Whole Grains and Health. Группа авторов
wheat durum. Cereal Chemistry Journal , 79, 504–510.
54 Mariotti, M., Alamprese, C., Pagani, M.A., and Lucisano, M. (2006). Effect of puffing on ultrastructure and physical characteristics of cereal grains and flours. Journal of Cereal Science , 43, 47–56.
55 Marti, A., Caramanico, R., Bottega, G., and Pagani, M.A. (2013). Cooking behavior of rice pasta: Effect of thermal treatments and extrusion conditions. LWT – Food Science and Technology , 54, 229–235.
56 Martínez, M.M., Díaz, Á., and Gómez, M. (2014). Effect of different microstructural features of soluble and insoluble fibres on gluten‐free dough rheology and bread‐making. Journal of Food Engineering , 142, 49–56.
57 Marzec, A., Lewicki, P.P., and Ranachowski, Z. (2007). Influence of water activity on acoustic emission of flat extruded bread. Journal of Food Engineering , 79, 410–422.
58 Narvhus, J.A., and Sørhaug, T. (2012). Bakery and Cereal Products. In Food Biochemisty and Food Processing. Second Edition (ed. B.K. Simpson ), pp. 594–612. Wiley‐Blackwell.
59 Owusu‐Ansah, J., van de Voort, F.R., and Stanley, D.W. (1984). Textural and microstructural changes in corn starch as a function of extrusion variables. Canadian Institute of Food Science and Technology Journal , 17, 65–70.
60 Peleg, M. (1997). Review: Mechanical properties of dry cellular solid foods. Food Science and Technology International , 4, 227–240.
61 Poutanen, K., Flander, L., and Katina, K. (2009). Sourdough and cereal fermentation in a nutritional perspective. Food Microbiology , 26, 693–699.
62 Poutanen, K., Sozer, N., and Della Valle, G. (2014). How can technology help to deliver more of grain in cereal foods for a healthy diet? Journal of Cereal Science , 59, 327–336.
63 Primo‐Martín, C., van de Pijpekamp, A., van Vliet, T., de Jongh, H.H.J., Plijter, J.J., and Hamer, R.J. (2006). The role of the gluten network in the crispness of bread crust. Journal of Cereal Science , 43, 342–352.
64 Primo‐Martín, C., van Nieuwenhuijzen, N.H., Hamer, R.J., and van Vliet, T. (2007). Crystallinity changes in wheat starch during the bread‐making process: Starch crystallinity in the bread crust. Journal of Cereal Science , 45, 219–226.
65 Prückler, M., Siebenhandl‐Ehn, S., Apprich, S., Höltinger, S., Haas, C., Schmid, E., and Kneifel, W. (2014). Wheat bran‐based biorefinery 1: Composition of wheat bran and strategies of functionalization. LWT – Food Science and Technology , 56, 211–221.
66 Rakha, A., Åman, P., and Andersson, R. (2010). Characterisation of dietary fibre components in rye products. Food Chemistry , 119, 859–867.
67 Ramaswamy, H.S., and Riahi, E. (2003). Structure and composition of cereal grains and legumes. In Handbook of Postharvest Technology. Cereals, Fruits, Vegetables, Tea, and Spices (eds. H.S. Ramaswamy, G.S.V. Raghavan, A. Chakraverty and A.S. Mujumdar ), pp. 1–16. CRC Press.
68 Renzetti, S., and Arendt, E.K. (2009). Effect of protease treatment on the baking quality of brown rice bread: From textural and rheological properties to biochemistry and microstructure. Journal of Cereal Science , 50, 22–28.
69 Richardson, G., Langton, M., Fäldt, P., and Hermansson, A.M. (2002). Microstructure of α‐crystalline emulsifiers and their influence on air incorporation in cake batter. Cereal Chemistry Journal , 79, 546–552.
70 Richardson, G., Langton, M., Bark, A., and Hermansson, A.‐M. (2003). Wheat starch gelatinization — The effects of sucrose, emulsifier and the physical state of the emulsifier. Starch – Stärke , 55, 150–161.
71 Robin, F., Schuchmann, H.P., and Palzer, S. (2012). Dietary fiber in extruded cereals: Limitations and opportunities. Trends in Food Science and Technology , 28, 23–32.
72 Rodríguez‐García, J., Salvador, A., and Hernando, I. (2014). Replacing fat and sugar with inulin in cakes: Bubble size distribution, physical and sensory properties. Food and Bioprocess Technology , 7, 964–974.
