Permitted synthetic colors
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Nov 14, 2018
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About This Presentation
Permitted food colors, dyes and lakes
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Permitted Synthetic Dyes Gagandeep M. Pharm (Pharmaceutical Analysis)
Colors in Food Colors are added to food and beverages to create an attractive appearance. They enhance the color of foods which could have deteriorated due to food processing as consumers would perceive such foods to be inferior. Color has an important implication as far as food is concerned as it plays a major role in the taste and perception of food along with flavor and texture. It is a known fact that if the food does not look attractive then consumers will probably reject it. However, if color is used to conceal damaged or inferior products so that it appears better or greater in value then it could mislead the consumer.
Types of food colors: Food colors are of two types: Dyes and Lakes. Dyes dissolve completely in water and are available as powders, granules or liquids. Dyes are used in beverages, dye mixes, dairy products, pie fillings, jams, pet foods, etc. Lakes are insoluble in water and are generally used in products that contain oils and fats and in products that do not contain much moisture like coatings of tablets, cheese, margarine, chewing gum, chocolates etc.
Permitted synthetic colorants The FSSAI regulations for food coloring are covered under the category ‘Coloring Matter’ in the Food Safety and Standards (Food Products Standards and Food Additives) Regulations, 2011. The regulations say that no coloring matter may be added to food unless permitted in these regulations. The colors specified in these regulations, when used in the preparation of any article of food, shall be pure and free from any harmful impurities. The synthetic colors that are permitted to be used are mentioned below. Red from: Ponceau 4R, Azorubine and Erythrosine Yellow from: Tartrazine and Sunset Yellow FCF Blue from: Indigo Carmine and Brilliant Blue FCF Green from: Fast Green FCF
Ponceau 4R Ponceau 4R is a synthetic colorant that may be used as a food coloring. It is denoted by E Number E124 . Its chemical name is 1-(4-sulpho-1-napthylazo)- 2-napthol- 6,8-disulphonic acid, trisodium salt. Ponceau is the generic name for a family of azo dyes. Ponceau 4R is a strawberry red azo dye which can be used in a variety of food products and is usually synthesized from aromatic hydrocarbons. It is stable to light, heat, and acid but fades in the presence of ascorbic acid. It is used in Europe, Asia and Australia, but has not been approved by the US FDA. Ponceau 4R
Azorubine Azorubine is an azo dye produced as a disodium salt. In its dry form, the product appears red to maroon. It is mainly used in foods which are heat-treated after fermentation. It has E number E122. It is also commonly known by name Carmoisine . Azorubine has shown no evidence of mutagenic or carcinogenic properties and an acceptable daily intake (ADI) of 0–4 mg/kg was established in 1983 by the WHO. Azorubine
Erythrosine Erythrosine , also known as Red No. 3 , is an organoiodine compound, specifically a derivative of fluorone . It is cherry-pink synthetic, primarily used for food coloring. It is the disodium salt of 2,4,5,7-tetraiodofluorescein. Its maximum absorbance is at 530 nm in an aqueous solution. It is subject to photodegradation. Erythrosine
Tartrazine Tartrazine is a synthetic lemon yellow azo dye primarily used as a food coloring. It is also known as E number E102 , FD&C Yellow 5 , Acid Yellow 23 and Food Yellow 4. It is used for yellow color as such or mixed with Brilliant Blue to produce shades of green. It has potential human risks of causing sensitivity and asthma. Tartrazine
Sunset Yellow FCF Sunset Yellow FCF is a petroleum-derived orange azo dye. It has a pH dependent maximum absorption at about 480 nm at pH 1 and 443 nm at pH 13. it is denoted by E Number E110 . The acceptable daily intake (ADI) is 0–4 mg/kg. Sunset Yellow FCF has no carcinogenicity, genotoxicity, or developmental toxicity in the amounts at which it is used. Sunset Yellow FCF
Indigo Carmine Indigo carmine , or 5,5′-indigodisulfonic acid sodium salt , is an organic salt derived from Indigo . It is insoluble in water. It has the E number E132. It is also a pH indicator. This dye can cause a potentially dangerous increase in blood pressure in some cases. Indigo Carmine
Brilliant Blue FCF Brilliant Blue FCF (Blue 1) is an organic compound classified as a triarylmethane dye and a blue azo dye. It is denoted by E number E133. It is soluble in water the solution has a maximum absorption at about 628nm. Brilliant Blue FCF
Fast Green FCF Fast Green FCF is a sea green triarylmethane food dye. Its E number is E143. Fast Green FCF is poorly absorbed by the intestines. It is used as a quantitative stain for histones at alkaline pH after acid extraction of DNA. Its absorption maximum is at 625 nm. Fast Green FCF
Methods of Analysis The two mainly used analytical methods are: Spectrometric Methods Chromatographic Methods
Spectrometric Absorption Maxima of Dyes: Sr. No. Name of Dye Absorption Maxima (nm) 1. Ponceau 4R 507 2. Azorubine 516 3. Erythrosine 527 4. Tartrazine 427 5. Sunset Yellow FCF 482 6. Indigo Carmine 609 7. Brilliant Blue FCF 630 8. Fast Green FCF 624
Chromatographic Determination Chromatographic determination of dyes is a very simple procedure. The best chromatographic technique used are Paper Chromatography Thin Layer Chromatography Column Chromatography
Paper Chromatography It is very basic chromatographic technique involving no complex instrumentation. Even no complex detection systems are required because dyes being colored compounds are visible easily.
Thin Layer Chromatography It is also very simple method of detection as well as separation. It is very much similar to paper chromatography but the only difference being that TLC is based upon principle of ADSORPTION unlike PAPER which is based upon PARTITION.
Column Chromatography This method involves separation of components on the basis of their affinity for stationary phase. Image shown is comparison of Column Chromatography of a sample in relation to TLC of the same.
References Ian P. Freeman, "Margarines and Shortenings" Ullmann's Encyclopedia of Industrial Chemistry, 2005, Wiley-VCH, Weinheim doi : 10.1002/14356007.a16_145 Food Ingredients & Colors “ , International Food Information Council . June 29, 2010. Retrieved Feb 15, 2012 https://foodsafetyhelpline.com/2016/07/function-of-colours-in-food-and-colours-permitted-by-fssai-in-foods/ ~Accessed on 23/10/2018 http://www.chem.ucla.edu/~harding/IGOC/C/chromatography.html ~Accessed on 24/10/2018
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