Food Additives Safety and Limits of Use Jasper

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Food Additives: Safety and Limits of Use Jasper K. Imungi, Ph. D Professor of

Food Additives: Safety and Limits of Use Jasper K. Imungi, Ph. D Professor of Food Chemistry Department of Food Science, Nutrition and Technology University of Nairobi Paper presented in the Food Additives and Safety Workshop, 24 th June, 2014 Intercontinental Hotel, Nairobi

Introduction • All over the World food additives are perceived to be evil chemicals

Introduction • All over the World food additives are perceived to be evil chemicals that will cause ill health in humans. They are referred to as “chemicals” • The tropical and subtropical countries can not afford to do without some additives like preservatives • The additives allowed for use in food have been subjected to scientific testing and have been found to be safe for use, nevertheless some with caution • There is no chemical that will fail to cause allergic reaction to all peoples of the World – remember the many people who are allergic to some of the foods we eat

Introduction cont’d Categorized in two ways: • The manner in which they get into

Introduction cont’d Categorized in two ways: • The manner in which they get into food: 1) Intentional additives - considered ingredients in food processing/preparation; 2)Unintentional or inadvertent additives - from the environment of the food – contaminants • The manner in which they are used: 1) Generally recognized as safe (have been in safe use for long) – require no testing before allowed for use, use can be regulated by consumer; Regulated food additives – maximum levels are given beyond which they might cause ill health • The list of grass currently stands at aboutb 800 chemicals and is slowly growing

Introduction cont’d The additives dealt with in this paper are the regulated that are

Introduction cont’d The additives dealt with in this paper are the regulated that are in common usage, but are sometimes controversial. They include: • Preservatives including - benzoic acid, sulfur dioxide, nitrites, and antioxidants • Flavor potentiators - monosodium glutamate (MSG) • nonnutritive sweeteners – cyclamates, saccharin, glycyrrhizic acid, aspartame The presentation will be limited to the safety and limits of use of these chemicals

Preservatives - antimicrobials Benzoic acid • Occurs naturally in cranberries, prunes, cinnamon and cloves

Preservatives - antimicrobials Benzoic acid • Occurs naturally in cranberries, prunes, cinnamon and cloves and in smaller amounts in the seeds of many fruits • Undissociated acid is the form with antimicrobial activity, optimum activity at p. H 2. 5 – 5. 0 • Suited for use in acid products such as fruit juices, carbonated beverages, pickled products and fermented products • Used at the level of 0. 05 – 0. 1% by weight, ADI = 0. 5 mg/kg body weight • Most active against yeasts and bacteria and least active against molds • eliminated from the body after conjugation with glycine (amino acid) to form hippuric acid (benzoyl glycine), precludes accumulation in the body • Caution: Persons with asthma, or who have recurrent urticaria (skin rashes) may be sensitive to benzoic acid

Sulfur dioxide • Has long been used as a general food preservative • Forms

Sulfur dioxide • Has long been used as a general food preservative • Forms used include sulfur dioxide gas, sodium or potassium salts of sulfite, bisulfite and metabisulfite • Forms sulfurous acid and bisulfite ion in solution • Undissociated acid dominant below p. H 3 and inhibits yeasts and bacteria, but not always to the same extent • Bisulfite ion dominant at p. H 4. 5 and inhibits bacteria but not against yeasts • Levels of use to maximum 300 ppm, but levels up to 2000 ppm found in dehydrated fruits and vegetables. Levels beyond 500 ppm cause disagreeable flavor. ADI = 0. 07 mg/kg body weight • Suitable for acidic products like in benzoic acid • Also used against enzymic and non enzymic discoloration during handling, processing or storage • Cleared from the body by oxidation to sulfates – out with urine with no pathology • Caution: No use in infant foods, by asthmatic, kidney and liver impaired. Can cause allergic response in some people (looking like nettle rash, eczema)

 • Initially potassium and sodium salts of nitrates and nitrites to develop and

• Initially potassium and sodium salts of nitrates and nitrites to develop and fix pink color • Later found to generate carcinogenic nitrosamines, but then found to inhibit clostridium botulinum, organism that produces one of the most lethal toxins known to man (6 mcg kills man) • Accumulation in the liver can cause chronic toxicity (cancer) • Choice of continued use is a choice of the bigger risk, acute botulism or cancer • Maximum levels of use 150 – 200 ppm. ADI = 0 – 0. 15 mg/kg body weight • Nitrites can also bind the HB to impair blood transport in the body (detrimental specially to small children. • Nitrates wide spread in our vegetables such as spinach and carrots esp. those grown with high levels of fertilizer (Be aware of carrot juice esp. on children)

