fbpx
Wikipedia

Food additive

April 28, 2023

Food additives are substances added to food to preserve flavor or enhance taste, appearance, or other sensory qualities. Some additives have been used for centuries as part of an effort to preserve food, for example vinegar (pickling), salt (salting), smoke (smoking), sugar (crystallization), etc. This allows for longer-lasting foods such as bacon, sweets or wines. With the advent of processed foods in the second half of the twentieth century, many additives have been introduced, of both natural and artificial origin. Food additives also include substances that may be introduced to food indirectly (called "indirect additives") in the manufacturing process, through packaging, or during storage or transport.[1][2]

The different forms of emulsifier lecithin – powder, two different concentration liquids, granular and powder lecithin

Numbering

To regulate these additives and inform consumers, each additive is assigned a unique number called an "E number", which is used in Europe for all approved additives. This numbering scheme has now been adopted and extended by the Codex Alimentarius Commission to internationally identify all additives,[3] regardless of whether they are approved for use.

E numbers are all prefixed by "E", but countries outside Europe use only the number, whether the additive is approved in Europe or not. For example, acetic acid is written as E260 on products sold in Europe, but is simply known as additive 260 in some countries. Additive 103, alkannin, is not approved for use in Europe so does not have an E number, although it is approved for use in Australia and New Zealand. Since 1987, Australia has had an approved system of labelling for additives in packaged foods. Each food additive has to be named or numbered. The numbers are the same as in Europe, but without the prefix "E".[citation needed]

The United States Food and Drug Administration (FDA) lists these items as "generally recognized as safe" (GRAS);[4] they are listed under both their Chemical Abstracts Service number and FDA regulation under the United States Code of Federal Regulations.

Categories

Food additives can be divided into several groups, although there is some overlap because some additives exert more than one effect. For example, salt is both a preservative as well as a flavor.[5][1]

Acidulants
Acidulants confer sour or acid taste. Common acidulants include vinegar, citric acid, tartaric acid, malic acid, fumaric acid, and lactic acid.
Acidity regulators
Acidity regulators are used for controlling the pH of foods for stability or to affect activity of enzymes.
Anticaking agents
Anticaking agents keep powders such as milk powder from caking or sticking.
Antifoaming and foaming agents
Antifoaming agents reduce or prevent foaming in foods. Foaming agents do the reverse.
Antioxidants
Antioxidants such as vitamin C are preservatives by inhibiting the degradation of food by oxygen.

Bulking agents
Bulking agents such as starch are additives that increase the bulk of a food without affecting its taste.
Food coloring
Colorings are added to food to replace colors lost during preparation or to make food look more attractive.
Fortifying agents
Vitamins, minerals, and dietary supplements to increase the nutritional value
Color retention agents
In contrast to colorings, color retention agents are used to preserve a food's existing color.
Emulsifiers
Emulsifiers allow water and oils to remain mixed together in an emulsion, as in mayonnaise, ice cream, and homogenized milk.
Flavorings*
Flavorings are additives that give food a particular taste or smell, and may be derived from natural ingredients or created artificially.
*In EU, flavorings do not have an E-code and they are not considered as food additives.
Flavor enhancers
Flavor enhancers enhance a food's existing flavors. A popular example is monosodium glutamate. Some flavor enhancers have their own flavors that are independent of the food.
Flour treatment agents
Flour treatment agents are added to flour to improve its color or its use in baking.
Glazing agents
Glazing agents provide a shiny appearance or protective coating to foods.
Humectants
Humectants prevent foods from drying out.
Tracer gas
Tracer gas allows for package integrity testing to prevent foods from being exposed to atmosphere, thus guaranteeing shelf life.
Preservatives
Preservatives prevent or inhibit spoilage of food due to fungi, bacteria and other microorganisms.
Stabilizers
Stabilizers, thickeners and gelling agents, like agar or pectin (used in jam for example) give foods a firmer texture. While they are not true emulsifiers, they help to stabilize emulsions.
Sweeteners
Sweeteners are added to foods for flavoring. Sweeteners other than sugar are added to keep the food energy (calories) low, or because they have beneficial effects regarding diabetes mellitus, tooth decay, or diarrhea.
Thickeners
Thickening agents are substances which, when added to the mixture, increase its viscosity without substantially modifying its other properties.
Packaging
Bisphenols, phthalates, and perfluoroalkyl chemicals (PFCs) are indirect additives used in manufacturing or packaging. In July 2018 the American Academy of Pediatrics called for more careful study of those three substances, along with nitrates and food coloring, as they might harm children during development.[6]