73 Roopa, B.S., Mazumder, P., and Bhattacharya, S. (2009). Fracture behavior and mechanism of puffed cereal during compression. Journal of Texture Studies , 40, 157–171.
74 Ross, A.B., Kamal‐Eldin, A., Lundin, E.A., Zhang, J.‐X., Hallmans, G., and Åman, P. (2003a). Cereal alkylresorcinols are absorbed by humans. The Journal of Nutrition , 133, 2222–2224.
75 Ross, A.B., Shepherd, M.J., Schüpphaus, M., Sinclair, V., Alfaro, B., Kamal‐Eldin, A., and Åman, P. (2003b). Alkylresorcinols in cereals and cereal products. Journal of Agricultural and Food Chemistry , 51, 4111–4118.
76 Sajilata, M.G., Singhal, R.S., and Kulkarni, P.R. (2006). Resistant starch – A review. Comprehensive Reviews in Food Science and Food Safety , 5, 1–17.
77 Salmenkallio‐Marttila, M., Heiniö, R.‐L., Myllymäki, O., Lille, M., Autio, K., and Poutanen, K. (2004). Relating microstructure, sensory and instrumental texture of processed oat. Agricultural and Food Science , 13, 14.
78 Saulnier, L., Sado, P.‐E., Branlard, G., Charmet, G., and Guillon, F. (2007). Wheat arabinoxylans: Exploiting variation in amount and composition to develop enhanced varieties. Journal of Cereal Science , 46, 261–281.
79 Sciarini, L.S., Ribotta, P.D., León, A.E., and Pérez, G.T. (2010). Effect of hydrocolloids on gluten‐free batter properties and bread quality. International Journal of Food Science and Technology , 45, 2306–2312.
80 Sekiyama, Y., Horigane, A.K., Ono, H., Irie, K., Maeda, T., and Yoshida, M. (2012). T2 distribution of boiled dry spaghetti measured by MRI and its internal structure observed by fluorescence microscopy. Food Research International , 48, 374–379.
81 Sivaramakrishnan, H.P., Senge, B., and Chattopadhyay, P.K. (2004). Rheological properties of rice dough for making rice bread. Journal of Food Engineering , 62, 37–45.
82 Srikaeo, K., Furst, J.E., Ashton, J.F., and Hosken, R.W. (2006). Microstructural changes of starch in cooked wheat grains as affected by cooking temperatures and times. LWT – Food Science and Technology , 39, 528–533.
83 Steglich, T., Bernin, D., Röding, M., Nydén, M., Moldin, A., Topgaard, D., and Langton, M. (2014). Microstructure and water distribution of commercial pasta studied by microscopy and 3D magnetic resonance imaging. Food Research International , 62, 644–652.
84 Stojceska, V. (2013). Fibre‐enriched snack foods. In Fibre‐Rich and Wholegrain Foods (eds. K. Poutanen and J.A. Delcour ), pp. 389–406. Woodhead Publishing.
85 Tiwari, U., and Cummins, E. (2009). Factors influencing β‐glucan levels and molecular weight in cereal‐based products. Cereal Chemistry Journal , 86, 290–301.
86 Turabi, E., Sumnu, G., and Sahin, S. (2010). Quantitative analysis of macro and micro‐structure of gluten‐free rice cakes containing different types of gums baked in different ovens. Food Hydrocolloids , 24, 755–762.
87 Vanin, F.M., Lucas, T., and Trystram, G. (2009). Crust formation and its role during bread baking. Trends in Food Science & Technology , 20, 333–343.
88 Vázquez‐Gutiérrez, J.L., Johansson, D.P., and Langton, M. (2015). Effects of added inulin and gluten on rheology and structure of rye porridge. LWT – Food Science and Technology.
89 Vázquez‐Gutiérrez, J.L., and Langton, M. (2015). Current potential and limitations of immunolabeling in cereal grain research. Trends in Food Science & Technology , 41, 105–117.
90 Weipert, D. (1997). Processing performance of rye as compared to wheat. Cereal Foods World , 42, 706–712.
91 Williams, P.G. (2014). The benefits of breakfast cereal consumption: A systematic review of the evidence base. Advances in Nutrition: An International Review Journal , 5, 636S–673S.
92 Yiu, S.H., Wood, P.J., and Weisz, J. (1987). Effects of cooking on starch and beta‐glucan of rolled oats. Cereal Chemistry , 64, 373–379.
2 Definition of Whole Grain