Advanced search
Publication Cover
Critical Reviews in Food Science and Nutrition Volume 60, 2020 - Issue 4
Submit an article Journal homepage
1,082
Views
24
CrossRef citations to date
0
Altmetric
Reviews

Effects of different cooking technologies on biopolymers modifications of cereal-based foods: Impact on nutritional and quality characteristics review

Teresa De PilliDepartment of Science of Agriculture, Food and Environment (SAFE) - University of Foggia, Foggia, ItalyCorrespondence[email protected]
ORCID Iconhttp://orcid.org/0000-0002-3730-6519
ORCID Icon &
Ofelia AlessandrinoDepartment of Science of Agriculture, Food and Environment (SAFE) - University of Foggia, Foggia, Italy
Pages 556-565 | Published online: 30 Dec 2018

References

  • Anese, M., S. Sovrano, and R. Bortolomeazzi. 2008. Effect of radiofrequency heating on acrylamide formation in bakery products. European Food Research and Technology 226 (5):1197–1203.
  • Ayadi, F., C. Bliard, and P. Dole. 2011. Materials based on maize biopolymers: effect of flour components on mechanical and thermal behaviour. Starch - Stärke 63 (10):604–615.
  • Besbes, E., A. Le Bail, and K. Seetharaman. 2016. Impact of local hydrothermal treatment during bread baking on soluble amylose, firmness, amylopectin retrogradation and water mobility during bread staling. Journal of Food Science and Technology 53 (1):304–314.
  • Carr, N. O., N. W. D. Daniels, and P. J. Frazier. 1992. Lipid interactions in breadmaking. Critical Reviews in Food Science and Nutrition 31 (3):237–258.
  • Chaiyakul, S., K. Jangchud, A. Jangchud, P. Wuttijumnong, and R. Winger. 2009. Effect of extrusion conditions on physical and chemical properties of high protein glutinous rice-based snack. Journal of Food Science and Technology 42:781–787.
  • Chhanwal, N., P. N. Ezhilarasi, D. Indrani, and C. Anandharamakrishnan. 2015. Influence of electrical and hybrid heating on bread quality during baking. Journal of Food Science and Technology 52 (7):4467–4474.
  • Chavan, R. S., and S. R. Chavan. 2010. Microwave baking in food industry: A review. International Journal of Dairy Science 5:113–127.
  • De Pilli, T., A. Derossi, R. A. Talja, K. Jouppila, and C. Severini. 2011a. Study of starch-lipid complexes in model system and real food produced using extrusion-cooking technology. Innovative Food Science and Emerging Technologies 12 (4):610–616.
  • De Pilli, T., A. Derossi, R. A. Talja, K. Jouppila, and C. Severini. 2012. Starch–lipid complex formation during extrusion-cooking of model system (rice starch and oleic acid) and real food (rice starch and pistachio nut flour). European Food Research and Technology 234 (3):517–525.
  • De Pilli, T., A. G. Fiore, R. Giuliani, A. Derossi, and C. Severini. 2011b. Functional food produced by extrusion: Cooking technology. In Food production: New research, eds. M. L Salander and D. N. Alwell, 1–44. New York: Nova Publisher.
  • De Pilli, T., R. Giuliani, A. Buléon, B. Pontoire, and J. Legrand. 2016. Effects of protein–lipid and starch–lipid complexes on textural characteristics of extrudates based on wheat flour with the addition of oleic acid. International Journal of Food Science & Technology 5:1063–1074.
  • De Pilli, T., K. Jouppila, J. Ikonen, J. Kansikas, A. Derossi, and C. Severini. 2008. Study on formation of starch–lipid complexes during extrusion-cooking of almond flour. Journal of Food Engineering 87 (4):495–504.
  • De Pilli, T., J. Legrand, A. Derossi, and C. Severini. 2015. Effect of proteins on the formation of starch–lipid complexes during extrusion-cooking of wheat flour with the addition of oleic acid. International Journal of Food Science & Technology 50 (2):515–521.
  • Delcour, J.A., and R.C. Hoseney. 2009. Principles of cereal science and technology. Minnesota: AACC International Inc.
  • Dextrumaux, A., J. M. Bouvier, and J. Burri. 1999. Effect of free fatty acids addition on corn grits extrusion cooking. Cereal Chemistry 76:699–704.
  • Fan, D., L. Wang, W. Chen, S. Ma, W. Ma, X. Liu, J. Zhao, and H. Zhang. 2014. Effect of microwave on lamellar parameters of rice starch through small-angle X-ray scattering. Food Hydrocolloids 35:620–626.
  • Fischer, T. 2004. Effect of extrusion cooking on protein modification in wheat flour. European Food Research and Technology 218 (2):128–132.