Safety and regulation

With the increasing use of processed foods since the 19th century, food additives are more widely used. Many countries regulate their use. For example, boric acid was widely used as a food preservative from the 1870s to the 1920s,[7][8] but was banned after World War I due to its toxicity, as demonstrated in animal and human studies. During World War II, the urgent need for cheap, available food preservatives led to it being used again, but it was finally banned in the 1950s.[7] Such cases led to a general mistrust of food additives, and an application of the precautionary principle led to the conclusion that only additives that are known to be safe should be used in foods. In the United States, this led to the adoption of the Delaney clause, an amendment to the Federal Food, Drug, and Cosmetic Act of 1938, stating that no carcinogenic substances may be used as food additives.[9] However, after the banning of cyclamates in the United States and Britain in 1969, saccharin, the only remaining legal artificial sweetener at the time, was found to cause cancer in rats.[10] Widespread public outcry in the United States, partly communicated to Congress by postage-paid postcards supplied in the packaging of sweetened soft drinks, led to the retention of saccharin, despite its violation of the Delaney clause.[11] However, in 2000, saccharin was found to be carcinogenic in rats due only to their unique urine chemistry.[12][13]

In 2007, Food Standards Australia New Zealand published an official shoppers' guidance with which the concerns of food additives and their labeling are mediated.[14] In the EU it can take 10 years or more to obtain approval for a new food additive. This includes five years of safety testing, followed by two years for evaluation by the European Food Safety Authority (EFSA) and another three years before the additive receives an EU-wide approval for use in every country in the European Union.[15] Apart from testing and analyzing food products during the whole production process to ensure safety and compliance with regulatory standards, Trading Standards officers (in the UK) protect the public from any illegal use or potentially dangerous mis-use of food additives by performing random testing of food products.[16]

There has been significant controversy associated with the risks and benefits of food additives.[17] Natural additives may be similarly harmful or be the cause of allergic reactions in certain individuals. For example, safrole was used to flavor root beer until it was shown to be carcinogenic. Due to the application of the Delaney clause, it may not be added to foods, even though it occurs naturally in sassafras and sweet basil.[18]

Hyperactivity

Periodically, concerns have been expressed about a linkage between additives and hyperactivity,[19] however "no clear evidence of ADHD was provided".[20]

Toxicity

In 2012, the EFSA proposed the tier approach to evaluate the potential toxicity of food additives. It is based on four dimensions: toxicokinetics (absorption, distribution, metabolism and excretion); genotoxicity; subchronic (at least 90 data) and chronic toxicity and carcinogenity; reproductive and developmental toxicity.[21] Recent work has demonstrated that certain food additives such as carboxymethylcellulose may cause encroachment of microbes from the gastrointestinal tract into the protective mucus layer that lines the intestines.[22] Additional preclinical work suggests that emulsifiers may disrupt the gut microbiome, cause or exacerbate inflammation, and increase intestinal permeability.[23] Other food additives in processed foods, such as xanthan gum, have also been shown to influence the ecology of human gut microbiomes and may play a role in the divergence of gut microbiomes in industrialized societies as compared to pre-industrialized societies.[24] Although still controversial, some scientists hypothesize that these changes to human gut microbiomes may be a contributing factor to the rise in chronic inflammatory diseases in industrialized populations.[25]

Micronutrients

A subset of food additives, micronutrients added in food fortification processes preserve nutrient value by providing vitamins and minerals to foods such as flour, cereal, margarine and milk which normally would not retain such high levels.[26] Added ingredients, such as air, bacteria, fungi, and yeast, also contribute manufacturing and flavor qualities, and reduce spoilage.[27]

Food Additive Approval in the United States

The United States Food and Drug Administration (FDA) defines a food additive as "any substance the intended use of which results or may reasonably be expected to result directly or indirectly in its becoming a component or otherwise affecting the characteristics of any food".[28] In order for a novel food additive to be approved in the U.S., a food additive approval petition (FAP) must be submitted to the FDA.[29] The identity of the ingredient, the proposed use in the food system, the technical effect of the ingredient, a method of analysis for the ingredient in foods, information on the manufacturing process, and full safety reports must be defined in a FAP.[30] For FDA approval of a FAP, the FDA evaluates the chemical composition of the ingredient, the quantities that would be typically consumed, acute and chronic health impacts, and other safety factors.[28] The FDA reviews the petition prior to market approval of the additive.[citation needed]

Standardization of its derived products

ISO has published a series of standards regarding the topic and these standards are covered by ICS 67.220.[31]

See also

References

  1. ^ a b "Food Additives & Ingredients - Overview of Food Ingredients, Additives & Colors". FDA Center for Food Safety and Applied Nutrition. Retrieved 11 April 2017.
  2. ^ "Food Ingredients and Packaging Terms". FDA. January 4, 2018. Retrieved 9 September 2018.
  3. ^ Codex Alimentarius. "Class Names and the International Numbering System for Food Additives" (PDF).
  4. ^ See also "Food Additives", Food and Drug Administration website
  5. ^ Erich Lück and Gert-Wolfhard von Rymon Lipinski "Foods, 3. Food Additives" in Ullmann's Encyclopedia of Industrial Chemistry, 2002, Wiley-VCH, Weinheim. doi:10.1002/14356007.a11_561
  6. ^ "Press release: Some Common Food Additives May Pose Health Risks to Children". American Academy of Pediatrics. July 23, 2018.
  7. ^ a b Bucci, Luke (1995). Nutrition applied to injury rehabilitation and sports medicine. Boca Raton: CRC Press. pp. 151. ISBN 0-8493-7913-X.
  8. ^ Rev. Lyman Abbott, ed. (1900). The Outlook (Vol. 65). Outlook Co. p. 403.
  9. ^ Epstein, S (March 1973). "The Delaney Amendment". Preventive Medicine. 2 (1): 140–149. doi:10.1016/0091-7435(73)90016-9. PMID 4803324.
  10. ^ Reuber, M D (August 1978). "Carcinogenicity of saccharin". Environmental Health Perspectives. 25: 173–200. doi:10.1289/ehp.7825173. ISSN 0091-6765. PMC 1637197. PMID 363408.
  11. ^ Assessment of technologies for determining cancer risks from the environment. Darby, Pennsylvania, USA: DIANE publishing. 1981. p. 177. ISBN 1-4289-2437-X.
  12. ^ Whysner, J.; Williams, GM. (1996). "Saccharin mechanistic data and risk assessment: urine composition, enhanced cell proliferation, and tumor promotion". Pharmacol Ther. 71 (1–2): 225–52. doi:10.1016/0163-7258(96)00069-1. PMID 8910956.
  13. ^ Dybing, E. (December 2002). "Development and implementation of the IPCS conceptual framework for evaluating mode of action of chemical carcinogens". Toxicology. 181–182: 121–5. doi:10.1016/S0300-483X(02)00266-4. PMID 12505296.
  14. ^ Food Standards Australia New Zealand (2007). . Archived from the original on 14 May 2009. Retrieved 3 May 2009.
  15. ^ "Loading..." www.understandingfoodadditives.org.
  16. ^ "Loading..." www.understandingfoodadditives.org.
  17. ^ Martin Downs, MPH (17 December 2008). "The Truth About 7 Common Food Additives". WebMD.
  18. ^ Fennema, Owen R. (1996). Food chemistry. New York, N.Y: Marcel Dekker. pp. 827. ISBN 0-8247-9691-8.
  19. ^ McCann, D; Barrett, A; Cooper, A; Crumpler, D; Dalen, L; Grimshaw, K; Kitchin, E; Lok, K; et al. (2007). "Food additives and hyperactive behaviour in 3-year-old and 8/9-year-old children in the community: a randomised, double-blinded, placebo-controlled trial". Lancet. 370 (9598): 1560–7. doi:10.1016/S0140-6736(07)61306-3. PMID 17825405. S2CID 10654579.
  20. ^ Amchova, Petra; Kotolova, Hana; Ruda-Kucerova, Jana "Health safety issues of synthetic food colorants" Regulatory Toxicology and Pharmacology (2015), 73(3), 914-922.doi:10.1016/j.yrtph.2015.09.026
  21. ^ Vettorazzi, Ariane; López De Cerain, Adela; Sanz-Serrano, Julen; Gil, Ana G.; Azqueta, Amaya (2020). "European Regulatory Framework and Safety Assessment of Food-Related Bioactive Compounds". Nutrients. 12 (3): 613. doi:10.3390/nu12030613. PMC 7146632. PMID 32110982.
  22. ^ Chassaing, Benoit; Compher, Charlene; Bonhomme, Brittaney; Liu, Qing; Tian, Yuan; Walters, William; Nessel, Lisa; Delaroque, Clara; Hao, Fuhua; Gershuni, Victoria; Chau, Lillian; Ni, Josephine; Bewtra, Meenakshi; Albenberg, Lindsey; Bretin, Alexis; McKeever, Liam; Ley, Ruth E.; Patterson, Andrew D.; Wu, Gary D.; Gewirtz, Andrew T.; Lewis, James D. (March 2022). "Randomized Controlled-Feeding Study of Dietary Emulsifier Carboxymethylcellulose Reveals Detrimental Impacts on the Gut Microbiota and Metabolome". Gastroenterology. 162 (3): 743–756. doi:10.1053/j.gastro.2021.11.006. PMC 9639366. PMID 34774538. S2CID 244050800.
  23. ^ Chassaing, Benoit; Koren, Omry; Goodrich, Julia K.; Poole, Angela C.; Srinivasan, Shanthi; Ley, Ruth E.; Gewirtz, Andrew T. (5 March 2015). "Dietary emulsifiers impact the mouse gut microbiota promoting colitis and metabolic syndrome". Nature. 519 (7541): 92–96. Bibcode:2015Natur.519...92C. doi:10.1038/nature14232. PMC 4910713. PMID 25731162.
  24. ^ Ostrowski, Matthew P.; La Rosa, Sabina Leanti; Kunath, Benoit J.; Robertson, Andrew; Pereira, Gabriel; Hagen, Live H.; Varghese, Neha J.; Qiu, Ling; Yao, Tianming; Flint, Gabrielle; Li, James; McDonald, Sean P.; Buttner, Duna; Pudlo, Nicholas A.; Schnizlein, Matthew K.; Young, Vincent B.; Brumer, Harry; Schmidt, Thomas M.; Terrapon, Nicolas; Lombard, Vincent; Henrissat, Bernard; Hamaker, Bruce; Eloe-Fadrosh, Emiley A.; Tripathi, Ashootosh; Pope, Phillip B.; Martens, Eric C. (April 2022). "Mechanistic insights into consumption of the food additive xanthan gum by the human gut microbiota". Nature Microbiology. 7 (4): 556–569. doi:10.1038/s41564-022-01093-0. PMID 35365790. S2CID 247866305.
  25. ^ Sonnenburg, Erica D.; Sonnenburg, Justin L. (June 2019). "The ancestral and industrialized gut microbiota and implications for human health". Nature Reviews Microbiology. 17 (6): 383–390. doi:10.1038/s41579-019-0191-8. PMID 31089293. S2CID 153314897.
  26. ^ Weaver, Connie M; Dwyer, Johanna; Fulgoni, Victor L; King, Janet C; Leveille, Gilbert A; MacDonald, Ruth S; Ordovas, Jose; Schnakenberg, David (23 April 2014). "Processed foods: contributions to nutrition". American Journal of Clinical Nutrition. 99 (6): 1525–1542. doi:10.3945/ajcn.114.089284. ISSN 0002-9165. PMC 6410904. PMID 24760975.
  27. ^ "Food processing: The advantages of processed foods". The European Food Information Council. 1 May 2010. Retrieved 5 August 2019.
  28. ^ a b Nutrition, Center for Food Safety and Applied (2020-02-20). "Overview of Food Ingredients, Additives & Colors". FDA.
  29. ^ "PART 171—FOOD ADDITIVE PETITIONS", The CRC Master Keyword Guide for Food, CRC Press, pp. 596–601, 2003-11-25, doi:10.1201/9780203504529-50, ISBN 9780429211027, retrieved 2021-10-13
  30. ^ Nutrition, Center for Food Safety and Applied (2021-09-17). "Guidance for Industry: Recommendations for Submission of Chemical and Technological Data for Direct Food Additive Petitions". U.S. Food and Drug Administration. Retrieved 2021-09-29.
  31. ^ International Organization for Standardization. "67.220: Spices and condiments. Food additives". Retrieved 23 April 2009.

