Nutritive and Biological Value of Mare's Milk Ice Cream
DOI:
https://doi.org/10.3923/pjn.2017.457.462Keywords:
Amino acids, ice cream, Mares milk, minerals, technology, vitaminsAbstract
Background: Among milk products, ice cream is growing in popularity. Mare’s milk instead of cow’s milk can be used to make ice cream due to its low fat content and balanced amino acid, vitamin and mineral composition. Objective: The purpose of this study was to develop new methods of making ice cream and study the nutritive and biological value of mare’s milk-based ice cream. Materials and Methods: Amino acid and vitamin composition levels were quantified using the Shimadzu LC-20 Prominence liquid chromatography system equipped with fluorometric and spectrophotometric detectors. Mineral composition was detected by Inductively-Coupled Mass-Spectrometry (ICP-MS). Ice cream samples were produced in the following proportions: Sample 1, 100% mare’s milk (MM-100); sample 2, 40% MM and 60% cow’s milk (MM-40); sample 3, 30% MM and 70% cow’s milk (MM-30). Results: The fat contents of MM-100, MM-40 and MM-30 were 2.1, 7.3 and 8.5%, respectively. The carbohydrate content decreased from 26.0 g in MM-100 to 22.7 g in MM-40 and to 21.2 g in MM-30. Protein content of MM-100 was slightly lower than those of the MM-40 and MM-30 ice creams; however, no differences were found among the three types of ice creams in ash content. Using both mare’s and cow’s milk in ice cream mixtures resulted in increased mineral content in MM-40 and MM-30 in comparison with MM-100. Thus, combination of mare’s and cow’s milk enriched the ice cream with methionine, glycine, histidine, proline, threonine and valine. Conclusion: These findings suggest a beneficial role of mare’s milk in making ice cream with low-fat content.
References
Abdel-Salam, A.M., 2010. Functional foods: Hopefulness to good health. Am. J. Food Technol., 5: 86-99.
Salem, M.M.E., F.A. Fathi and R.A. Awad, 2005. Production of probiotic ice cream. Polish J. Food Nutr. Sci., 14: 267-271.
Tultabayeva, T.C., 2004. Current state and development trends of national sour milk production. KazgosINTI, Almaty, Kazakhstan.
Malacarne, M., F. Martuzzi, A. Summer and P. Mariani, 2002. Protein and fat composition of mare's milk: Some nutritional remarks with reference to human and cow's milk. Int. Dairy J., 12: 869-877.
Uzakbaev, K.A. and T.T. Mamyrbaeva, 2012. Mare's Milk and Koumiss. Nur-As, Bishkek, Kyrgyzstan.
Kanareykina, S.G. and V.I. Kanareykin, 2016. Mare's milk-unique food raw material for healthy nutrition products. Bull. Orenburg State Agric. Univ., 4: 150-152.
Slinkin, A.A. and S.G. Kanareykina, 2011. Improving the quality of dried mare's milk. Izvestia Orenburg State Agrarian Univ., 31: 194-196.
Gorbatovskaya, N.A., G. Karimova and M. Kassymova, 2013. Mare's milk as the basis of baby foods. Mech. Technol., 3: 130-134.
Ellinger, S., K.P. Linscheid, S. Jahnecke, R. Goerlich and H. Enbergs, 2002. The effect of mare's milk consumption on functional elements of phagocytosis of human neutrophil granulocytes from healthy volunteers. Food Agric. Immunol., 14: 191-200.
Sizenko, Y.I., 2006. Scientific support strategy of competitive production of high quality domestic foods. Storage Process. Farm Prod., 1: 7-12.
Clarke, C., 2004. The Science of Ice Cream. Royal Society of Chemistry, Cambridge, UK.
Soukoulis, C., E. Lyroni and C. Tzia, 2010. Sensory profiling and hedonic judgement of probiotic ice cream as a function of hydrocolloids, yogurt and milk fat content. LWT-Food Sci. Technol., 43: 1351-1358.
Nurzhanova, A., 2010. Milk and Milk Products Technology. Foliant Publishing House, Astana, Kazakhstan.
Bogatova, O.V., N.G. Dogareva and S.V. Stadnikova, 2014. Industrial Technology of Milk Products Manufacturing. Prospect Nauki, St. Petersburg, Russia.
Sharmanov, T.S. and A.K. Zhangabylov, 1991. Health Properties of Koumiss and Shubat. Gylym, Almaty, Kazakhstan.
Burmagina, T.Y., A.I. Gnezdilova, V.B. Shevchuk and Y.A. Yakovleva, 2012. Ice cream with malt extract. Dairy Farming J., 2: 85-91.
Kazakova, N.V., 2008. Developing scientific proved lowered caloricity ice cream technology. Ph.D. Thesis, All-Russian Scientific Research Institute of Refrigeration Industry, Moscow.
Litvinova, A.V. and Y.V. Bogdanova, 2016. Food and energy value of ice cream with vegetable fillers. Proceedings of the International Conference on Innovative Technology of Science Development, (ITSD'16), Ufa, Russia, pp: 67-68.
Ivanovna, T.O. and B.G. Vasil'evna, 2007. [Ice cream with functional characteristics]. Patent 2294647, Russia, March 10, 2007. http://allpatents.ru/patent/2294647.html.
Miwa, N. and W. Ohashi, 2012. Ice cream or ice cream-like product and method for producing same. Patent US 20130022710 A1, USA., September 28, 2012. https://www.google.com/patents/US20130022710.
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