  • Goesaert, H., K. Brijs, W. S. Veraverbeke, C. M. Courtin, K. Gebruers, and J. A. Delcour. 2005. Wheat flour constituents: How they impact bread quality, and how to impact their functionality. Trends in Food Science and Technology 16 (1–3):12–30.
  • Hesso, N., A. Le-Bail, C. Loisel, S. Chevallier, B. Pontoire, D. Queveau, and P. Le-Bail. 2015. Monitoring the crystallization of starch and lipid components of the cake crumb during staling. Carbohydrate Polymers 133:533–538.
  • Ilo, S., R. Schoenlechner, and E. Berghofe. 2000. Role of lipids in the extrusion cooking processes. Grasas Y Aceites 51 (1–2):97–110.
  • Izzo, M. T., and C. T. Ho. 1989. Protein-lipid interaction during single screw extrusion of zeine and corn oil. Cereal Chemistry 66:47–51.
  • Jojo, S., and M. Radhakrishnan. 2013. Radio frequency heating and its application in food processing: A review. International Journal of Agricultural Research 1 (9):42–46.
  • Keskin, S. O., G. Sumnu, and S. Sahin. 2004. Bread baking in halogen lamp-microwave combination oven. Food Research International 37:489–495.
  • Lau, E., W. Zhou, and C. J. Henry. 2016. Effect of fat type in baked bread on amylose-lipid complex formation and glycaemic response. The British Journal of Nutrition 115 (12):2122–2129.
  • Le-Bail, A., S. Agrane, and D. Queveau. 2012. Impact of the baking duration on bread staling kinetics. Food and Bioprocess Technology 5 (6):2323–2330.
  • Lewicka, K., P. Siemion, and P. Kurcok1. 2015. Chemical modifications of starch: Microwave effect. International Journal of Polymer Science 5:1–10.
  • McCann, T. H., D. M. Small, I. L. Batey, C. W. Wrigley, and L. Day. 2009. Protein-lipid interactions in gluten elucidated using acetic-acid fractionation. Food Chemistry 115 (1):105–112.
  • Megahey, E. K., W. A. M. McMinn, and T. R. A. Magee. 2005. Experimental study of microwave baking of Madeira cake batter. Food and Bioproducts Processing 83 (4):277–287.
  • Nebesny, E., J. Rosicka, and M. Tkaczyk. 2005. Influence of selected parameters of starch gelatinisation and hydrolysis on stability of amylose–lipid complexes. Starch - Stärke 57 (7):325–331.
  • Onyango, C. 2016. Starch and modified starch in bread making: A review. African Journal of Food Science 10 (12):344–351.
  • Ortolan, F., and C. J. Steel. 2017. Protein characteristics that affect the quality of vital wheat gluten to be used in baking: A review. Comprehensive Reviews in Food Science and Food Safety 16 (3):369–381.
  • Ozkoc, S. O., G. Sumnu, S. Sahin, and E. Turabi. 2009. Investigation of physicochemical properties of breads baked in microwave and infrared-microwave combination ovens during storage. European Food Research and Technology 228 (6):883–893.
  • Palav, T., and K. Seetharaman. 2007. Impact of microwave heating on the physical-chemical properties of a starch–water model system. Carbohydrate Polymers 67 (4):596–604.
  • Panozzo, J. F., M. C. Hannah, L. O. Brien, and F. Bekes. 1993. The relationship of free lipids and flour protein to bread making quality. Journal of Cereal Science 17 (1):47–62.
  • Patel, B. K., and K. Seetharaman. 2010. Effect of heating rate at different moisture contents on starch retrogradation and starch-water interactions during gelatinization. Starch - Stärke 62 (10):538–546.
  • Patel, B. K., R. D. Waniska, and K. Seetharaman. 2005. Impact of different baking processes on bread firmness and starch properties in breadcrumb. Journal of Cereal Science 42 (2):173–184.
  • Purlis, E. 2010. Browning development in bakery products. A review. Journal of Food Engineering 99 (3):239–249.
  • Putseys, J. A., L. J. Derde, L. Lamberts, E. Ostman, I. M. Björck, and J. A. Delcour, 2010. Functionality of short chain amylose-lipid complexes in starch-water systems and their impact on in vitro starch degradation. Journal of Agricultural and Food Chemistry 58 (3):1939–1945.
  • Regier, M., M. Rother, and H.P. Schuchmann. 2010. Alternative heating technologies. In Processing effects on safety and quality of foods, ed. E. Ortega-Rivas, 188–245. Boca Raton, FL: CRC Press.
  • Rosell, C.M. 2011. The science of doughs and bread quality. In Flour and breads and their fortification in health and disease prevention, eds. R. Ross, W. V. Preedy, and V. B. Patel, 3–14. Amsterdam: Elsevier/Academic Press.
  • Sakai, N., and W. Mao. 2006. Infrared heating. In Thermal food processing: New technologies and quality, ed. D. W. Sun, 493–525. Boca Raton, FL: CRC Press/Taylor and Francis.