Additional sources

  • U.S. Food and Drug Administration. (1991). Everything Added to Food in the United States. Boca Raton, Florida: C.K. Smoley (c/o CRC Press, Inc.).
  • The Food Labelling Regulations (1984)
  • Advanced Modular Science, Nelson, Food and Health, by John Adds, Erica Larkcom and Ruth Miller

External links

  • Food Trade's Juicy Secrets by John Triggs in the Daily Express July 17, 2007
  • i.e. Castor oil, etc.
  • CSPI's guide to food additives, ()
  • Evaluation of certain Food Additives and Contaminants; Sixty-first report of the Joint FAO/WHO Expert Committee on Food Additives

April 28, 2023
food, additive, substances, added, food, preserve, flavor, enhance, taste, appearance, other, sensory, qualities, some, additives, have, been, used, centuries, part, effort, preserve, food, example, vinegar, pickling, salt, salting, smoke, smoking, sugar, crys. Food additives are substances added to food to preserve flavor or enhance taste appearance or other sensory qualities Some additives have been used for centuries as part of an effort to preserve food for example vinegar pickling salt salting smoke smoking sugar crystallization etc This allows for longer lasting foods such as bacon sweets or wines With the advent of processed foods in the second half of the twentieth century many additives have been introduced of both natural and artificial origin Food additives also include substances that may be introduced to food indirectly called indirect additives in the manufacturing process through packaging or during storage or transport 1 2 The different forms of emulsifier lecithin powder two different concentration liquids granular and powder lecithin Contents 1 Numbering 1 1 Categories 2 Safety and regulation 2 1 Hyperactivity 2 2 Toxicity 2 3 Micronutrients 3 Food Additive Approval in the United States 4 Standardization of its derived products 5 See also 6 References 7 Additional sources 8 External linksNumbering EditTo regulate these additives and inform consumers each additive is assigned a unique number called an E number which is used in Europe for all approved additives This numbering scheme has now been adopted and extended by the Codex Alimentarius Commission to internationally identify all additives 3 regardless of whether they are approved for use E numbers are all prefixed by E but countries outside Europe use only the number whether the additive is approved in Europe or not For example acetic acid is written as E260 on products sold in Europe but is simply known as additive 260 in some countries Additive 103 alkannin is not approved for use in Europe so does not have an E number although it is approved for use in Australia and New Zealand Since 1987 Australia has had an approved system of labelling for additives in packaged foods Each food additive has to be named or numbered The numbers are the same as in Europe but without the prefix E citation needed The United States Food and Drug Administration FDA lists these items as generally recognized as safe GRAS 4 they are listed under both their Chemical Abstracts Service number and FDA regulation under the United States Code of Federal Regulations See list of food additives for a complete list of all the names citation needed Categories Edit Food additives can be divided into several groups although there is some overlap because some additives exert more than one effect For example salt is both a preservative as well as a flavor 5 1 Acidulants Acidulants confer sour or acid taste Common acidulants include vinegar citric acid tartaric acid malic acid fumaric acid and lactic acid Acidity regulators Acidity regulators are used for controlling the pH of foods for stability or to affect activity of enzymes Anticaking agents Anticaking agents keep powders such as milk powder from caking or sticking Antifoaming and foaming agents Antifoaming agents reduce or prevent foaming in foods Foaming agents do the reverse Antioxidants Antioxidants such as vitamin C are preservatives by inhibiting the degradation of food by oxygen Bulking agents Bulking agents such as starch are additives that increase the bulk of a food without affecting its taste Food coloring Colorings are added to food to replace colors lost during preparation or to make food look more attractive Fortifying agents Vitamins minerals and dietary supplements to increase the nutritional value Color retention agents In contrast to colorings color retention agents are used to preserve a food s existing color Emulsifiers Emulsifiers allow water and oils to remain mixed together in an emulsion as in mayonnaise ice cream and homogenized milk Flavorings Flavorings are additives that give food a particular taste or smell and may be derived from natural ingredients or created artificially