Improving the Physiochemical, Rheologicl and Processing Characteristics of Wheat Flour Fortified by ß-Glucan extracted from Barley and Oat

References AACC. (2000). Approved Methods of the AACC, 10th edn. Methods 44-15A, 08-01, 46-10, 25-30, 45-32, 38-12A, 54-21, 39-10, 54-10. St Paul, MN. AACC. Abou-Zaid, A. and Elbandy, M. (2012). Rheological properties and quality evaluation of pan bread and biscuits supplemented with mushroom micelles flours. Australian Journal of Basic and Applied Sciences, 6, 237-245. Adeola, A. A. and Ohizua, E. R. )2018(. Physical, chemical, and sensory properties of biscuits prepared from flour blends of unripe cooking banana, pigeon pea, and sweet potato. Food Science & Nutrition, 6, 532-540. Adeyeye, S. A. and Akingbala, J. O. )2015(. Physico-chemical and functional properties of cookies produced from sweetpotato-maize flour blends. Food Science and Quality Management, 43, 48-57.Ahmad, A., Anjum, F. M., Nawaz, H. and Zahoor, T. (2012a). Beta glucan: A valuable functional ingredient in foods. Critical Reviews in Food Science and Nutrition, 52, 201-212. Ahmad, A., Anjum, F. M., Zahoor, T. and Nawaz, H. (2009b). Extraction of ß-glucan from oat and its interaction with glucose and lipoprotein profile. Pakistan Journal of Nutrition, 8, 1486-1492. Ahmad, A., Anjum, F. M., Zahoor, T., Nawaz, H. and Ahmed, Z. (2010). Extraction and characterization of ß-d-glucan from oat for industrial utilization. International Journal of Biological Macromolecules, 46, 304-309. Ahmad, A., Anjum, F. M., Zahoor, T., Nawaz, H. and Din, A. (2009a). