Food Additives

Food additive refers to a kind of natural or artificially synthetic chemicals which can improve the sensory properties (color, smell, taste) of food and food quality. To the adult foods, we can add some additives according to the China's health standards. However, the food additives should be strictly controlled to be applied to infant foods. Infant body has a relative weak detoxification mechanisms or protection mechanisms, being likely to cause the accumulation of large quantities of chemical substances. The World Health Organization and many countries have specified that food additives are not allowed to be supplemented to the infant food. Children's food should also be limited from using of food additives such as saccharin, colorings and flavors. Especially, for the food of baby of less than 12-week-old such as infant formula and cereal products, they should be completely free of food additives.

Classification of the food additives: Food additives can be divided into two categories including natural food additives and synthetic food additives. Natural food additive is obtained through using animal and plant or microbial metabolites as raw materials and further extraction. Chemical synthetic additives are obtained through de novo synthesis using chemical substances as raw materials. According to the usage purpose and the nature of chemicals, food additives can be divided into various categories, namely:
(1) acid, alkali, salt;
(2) bulking agent;
(3) antioxidant and synergist;
(4) the carrier solvent ;
(5) edible pigment;
(6) emulsifier, stabilizer and thickener;
(7) enzyme preparation for food processing;
(8) antifoaming agent;
(9) the flavorant
(10) bleaching agent;
(11) color former;
(12) quality improver;
(13) sweetener;
(14) preservative;
(15) sour agent;
(16) anti-caking agent;
(17) coagulant and others.

Food additives are not basic ingredients of food. The role of food additives in baked foods:
① it can facilitate the preservation of food, prevent the corruption and deterioration of food. A variety of fresh food, such as vegetable oils, margarine, biscuits, bread, cakes, moon cake, etc., if not subject to timely processing or improper processing, often get corrupted and deteriorated, causing great losses. Antiseptic, antifungal agents, antioxidants can be applied to prevent the food spoilage caused by microorganisms and oxidation, thus extending the shelf life of food.
② It can be used to improve the sensory quality of food. The color, smell, taste, shape and texture of food are all important indicators for measuring the quality of the food. After the food processing, some are faded, some can get discoloration, such as birthday cake of mounting patterns; some food can get worsen taste and changed flavor, texture and mouthfeel; Appropriate application of emulsifiers, thickeners, coloring agents, flavors, sweeteners, sour agents, flavor agents, quality improvers and leavening agents can significantly improve the sensory quality of food to meet the different requirements of the people.
③ It can be used for maintaining or improving the nutritional value of food. Food processing often may often cause some loss of nutrients. From this perspective, during food processing, addition of appropriate amount of some kind of nutrients supplement belonging to the natural range of food nutrition can greatly improve the nutritional value of food. The applications of food preservatives and antioxidants, while preventing corrupt deterioration food, also play a significant role in maintaining the nutritional value.
④ increase the variety and convenience of the food. There are dazzling variety of food on the market for consumers to choose with most of them being dependent on anti-corruption, anti-oxidation, emulsification, thickening, and the results of different coloring, flavoring, seasonings and even combination of a variety of other food additives. It is these various kinds of foods that give great convenience to the many people's lives and work.
⑤ Application of flour treatment agents, thickening stabilizers and emulsifiers in food processing can facilitate the food processing operations and the mechanization and automation of the production.
⑥ It can be used to meet the different requirements of people. For example, patients of diabetes can’t eat sugar; then you can use non-nutritive sweeteners or low-calorie sweetener to manufacture sugar-free food and low-sugar low-energy food.

The hazards of food additives; food additives, in addition to the beneficial effects mentioned above, may also have certain dangers, especially for some species of them which have already contained certain toxicity themselves. Particularly in recent times, people have been more and more concerned about the potential hazards of long-term intake of food additives may bring. The most attention and worry currently are still on the potential harm caused by the potential carcinogenic and teratogenic effect of some synthetic food pigment. Sodium nitrite has long been applied as the color fixative and color former of meat products. In addition to its capability of endowing meat products with beautiful, bright red color and enhanced meat flavor, the more important effect is its preservative effect which can inhibit various kinds of anaerobic Clostridium, especially Clostridium botulinum, preventing botulism. Once botulism occurs, there is a possibility of danger to human life. Therefore, sodium nitrite has an important role in meat processing and preservation.

However, it is now not only realized that it itself is of great toxicity, and further found that nitrite can react with secondary amines to generate nitrosamines with strong carcinogenic effect. So far there has been not yet of ideal item that can act as substitute of sodium nitrite, there has been also no evidence for human consumption of meat products in low doses that causes cancer, therefore, currently, people are mainly take measures such as reducing the amount, strictly controlling the residual amount and applying ascorbic acid simultaneously to prevent the generation of nitrosamines, reducing the threat it brings. Therefore, it is still allowed to be applied currently around the world under the precondition of being subject to strict control of its usage range, usage amount and residues amount.

The safe application of food additives: the most important features for food additives are safety and effectiveness. Among them, security is more important. To guarantee the safe application of food additives, people must conduct safety evaluation on them. The safety evaluation is comprehensive in accordance with national standards and sanitary requirements and based on the producing technology, the physical and chemical properties, quality standards, effect, scope, amount, toxicological evaluation and testing methods of the food additives. Among them, the most important indicator is the toxicological evaluation. Every country mostly state it in the form of regulations such as the use of food additives health standards to determine the permitted varieties, purpose, scope, the maximum usage and / or the maximum residue levels of the food additives. Since most of the existing food additives and food additives have been all subject to or must be subject to rigorous toxicological tests and safety evaluation. Therefore, it can be considered that now we have reduced the harm of food additives to a minimum Level. It is worth noting, as long as strict complying the relevant provisions stated in "food additives health standards" (GB 2460-1996) for proper use of food additives, not only their safety can be guaranteed, but also their beneficial effect can be maximized in the same time. We can also maximize the elimination of their potential adverse effects to the human being.

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Structure Chemical Name CAS MF
PIPERITONE PIPERITONE 89-81-6 C10H16O
Polydextrose Polydextrose 68424-04-4 C12H22O11
HEXADECANAMIDE HEXADECANAMIDE 629-54-9 C16H33NO
Polyethylene glycol monooleate Polyethylene glycol monooleate 9004-96-0 C18H33O2.(C2H4O)n.H
TRANS-2-DECENOIC ACID TRANS-2-DECENOIC ACID 334-49-6 C10H18O2
18β-Glycyrrhetinic Acid 18β-Glycyrrhetinic Acid 471-53-4 C30H46O4
METHYL SORBATE METHYL SORBATE 1515-80-6 C7H10O2
MOLECULAR SIEVE MOLECULAR SIEVE 1344-00-9 AlNaO6Si2
Xanthophyll Xanthophyll 127-40-2 C40H56O2
Pyridoxine dipalmitate Pyridoxine dipalmitate 635-38-1 C40H71NO5
SEMI REFINED PARAFFIN SEMI REFINED PARAFFIN
Disodium nucleotide Disodium nucleotide 12111-11-4 C14H8Cl2Ir2
(-)-CATECHIN HYDRATE (-)-CATECHIN HYDRATE 18829-70-4 C15H14O6
NUTRIENT AGAR NUTRIENT AGAR
3-O-Ethyl-L-ascorbic acid 3-O-Ethyl-L-ascorbic acid 86404-04-8 C8H12O6
I+G I+G
Chitinase from Aspergillus niger (food grade) Chitinase from Aspergillus niger (food grade)
Soybean Lecithin Soybean Lecithin 8030-76-0
White pigment White pigment
Lactic acid fatty acid glycerides Lactic acid fatty acid glycerides
Heptakis-(6-Mercapto-6-deoxy)-beta-Cyclodextrin Heptakis-(6-Mercapto-6-deoxy)-beta-Cyclodextrin 160661-60-9 C42H70O28S7
LEVAN LEVAN 9013-95-0 C18H32O16
Astaxanthin Astaxanthin 472-61-7 C40H52O4
Poly(methylhydrosiloxane) Poly(methylhydrosiloxane) 63148-57-2 C7H22O2Si3
Cremophor EL Cremophor EL 61791-12-6 NULL
Aluminum, 2-(2-quinolinyl)-1H-indene-1,3(2H)-dione sulfo derivs. complexes Aluminum, 2-(2-quinolinyl)-1H-indene-1,3(2H)-dione sulfo derivs. complexes 100208-62-6
LinoleicAcid LinoleicAcid 121250-47-3 C18H32O2
LECITHIN LECITHIN 8052-43-5 C40H82NO9P
BIRCH-ME BIRCH-ME 68917-50-0 C19H28O2
CREOSOTE CREOSOTE 8021-39-4 C7H8O2
SODIUM ERYTHORBATE SODIUM ERYTHORBATE 7378-23-6 C6H9NaO6
Medium chain triglycerides Medium chain triglycerides
Starch, hydrogen phosphate, 2-hydroxypropyl ether Starch, hydrogen phosphate, 2-hydroxypropyl ether 53124-00-8 C44 H79 O35 P