In EU flavorings do not have an E code and they are not considered as food additives Flavor enhancers Flavor enhancers enhance a food s existing flavors A popular example is monosodium glutamate Some flavor enhancers have their own flavors that are independent of the food Flour treatment agents Flour treatment agents are added to flour to improve its color or its use in baking Glazing agents Glazing agents provide a shiny appearance or protective coating to foods Humectants Humectants prevent foods from drying out Tracer gas Tracer gas allows for package integrity testing to prevent foods from being exposed to atmosphere thus guaranteeing shelf life Preservatives Preservatives prevent or inhibit spoilage of food due to fungi bacteria and other microorganisms Stabilizers Stabilizers thickeners and gelling agents like agar or pectin used in jam for example give foods a firmer texture While they are not true emulsifiers they help to stabilize emulsions Sweeteners Sweeteners are added to foods for flavoring Sweeteners other than sugar are added to keep the food energy calories low or because they have beneficial effects regarding diabetes mellitus tooth decay or diarrhea Thickeners Thickening agents are substances which when added to the mixture increase its viscosity without substantially modifying its other properties Packaging Bisphenols phthalates and perfluoroalkyl chemicals PFCs are indirect additives used in manufacturing or packaging In July 2018 the American Academy of Pediatrics called for more careful study of those three substances along with nitrates and food coloring as they might harm children during development 6 Safety and regulation EditWith the increasing use of processed foods since the 19th century food additives are more widely used Many countries regulate their use For example boric acid was widely used as a food preservative from the 1870s to the 1920s 7 8 but was banned after World War I due to its toxicity as demonstrated in animal and human studies During World War II the urgent need for cheap available food preservatives led to it being used again but it was finally banned in the 1950s 7 Such cases led to a general mistrust of food additives and an application of the precautionary principle led to the conclusion that only additives that are known to be safe should be used in foods In the United States this led to the adoption of the Delaney clause an amendment to the Federal Food Drug and Cosmetic Act of 1938 stating that no carcinogenic substances may be used as food additives 9 However after the banning of cyclamates in the United States and Britain in 1969 saccharin the only remaining legal artificial sweetener at the time was found to cause cancer in rats 10 Widespread public outcry in the United States partly communicated to Congress by postage paid postcards supplied in the packaging of sweetened soft drinks led to the retention of saccharin despite its violation of the Delaney clause 11 However in 2000 saccharin was found to be carcinogenic in rats due only to their unique urine chemistry 12 13 In 2007 Food Standards Australia New Zealand published an official shoppers guidance with which the concerns of food additives and their labeling are mediated 14 In the EU it can take 10 years or more to obtain approval for a new food additive This includes five years of safety testing followed by two years for evaluation by the European Food Safety Authority EFSA and another three years before the additive receives an EU wide approval for use in every country in the European Union 15 Apart from testing and analyzing food products during the whole production process to ensure safety and compliance with regulatory standards Trading Standards officers in the UK protect the public from any illegal use or potentially dangerous mis use of food additives by performing random testing of food products 16 There has been significant controversy associated with the risks and benefits of food additives 17 Natural additives may be similarly harmful or be the cause of allergic reactions in certain individuals For example safrole was used to flavor root beer until it was shown to be carcinogenic Due to the application of the Delaney clause it may not be added to foods even though it occurs naturally in sassafras and sweet basil 18 Hyperactivity Edit Periodically concerns have been expressed about a linkage between additives and hyperactivity 19 however no clear evidence of ADHD was provided 20 Toxicity Edit In 2012 the EFSA proposed the tier approach to evaluate the potential toxicity of food additives It is based on four dimensions toxicokinetics absorption distribution metabolism and excretion genotoxicity subchronic at least 90 data and chronic toxicity and carcinogenity reproductive