Antioxidants • Many antioxidants existing in nature include polyphenol compounds, carotenoids and tocopherols, also

Antioxidants • Many antioxidants existing in nature include polyphenol compounds, carotenoids and tocopherols, also ascorbic acid. These mediate against diseases. • Important here are synthetic antioxidants that are used for preservation of fats and fatty foods against oxidation of fats to cause off-flavors • Some of the oxidation intermediate products have been known to be carcinogenic • The common antioxidants include Butylated hydroxy anisole (BHA), Butylated hydroxy toluine (BHT), Propyl gallate (PG) and Tert-butyl hydroquinone (TBHQ) • Recommended maximum use 0. 01% for single or similar amount of each if more than one are used. If with a synagist 0. 028, but antioxidant same level. • All polyphenol compounds are implicated in carcinogenesis • The ADI: Propyl gallate 0 – 0. 5 mg, BHA 0 – 0. 5 mg, BHT 0. 05, but ascorbic acid 300 mg/kg body weight

Common antioxidants

Common antioxidants

Flavor potentiators – Monosodium glutamate (MSG) • Flavor potentiators – substances with little or

Flavor potentiators – Monosodium glutamate (MSG) • Flavor potentiators – substances with little or no flavour but enhance desirable flavors or depress undesirable flavors in food • Commonly used flavour potentiators are MSG and some 5’-nucleotides • MSG is a derivative of the amino acid glutamic acid by neutralization of one carboxyl group only. Abudant in many foods esp. wheat and maize gluten, soybean protein and casein • Used in levels of 2 – 5 g/kg of food. Taste threshold 300 mg/liter • Manufactured by fermentation, chemical process or extraction from plant or animal tissues, mainly by AJINOMOTO in Japan. Known by the name in the Kenyan markets. • Local products containing it include aromat, cooking mixes, beef and chicken cubes and soups and sauces • Judicious use causes Chinese restaurant syndrome (CRS) – characterized by headaches, facial pressure, chest pains, gastric distress, and burning sensations over various parts of the body. • Clearance from the body is the normal way of glutamic acid

Non-nutritive sweeteners Broad group of substances that have been found to evoke a sweet

Non-nutritive sweeteners Broad group of substances that have been found to evoke a sweet taste or enhance the perception of sweet taste. They do not yield calories on metabolism. Their use is regulated by the consumer taste. Include: • Sodium cyclamate (sodium cyclohexane sulfamate): also available as calcium cyclamate. Burned for use in many countries including Kenya. Metabolizes into cyclohexylamine which is a known carcinogen. Exposes the bladder to cancer. • Sodium saccharin (sodium ortho-benzosulfimide): Most commonly available sweetener, sold simply as saccharin, 300 times sweeter than sucrose. Allowed in Kenya only for dietetic products (Is it so? – sold freely). Many imported products contain saccharin – evidence of use in manufacturing in the country. • Glycyrrhizic acid: Natural sweet-tasting substance found in the licorice root as calcium and sodium salts of glycyrrhizic acid. 50 times as sweet as sucrose. mainly used in tobacco.

Non-nutritive sweeteners cont’d • Substances structurally related to glycyrrhizic acid have recently been discovered.

Non-nutritive sweeteners cont’d • Substances structurally related to glycyrrhizic acid have recently been discovered. The most important is stevioside, found in the leaves of Stevia rebaudiana Bertoni. It is 300 times as sweet as sucrose. Stevioside is available in the market in this country under the name Stevia • Aspartame (aspartylphenylalanine methyl ester): A dipeptide and therefore not to be categorized as non-nutritive. About 200 times sweeter than sucrose. Use may be limited because it lacks stability in food systems especially during storage. The amide-linked amino acids and the methyl ester are potentially labile to both chemicals and microbiological attack

In conclusion • Many products local or imported contain food additives. It is difficult

In conclusion • Many products local or imported contain food additives. It is difficult to validate good manufacturing use of additives in this country • Food additives are a necessary evil and in the tropical and subtropical countries we have to learn to live utilizing them cautiously • In consuming/or preparation of food with specific additives, know yourself and members of your family • Consume foods processed with food additives in moderation (this applies more to the children) • Read the label of a processed food before purchase, it could contain a chemical that you or your family member could be sensitive to. • Eat from a variety of foods, both fresh an processed

THANK YOU VERY MUCH You are what you eat

THANK YOU VERY MUCH You are what you eat