Green tea seed oil Green tea seed oil
Wintergreen Oil Wintergreen Oil 68917-75-9 C8H8O3
Acrylamide Acrylamide 79-06-1 C3H5NO
Span 60 Span 60
ABS plastic antibacterial agent ABS plastic antibacterial agent
CALCIUM5'-RIBONUCLEOTIDES CALCIUM5'-RIBONUCLEOTIDES
Ethoxylated hydrogenated castor oil Ethoxylated hydrogenated castor oil 61788-85-0
ROSE BENGAL ROSE BENGAL 11121-48-5 C20H2Cl4I4Na2O5
CALCIUM CITRATE MALATE PENTAHYDRATE CALCIUM CITRATE MALATE PENTAHYDRATE 120250-12-6 C24H32Ca6O34
TRIGLYCERIDE REAGENT TRIGLYCERIDE REAGENT
CHLOROPHYLL CHLOROPHYLL 1406-65-1 C54H69MgN4O5R+2
Soya Oil Methyl Ester Soya Oil Methyl Ester 67784-80-9
EC 3.2.1.6 EC 3.2.1.6 9074-98-0
Paraffin with ceresin Paraffin with ceresin
Maize Starch Maize Starch 65996-63-6
Sodium lauroylsarcosinate Sodium lauroylsarcosinate 137-16-6 C15H28NO3.Na
high density polyethlene high density polyethlene
Sucrose fatty acid esters Sucrose fatty acid esters
LITSEA CUBEBA OIL LITSEA CUBEBA OIL
Keratin hydrolyzed Keratin hydrolyzed 69430-36-0 C2H2BrClO2
Bis(1,2,2,6,6-pentamethyl-4-piperidyl) sebacate Bis(1,2,2,6,6-pentamethyl-4-piperidyl) sebacate 41556-26-7 C30H56N2O4
L-Lactic dehydrogenase L-Lactic dehydrogenase 9001-60-9 NULL
TAMARIND GUM TAMARIND GUM 39386-78-2
EC 1.1.1.37 EC 1.1.1.37 9001-64-3 NULL
POLYISOPRENE POLYISOPRENE 9003-31-0 C5H8
Zein Zein 9010-66-6 N/A
?4-Chlorophenoxyacetic acid sodium salt ?4-Chlorophenoxyacetic acid sodium salt 13730-98-8 C8H6ClNaO3
β-Amylase β-Amylase 9000-91-3 NULL
Rebaudioside D Rebaudioside D 63279-13-0 C50H80O28
CROCIN CROCIN 42553-65-1 C44H64O24
Anise Oil Anise Oil 84775-42-8
KARAYA GUM KARAYA GUM 9000-36-6
Potassium malate Potassium malate C4H4K2O5
GARDENIA YELLOW GARDENIA YELLOW 94238-00-3 C44H64O24
TRANS,CIS-2,6-NONADIEN-1-OL TRANS,CIS-2,6-NONADIEN-1-OL 7786-44-9 C9H16O
methylol cellulose methylol cellulose
Shea butter -Refined Shea butter -Refined
Potassium cinnamate Potassium cinnamate 16089-48-8 C9H7KO2
5-PHENYL-4E-PENTENOL 5-PHENYL-4E-PENTENOL C11H14O
2,2',6,6'-Tetramethyl-4,4'-biphenol 2,2',6,6'-Tetramethyl-4,4'-biphenol 2417-04-1 C16H18O2
BETANIN BETANIN 7659-95-2 C24H26N2O13
Lanolin Lanolin 8006-54-0 N/A
DL-Malic acid DL-Malic acid 617-48-1 C4H6O5
Carotene Carotene 7488-99-5 C40H56
DEXTRANASE DEXTRANASE 9025-70-1 NULL
Lycopene Lycopene 502-65-8 C40H56
Nordihydroguaiaretic acid Nordihydroguaiaretic acid 500-38-9 C18H22O4
Quinoline Yellow Quinoline Yellow 8004-92-0 C18H9NNa2O8S2
N-PROPYL ACRYLATE N-PROPYL ACRYLATE 925-60-0 C6H10O2
1,2-DIPALMITOYL-SN-GLYCEROL 1,2-DIPALMITOYL-SN-GLYCEROL 761-35-3 C35H68O5
STEVIA STEVIA C38H60O18
Urease Urease 9002-13-5 N/A
GHATTI GUM GHATTI GUM 9000-28-6
cellulase cellulase 9012-54-8 NULL
Vitamin E Vitamin E 59-02-9 C29H50O2
CARAMEL CARAMEL 8028-89-5 C7H10O2
Decanoyl/octanoyl-glycerides Decanoyl/octanoyl-glycerides 65381-09-1 C21H44O7
Elastase Elastase 39445-21-1 NULL
(+/-)-Catechin hydrate (+/-)-Catechin hydrate 7295-85-4 C15H14O6
SORBIC ACID VINYL ESTER SORBIC ACID VINYL ESTER 42739-26-4 C8H10O2
AMYLOGLUCOSIDASE AMYLOGLUCOSIDASE 9032-08-0 Cd+2
CATALASE CATALASE 9001-05-2 C9H10O3
SODIUM SESQUICARBONATE DIHYDRATE SODIUM SESQUICARBONATE DIHYDRATE 533-96-0 CH3NaO3
CALCIUM SACCHARIN CALCIUM SACCHARIN 6485-34-3 C7H7CaNO3S
bee's wax bee's wax 8012-89-3
LACCAIC ACID LACCAIC ACID 60687-93-6 C91H62N2O44
POTASSIUM ALGINATE POTASSIUM ALGINATE 9005-36-1 C12H16K2O13
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