and developmental toxicity 21 Recent work has demonstrated that certain food additives such as carboxymethylcellulose may cause encroachment of microbes from the gastrointestinal tract into the protective mucus layer that lines the intestines 22 Additional preclinical work suggests that emulsifiers may disrupt the gut microbiome cause or exacerbate inflammation and increase intestinal permeability 23 Other food additives in processed foods such as xanthan gum have also been shown to influence the ecology of human gut microbiomes and may play a role in the divergence of gut microbiomes in industrialized societies as compared to pre industrialized societies 24 Although still controversial some scientists hypothesize that these changes to human gut microbiomes may be a contributing factor to the rise in chronic inflammatory diseases in industrialized populations 25 Micronutrients Edit A subset of food additives micronutrients added in food fortification processes preserve nutrient value by providing vitamins and minerals to foods such as flour cereal margarine and milk which normally would not retain such high levels 26 Added ingredients such as air bacteria fungi and yeast also contribute manufacturing and flavor qualities and reduce spoilage 27 Food Additive Approval in the United States EditThe United States Food and Drug Administration FDA defines a food additive as any substance the intended use of which results or may reasonably be expected to result directly or indirectly in its becoming a component or otherwise affecting the characteristics of any food 28 In order for a novel food additive to be approved in the U S a food additive approval petition FAP must be submitted to the FDA 29 The identity of the ingredient the proposed use in the food system the technical effect of the ingredient a method of analysis for the ingredient in foods information on the manufacturing process and full safety reports must be defined in a FAP 30 For FDA approval of a FAP the FDA evaluates the chemical composition of the ingredient the quantities that would be typically consumed acute and chronic health impacts and other safety factors 28 The FDA reviews the petition prior to market approval of the additive citation needed Standardization of its derived products EditISO has published a series of standards regarding the topic and these standards are covered by ICS 67 220 31 See also Edit Food portalColor retention agent Delaney clause Dietary supplement E number Food Chemicals Codex Food fortification Food industry Food processing Food supplements Joint FAO WHO Expert Committee on Food Additives List of food additives List of food additives Codex Alimentarius List of food labeling regulations List of phytochemicals in food Organic fertilizer Pink slime Processing aid Smoking Sugar substituteReferences Edit a b Food Additives amp Ingredients Overview of Food Ingredients Additives amp Colors FDA Center for Food Safety and Applied Nutrition Retrieved 11 April 2017 Food Ingredients and Packaging Terms FDA January 4 2018 Retrieved 9 September 2018 Codex Alimentarius Class Names and the International Numbering System for Food Additives PDF See also Food Additives Food and Drug Administration website Erich Luck and Gert Wolfhard von Rymon Lipinski Foods 3 Food Additives in Ullmann s Encyclopedia of Industrial Chemistry 2002 Wiley VCH Weinheim doi 10 1002 14356007 a11 561 Press release Some Common Food Additives May Pose Health Risks to Children American Academy of Pediatrics July 23 2018 a b Bucci Luke 1995 Nutrition applied to injury rehabilitation and sports medicine Boca Raton CRC Press pp 151 ISBN 0 8493 7913 X Rev Lyman Abbott ed 1900 The Outlook Vol 65 Outlook Co p 403 Epstein S March 1973 The Delaney Amendment Preventive Medicine 2 1 140 149 doi 10 1016 0091 7435 73 90016 9 PMID 4803324 Reuber M D August 1978 Carcinogenicity of saccharin Environmental Health Perspectives 25 173 200 doi 10 1289 ehp 7825173 ISSN 0091 6765 PMC 1637197 PMID 363408 Assessment of technologies for determining cancer risks from the environment Darby Pennsylvania USA DIANE publishing 1981 p 177 ISBN 1 4289 2437 X Whysner J Williams GM 1996 Saccharin mechanistic data and risk assessment urine composition enhanced cell proliferation and tumor promotion Pharmacol Ther 71 1 2 225 52 doi 10 1016 0163 7258 96 00069 1 PMID 8910956 Dybing E December 2002 Development and implementation of the IPCS conceptual framework for evaluating mode of action of chemical carcinogens Toxicology 181 182 121 5 doi 10 1016 S0300 483X 02 00266 4 PMID 12505296 Food Standards Australia New Zealand 2007 Choosing the Right Stuff the official shoppers guide to food additives and labels kilojoules and fat content Archived from the original on 14 May 2009 Retrieved 3 