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There are provided data on the work carried out at All-Russian Research Institute for Starch Products to create enriched low-protein pasta based on starch for nutrition the children sick with a phenilketonuria — a hereditary disease (group of fermentopatiya), the bound to violation of amino acids metabolism, mainly phenyl alanine. Optimization of children nutrition is the socially important direction of domestic policy of the Russian Federation since their health directly depends on the good balanced nutrition, especially it is important for the children having diseases of genetic character.

To expand the range of the enriched low-protein food the functional ingredients are picked up, recipes and technology of receiving three types of pasta are developed such as: noodles, vermicelli, «spider line», their nutrition and power values are defined. It is shown that in the received products protein content doesn’t exceed permissible value (<1.0%), fat from 3.3 to 3.6%, ashes — to 0.14%, carbohydrates no more than 88.0% that conforms to requirements imposed to reduced-protein products of baby food.

About the Authors

S. T. Bykova
All-Russian Research Institute for Starch Products — Branch of V. M. Gorbatov Federal Research Center for Food Systems of Russian Academy of Sciences
Russian Federation

Svetlana T. Bykova — candidate of technical sciences, Scientific Secretary

140051, Moscow region, Kraskovo, Nekrasov str., 11

T. G. Kalinina
All-Russian Research Institute for Starch Products — Branch of V. M. Gorbatov Federal Research Center for Food Systems of Russian Academy of Sciences
Russian Federation

Tamara G. Kalinina — Candidate of Technical Sciences, leading researcher of the department of biodegradable polymers, technological tests and experimental production

140051, Moscow region, Kraskovo, Nekrasov str., 11


1. Bushuyeva, T.V (2010). Phenylketonuria in children: diagnostics, clinic, treatment. Current Pediatrics, 9(1), 157–162. (in Russian)

2. Blau, N., Hennermann, J.B., Langenbeck, U., Lichter-Konecki, U. (2011). Diagnosis, classification, and genetics of phenylketonuria and tetrahydrobiopterin (BH4) deficiencies. Molecular Genetics and Metabolism, 104(SUPPL.), с. S2-S9. DOI: 10.1016/j.ymgme.2011.08.017

3. Blau, N., Burton, B.K., Thony, B., van Spronsen, F.Y., Waisbren, S. (2014). Phenylketonuria and BH4 Deficiencies. UNY-MED Verlag A. G. BremenLondon-Boston, 79 p.

4. Borovik, T.E., Ladodo, K.S., Bushueva, T.V., Timofeeva, A.G., Kon’, I. Ya., Kruglik, V.I., Volkova, I.N. (2013). Dietotherapy of Classical Phenylketonuria: Criteria for Choosing Specialized Phenylalanine-Free Products. Current Pediatrics, 12(5), 40–48. (in Russian)

5. Kodentsova, V. M. (2014). Food Fortification of Mass Consumption by Vitamins and Minerals as a Way to Improve Their Nutritional. Food Industry, 3,14–18. (in Russian)

6. Lukin, N. D., Bykova, S. T. (2018). Low-Protein products based on starch for dietary therapeutic nutrition of children. Textbook book «Modern technologies of functional foods». M: Delhi plus, CH. 8. 220–250. (in Russian)

7. Georgieva, O.V., Bykova, S.T., Kalinina, T.G., Varitsev, P. Yu. (2018). Use of specialised products manufactured in Russia for dietetic (therapeutic) nutrition of infants with congenital disorders of protein metabolism. Pediatric Nutrition, 16 (4), 73–79. (in Russian)

8. Kodentsova, V. M., Vrzhesinskaya, O. A., Grozdova, T. Yu., Kulinich, L. A., Kalinin, A. Ya. (2018). To the working discussion on the state standard project «Complexes vitamin-mineral. General specification». Food Industry, 2, 28–34. (in Russian)

9. Bykova, S.T., Buralyova, T.N. (2011). Using the dry ingredients to egg dressing low-protein starch. Storage and processing of farm products, 10, 70–72. (in Russian)

10. Bykova, S.T., Buravleva, T.N., Kalinina, T.E., Borovik, T. V. Food composition for the preparation of infant foods. Patent RF, no. 2462050, 2012. (in Russian)

11. Bykova, S. T., Buravleva, T. N., Kalinina, T. G., Borovik, T. E., B. T. V., Lododo, K. S. (2014). Use of Inulin in Dietary Baby Nutrition. Food industry, 2. 32–33. (in Russian)

12. Kuznetsova, A. S., Salanova, M. Y. (2011). The use of egg powder and anhydrous fats in the production of cupcakes. Confectionery and bakery, 1 (113), 32–34. (in Russian)

13. Perkovets, M. V. (2008). New ingredients for functional bakery and pasta– natural prebiotics. Food ingredients: raw materials and additives, 1, 38–40 (in Russian)

14. Koryachkina, S. Ya., Akhmedova, D.K. (2012). Dependence water absorption ability of rye and wheat flour on the degree of polymerization of inulin and oligofructose. Bread products, 3, 38–39. (in Russian)

15. Perkovets, M. V. (2008). Prebiotic fibers «Beneo-Orafti» actively conquer the CIS market. Food ingredients: raw materials and additives, 2, 36–38. (in Russian)

16. Raftiline®иPaftilose®– ingredients for functional foods. (2004). Food industry, 9, 100–101. (in Russian)

17. Bushueva, T. V., Borovik, T. E., Bykova, S. T. Kalinina, T. G. (2018). Domestic low-protein products based on starch in the diet therapy of children with hereditary metabolic pathology. Molecular biological technologies in medical practice. Akademizdat, Novosibirsk. 28. 172–180. (in Russian)


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ISSN 2618-9771 (Print)
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