent. Ingredient that is used in cosmetic, food and pharmaceutical products as an anti-caking agent with the function of making the product in which it is incorporated silky, compact and homogenous. The binder, either natural such as mucilage, gums and starches or chemical, may be in the form of a powder or liquid.

Film-forming agent. It produces, upon application, a very thin continuous film with an optimal balance of cohesion, adhesion and stickiness on skin, hair or nails to counteract or limit damage from external phenomena such as chemicals, UV rays and pollution.

Viscosity control agent. It controls and adapts, Increasing or decreasing, viscosity to the required level for optimal chemical and physical stability of the product and dosage in gels, suspensions, emulsions, solutions. 

Health and Safety Considerations

Safety in Use

Methyl Ethyl Cellulose  (E465) is considered safe for use in food, pharmaceutical, and cosmetic applications. It is non-toxic, non-allergenic, and generally well-tolerated. It acts as a fiber in the body and is not absorbed, which makes it safe for consumption in the quantities typically used in food and pharmaceutical products.

Excessive intake of celluloses such as E465 may be associated with high risks of cardiovascular diseases (CVD).(1)

Allergic Reactions

Allergic reactions to methyl ethyl cellulose are extremely rare due to its inert nature. It is generally safe for use in topical and oral products, and there are no known common allergic issues associated with its use.

Toxicity and Carcinogenicity

It has been evaluated by regulatory authorities and is considered a safe food additive (E465) when used within prescribed limits. Its widespread use in pharmaceuticals further underscores its safety profile.

Environmental and Safety Considerations

Methyl Ethyl Cellulose is biodegradable and derived from renewable sources such as wood or cotton, making it environmentally sustainable. Proper disposal is necessary to prevent excessive environmental buildup, although it poses no significant environmental risks under normal usage conditions.

Regulatory Status

Methyl Ethyl Cellulose (E465) is approved by major regulatory bodies, including the European Union and the Food and Drug Administration (FDA) in the United States, for use in food, pharmaceutical, and cosmetic products. It is subject to regulations that ensure its safe use in consumer applications.


References__________________________________________________________________________

(1) Sellem L, Srour B, Javaux G, Chazelas E, Chassaing B, Viennois E, Debras C, Salamé C, Druesne-Pecollo N, Esseddik Y, de Edelenyi FS, Agaësse C, De Sa A, Lutchia R, Louveau E, Huybrechts I, Pierre F, Coumoul X, Fezeu LK, Julia C, Kesse-Guyot E, Allès B, Galan P, Hercberg S, Deschasaux-Tanguy M, Touvier M. Food additive emulsifiers and risk of cardiovascular disease in the NutriNet-Santé cohort: prospective cohort study. BMJ. 2023 Sep 6;382:e076058. doi: 10.1136/bmj-2023-076058. PMID: 37673430; PMCID: PMC10480690.

Arca HC, Mosquera-Giraldo LI, Bi V, Xu D, Taylor LS, Edgar KJ. Pharmaceutical Applications of Cellulose Ethers and Cellulose Ether Esters. Biomacromolecules. 2018 Jul 9;19(7):2351-2376. doi: 10.1021/acs.biomac.8b00517. 

Abstract. Cellulose ethers have proven to be highly useful natural-based polymers, finding application in areas including food, personal care products, oil field chemicals, construction, paper, adhesives, and textiles. They have particular value in pharmaceutical applications due to characteristics including high glass transition temperatures, high chemical and photochemical stability, solubility, limited crystallinity, hydrogen bonding capability, and low toxicity. With regard to toxicity, cellulose ethers have essentially no ability to permeate through gastrointestinal enterocytes and many are already in formulations approved by the U.S. Food and Drug Administration. We review pharmaceutical applications of these valuable polymers from a structure-property-function perspective, discussing each important commercial cellulose ether class; carboxymethyl cellulose, methyl cellulose, hydroxypropylcellulose, hydroxypropyl methyl cellulose, and ethyl cellulose, and cellulose ether esters including hydroxypropyl methyl cellulose acetate succinate and carboxymethyl cellulose acetate butyrate. We also summarize their syntheses, basic material properties, and key pharmaceutical applications.

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