May 2009 Loading www understandingfoodadditives org Loading www understandingfoodadditives org Martin Downs MPH 17 December 2008 The Truth About 7 Common Food Additives WebMD Fennema Owen R 1996 Food chemistry New York N Y Marcel Dekker pp 827 ISBN 0 8247 9691 8 McCann D Barrett A Cooper A Crumpler D Dalen L Grimshaw K Kitchin E Lok K et al 2007 Food additives and hyperactive behaviour in 3 year old and 8 9 year old children in the community a randomised double blinded placebo controlled trial Lancet 370 9598 1560 7 doi 10 1016 S0140 6736 07 61306 3 PMID 17825405 S2CID 10654579 Amchova Petra Kotolova Hana Ruda Kucerova Jana Health safety issues of synthetic food colorants Regulatory Toxicology and Pharmacology 2015 73 3 914 922 doi 10 1016 j yrtph 2015 09 026 Vettorazzi Ariane Lopez De Cerain Adela Sanz Serrano Julen Gil Ana G Azqueta Amaya 2020 European Regulatory Framework and Safety Assessment of Food Related Bioactive Compounds Nutrients 12 3 613 doi 10 3390 nu12030613 PMC 7146632 PMID 32110982 Chassaing Benoit Compher Charlene Bonhomme Brittaney Liu Qing Tian Yuan Walters William Nessel Lisa Delaroque Clara Hao Fuhua Gershuni Victoria Chau Lillian Ni Josephine Bewtra Meenakshi Albenberg Lindsey Bretin Alexis McKeever Liam Ley Ruth E Patterson Andrew D Wu Gary D Gewirtz Andrew T Lewis James D March 2022 Randomized Controlled Feeding Study of Dietary Emulsifier Carboxymethylcellulose Reveals Detrimental Impacts on the Gut Microbiota and Metabolome Gastroenterology 162 3 743 756 doi 10 1053 j gastro 2021 11 006 PMC 9639366 PMID 34774538 S2CID 244050800 Chassaing Benoit Koren Omry Goodrich Julia K Poole Angela C Srinivasan Shanthi Ley Ruth E Gewirtz Andrew T 5 March 2015 Dietary emulsifiers impact the mouse gut microbiota promoting colitis and metabolic syndrome Nature 519 7541 92 96 Bibcode 2015Natur 519 92C doi 10 1038 nature14232 PMC 4910713 PMID 25731162 Ostrowski Matthew P La Rosa Sabina Leanti Kunath Benoit J Robertson Andrew Pereira Gabriel Hagen Live H Varghese Neha J Qiu Ling Yao Tianming Flint Gabrielle Li James McDonald Sean P Buttner Duna Pudlo Nicholas A Schnizlein Matthew K Young Vincent B Brumer Harry Schmidt Thomas M Terrapon Nicolas Lombard Vincent Henrissat Bernard Hamaker Bruce Eloe Fadrosh Emiley A Tripathi Ashootosh Pope Phillip B Martens Eric C April 2022 Mechanistic insights into consumption of the food additive xanthan gum by the human gut microbiota Nature Microbiology 7 4 556 569 doi 10 1038 s41564 022 01093 0 PMID 35365790 S2CID 247866305 Sonnenburg Erica D Sonnenburg Justin L June 2019 The ancestral and industrialized gut microbiota and implications for human health Nature Reviews Microbiology 17 6 383 390 doi 10 1038 s41579 019 0191 8 PMID 31089293 S2CID 153314897 Weaver Connie M Dwyer Johanna Fulgoni Victor L King Janet C Leveille Gilbert A MacDonald Ruth S Ordovas Jose Schnakenberg David 23 April 2014 Processed foods contributions to nutrition American Journal of Clinical Nutrition 99 6 1525 1542 doi 10 3945 ajcn 114 089284 ISSN 0002 9165 PMC 6410904 PMID 24760975 Food processing The advantages of processed foods The European Food Information Council 1 May 2010 Retrieved 5 August 2019 a b Nutrition Center for Food Safety and Applied 2020 02 20 Overview of Food Ingredients Additives amp Colors FDA PART 171 FOOD ADDITIVE PETITIONS The CRC Master Keyword Guide for Food CRC Press pp 596 601 2003 11 25 doi 10 1201 9780203504529 50 ISBN 9780429211027 retrieved 2021 10 13 Nutrition Center for Food Safety and Applied 2021 09 17 Guidance for Industry Recommendations for Submission of Chemical and Technological Data for Direct Food Additive Petitions U S Food and Drug Administration Retrieved 2021 09 29 International Organization for Standardization 67 220 Spices and condiments Food additives Retrieved 23 April 2009 Additional sources EditU S Food and Drug Administration 1991 Everything Added to Food in the United States Boca Raton Florida C K Smoley c o CRC Press Inc The Food Labelling Regulations 1984 Advanced Modular Science Nelson Food and Health by John Adds Erica Larkcom and Ruth MillerExternal links EditFood Trade s Juicy Secrets by John Triggs in the Daily Express July 17 2007 Everything Added to Food in the United States EAFUS i e Castor oil etc EU legislation on food additives CSPI s guide to food additives PDF Food Standards Australia and New Zealand page on food additives Evaluation of certain Food Additives and Contaminants Sixty first report of the Joint FAO WHO Expert Committee on Food Additives Retrieved from https en wikipedia org w index php title Food additive amp oldid 1149054763, wikipedia, wiki, book, books, library,

article

, read, download, free, free download, mp3, video, mp4, 3gp, jpg, jpeg, gif, png, picture, music, song, movie, book, game, games.