Bread Quality Improvement with Special Novel Additives
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Bread Quality Improvement with Special Novel Additives

Authors: Mónika Bartalné-Berceli, Eszter Izsó, Szilveszter Gergely, András Salgó

Abstract:

Presently a significant portion of the Earth's population does not have access to healthy food. Either because they cannot afford it or because they do not know which one are they. The aim of the VII th Framework Chance project (Nr. 266331) supported by the European Union has been to develop relatively cheap food with favourable nutritional value and it should have acceptable quality for consumers. As one task of the project we manufactured bread products as a basic food. We examined the enrichment of bread products with four kinds of bran, with a special milling product of grain industry (aleurone-rich flour) and with a soy-based sprouted additive. The applied concentration of the six mentioned additives has been optimized and the physical properties of the bread products were monitored. The weight/density of the enriched breads increased a bit, however the volume and height decreased slightly compared to the corresponding data of the control bread. The optimized composition of the final product is favourably affected by these additives having highly preferred composition from nutritional point of view.

Keywords: Aleurone-rich flour, Brans, Bread products, Sprouted soybean, YASO.

Digital Object Identifier (DOI): doi.org/10.5281/zenodo.1107239

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References:


[1] “CHANCE - Low cost technologies and traditional ingredients for the production of affordable, nutritionally correct foods improving health in population groups at risk of poverty,” coordinated by F. Capozzi, and A. Bordoni. www.chancefood.eu. Downloaded at: Nov. 2014.
[2] The Federation of Bakers, “European Bread Market,” London, United Kingdom. http://www.bakersfederation.org.uk/the-bread-industry/ industry-facts/european-bread-market.html. Downloaded at: Febr. 2015.
[3] Ministry of Agriculture and Rural Development, Products of the milling industry, 2-61 directive, In Codex Alimentarius Hungaricus, 3rd ed., 2007, pp. 4-6, Hungary.
[4] A. D. Evers, and D. B. Bechtel, “Microscopic structure of the wheat grain,” and Y. Pomeranz “Cemical composition of kernel structures,” In Wheat Chemistry and Technology, 3rd ed, Y. Pomeranz, Ed., St. Paul, MN, USA: American Association of Cereal Chemists, 1988, pp. 47–159.
[5] L. Stevenson, F. Phillips, K. O’Sullivan, and J. Walton, “Wheat bran: its composition and benefits to health, a European perspective,” International Journal of Food Sciences and Nutrition, vol. 63, no. 8, pp. 1001–1013, Dec. 2012.
[6] C. M. Liyana-Pathirana, and F. Shahidi, “The antioxidant potential of milling fractions from bread, wheat and durum,” Journal of Cereal Science, vol. 45, no. 3, pp. 238–247, May 2007.
[7] M. He, R. M. van Dam, E. Rimm, F. B. Hu, and L. Qi, “Whole-Grain, Cereal Fiber, Bran, and Germ Intake and the Risks of All-Cause and Cardiovascular Disease–Specific Mortality Among Women With Type 2 Diabetes Mellitus,” Epidemiology and Prevention, vol. 121, pp. 2162– 2168, May 2010.
[8] J. W. Jr. Erdman, and E. J. Fordyce, “Soy products and the human diet,” The American Journal of Clinical Nutrition, vol. 49, no. 5, pp. 725–737, May 1989.
[9] Fitorex Engineering and Trading Ltd. (In Hungarian: Fitorex Műszaki Fejlesztőés Kereskedelmi Kft.), “New food-industrial product with plant origin and goods containing it,” (In Hungarian: Új, növényieredetűélelmiszer-iparitermékésazazttartalmazókészítmények), Hungarian Patent, patent number: P 08 00665 in Hungary, Nov. 2008.
[10] Fitorex Ltd., “YASO, Soy like never before,” Budapest, Hungary. www.yaso.hu. Downloaded at: Jun. 2014.
[11] F. Brouns, Y. Hemery, R. Price, and N. M. Anson, “Wheat aleurone: separation, composition, health aspects, and potential food use,” Critical Reviews in Food Science and Nutrition, vol. 52, no. 6, pp. 553–568, March 2012.
[12] A. Salgó, Sz. Gergely, and K. Gebruers, “Screening for dietary fibre constituents in cereals by near infrared spectroscopy (Chapter 18.),” In Analysis of Bioactive Components in Small Grain Cereals, P. R. Shewry, and J. L. Ward, Eds., St. Paul, MN, USA: AACC International Incorporated, 2009, pp. 247-261.
[13] A. Bagdi, F. Szabó, A. Gere, Z. Kókai, L. Sipos, S. Tömösközi, “Effect of aleurone-rich flour on composition, cooking, textural, and sensory properties of pasta,” LWT - Food Science and Technology, vol. 59, pp. 996–1002, July 2014.
[14] F. Brouns, A. Adam-Perrot, B. Atwell, and W. von Reding, “Nutritional and technological aspects of wheat aleuronefibre: implications for use in food,” In Dietary fibre: New frontiers for food and health, 1st ed., J. W. van der Kamp, J. M. Jones, B. V. McCleary, and D. L. Topping, Eds., Wageningen: Wageningen Academic Publishers, 2010, pp. 395–413.