  • Sakiyan, O., G. Sumnu, S. Sahin, V. Meda, H. Koksel, and P. Chang. 2011. A study on degree of starch gelatinization in cakes baked in three different ovens. Food and Bioprocess Technology 4 (7):1237–1244.
  • Sandu, C. 1986. Infrared radiative drying in food engineering: A process analysis. Biotechnology Progress 2 (3):109–119.
  • Sato, H., K. Hatae, and A. Shimada. 1992. Effects of radiant characteristics of crust formation and coloring process of food surface. Studies of radiative heating condition of food: Part 1. Nippon Shokuhin Kogyo Gakkaishi 39 (9):784–789.
  • Schofield, J. D., R. C. Bottomley, M. F. Timms, and M. R. Booth. 1983. The effect of heat on wheat gluten and the involvement of sulphydryl-disulphide interchange reactions. Journal of Cereal Science 1 (4):241–253.
  • Seetharaman, K., N. Chinnapha, R. D. Waniska, and P. White. 2002. Changes in textural, pasting and thermal properties of wheat buns and tortillas during storage. Journal of Cereal Science 35 (2):215–223.
  • Seyhun, N., G. Sumnu, and S. Sahin. 2005. Effects of different starch types on retardation of staling of microwave-baked cakes. Food and Bioproducts Processing 83 (1):1–5.
  • Shah, U., A. Gani, B. A. Ashwar, A. A. Shah, I. Wani, and F. A. Masoodi. 2016. Effect of infrared and microwave radiations on properties of Indian horse chestnut starch. International Journal of Biological Macromolecules 84:166–173.
  • Shyu, Y. S., W. C. Sung, M. H. Chang, and J. Y. Hwang. 2008. Effect of far-infrared oven on the qualities of bakery products. Journal of Food Science and Technology 6 (2–3):105–118.
  • Stathopoulos, C. E., A. A. Tsiami, J. D. Schofield, and B. J. Dobraszczyk. 2008. Effect of heat on rheology, surface hydrophobicity and molecular weight distribution of glutens extracted from flours with different bread-making quality. Journal of Cereal Science 47 (2):134–143.
  • Therdthai, N., T. Tanvarakom, P. Ritthiruangdej, and W. Zhou. 2016. Effect of microwave assisted baking on quality of rice flour bread. Journal of Food Quality 39 (4):245–254.
  • Therdthai, N., and W. Zhou. 2003. Recent advances in the studies of bread baking process and their impacts on the bread baking technology: A review. Food Science and Technology Research 9 (3):219–226.
  • Therdthai, N., and W. Zhou. 2014. Manufacture, Ch. 27. In Bakery products science and technology, eds. W. Zhou and Y. H. Hui, 776. Singapore: Wiley-Blackwell.
  • Vignali, G., and A. Volpi. 2013. Analysis and evaluation of cooking parameters for sweet bakery products. Advance Journal of Food Science and Technology 5 (7):843–854.
  • Wang, K.-Q., S.-Z. Luo, X.-Y. Zhong, J. Cai, S.-T. Jiang, and Z. Zheng. 2017. Changes in chemical interactions and protein conformation during heat-induced wheat gluten gel formation. Food Chemistry 214:393–399.
  • Wang, P., Z. Jin, and X. Xu. 2015. Physicochemical alterations of wheat gluten proteins upon dough formation and frozen storage. A review from gluten, glutenin and gliadin perspectives. Trends in Food Science and Technology 46 (2):189–198.
  • Xie, Y., M. Yan, S. Yuan, S. Sun, and Q. Huo. 2013. Effect of microwave treatment on the physicochemical properties of potato starch granules. Chemistry Central Journal 7 (1):113.
  • Zhang, G., and B. R. Hamaker. 2004. Starch-free fatty acid complexation in the presence of whey protein. Carbohydrate Polymers 55 (4):419–424.
  • Ziobro, R., T. Witczak, L. Juszczak, and J. Korus. 2013. Supplementation of gluten-free bread with non-gluten proteins. Effect on dough rheological properties and bread characteristic. Food Hydrocolloids 32 (2):213–220.

Reprints and Corporate Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

To request a reprint or corporate permissions for this article, please click on the relevant link below:

Order Reprints Request Corporate Permissions

Academic Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

Obtain permissions instantly via Rightslink by clicking on the button below:

Request Academic Permissions

If you are unable to obtain permissions via Rightslink, please complete and submit this Permissions form. For more information, please visit our Permissions help page.

Related research

People also read lists articles that other readers of this article have read.

Recommended articles lists articles that we recommend and is powered by our AI driven recommendation engine.

Cited by lists all citing articles based on Crossref citations.
Articles with the Crossref icon will open in a new tab.