NITRATES, NITRITES AND N-NITROSOCOMPOUNDS - A REVIEW OF THE OCCURRENCE IN FOOD AND DIET AND THE TOXICOLOGICAL IMPLICATIONS

被引：293

作者：

WALKER, R

机构：

[1] Department of Biochemistry, University of Surrey, Surrey

来源：

FOOD ADDITIVES AND CONTAMINANTS | 1990年 / 7卷 / 06期

关键词：

Drinking water; Food; N-nitrosocompounds; Nitrate; Nitrite; Nitrosamines;

D O I：

10.1080/02652039009373938

中图分类号：

O69 [应用化学];

学科分类号：

081704 ;

摘要：

Data on occurrence of nitrate, nitrite and N-nitrosocompounds in food and drinking water, and on total dietary intakes are reviewed. Metabolic, toxicological and epidemiological studies are surveyed and the implications with respect to safety evaluation are addressed. It is concluded that, on the basis of recent long-term animal studies and of clinical experience in man, the current Acceptable Daily Intake (ADI) allocated to nitrate by the Joint FAO/WHO Expert Committee on Food Additives of 0-5 mg/kg body weight/day (expressed as sodium nitrate) might be increased to 0-25 mg/kg body weight/day. Based on similar criteria, the ADI for nitrite would be 0-0.1 mg/kg body weight/day (expressed as sodium nitrite). In view of the known carcinogenicity of N-nitrosocompounds, exposure to these compounds in food should be minimized by appropriate technological means, such as lowering the nitrite concentration in preserved foods to the minimum required to ensure microbiological safety and use of inhibitors of nitrosation like α-tocopherol or ascorbic acid. Further work is needed to define the minimal levels of nitrite in foods needed to inhibit outgrowth of Clostridium botulinum and toxin production. © 1990 Taylor & Francis Group, LLC.

引用

页码：717 / 768

页数：52

共 194 条

[1]

Achtzehn M.K., Hawat H., Nitrate accumulation in vegetables—a possibility of nitrite intoxication in babies?, Nahrung, 13, pp. 667-676, (1969)

[2]

Agunod M., Yamaguchi N., Lopez R., Luhby A.L., Glass G., Correlative study of hydrochloric acid, pepsin and intrinsic factor secretion in newborn and infants, American Journal of Digestive Disorders, 14, pp. 400-414, (1969)

[3]

Alam B.S., Saporoschetz I.B., Epstein S.S., Formation of N-nitrosopiperidine from piperidine and sodium nitrite in the stomach and the isolated intestinal loop of the rat, Nature (London, 232, pp. 116-118, (1971)

[4]

Alam B.S., Saporoschetz I.B., Epstein S.S., Synthesis of nitrosopiperidine from nitrate and piperidine in the gastro-intestinal tract of the rat, Nature (London, 232, pp. 199-220, (1971)

[5]

Forman, Bryson, Mortality of nitrate fertilizer workers, British Journal of Industrial Medicine, 43, pp. 507-515, (1986)

[6]

Alliston T.G., Cox G.B., Kirk R.S., The determination of steam-volatile N-nitrosamines in foodstuffs by formation of electron-capturing derivatives from electrochemically-derived amines, Analyst, 97, pp. 915-920, (1972)

[7]

Amundsen P., Poisoning with sodium nitrate, Nordisk Medisin, 62, pp. 1107-1111, (1947)

[8]

Anderson D., Phillips B.J., Challis B.C., Hopkins A.R., Milligan J.R., Massey R.C., Mutagenic properties of N-nitrosopeptides in mammalian cell culture assays, Food and Chemical Toxicology, 24, pp. 289-292, (1986)

[9]

Andrews A.W., Fornwald J.A., Lijinsky W., Nitrosation and mutagenicity of some amine drugs, Toxicology and Applied Pharmacology, 52, pp. 237-244, (1980)

[10]

Aoyagi M., Matsukura N., Uchida E., Kawachi T., Sugimura T., Takayama S., Matsui M., Induction of liver tumors in Wistar rats by sodium nitrite given in pellet diet, Journal of the National Cancer Institute, 65, pp. 411-414, (1980)

← 1 2 3 4 5 6 7 8 9 10 →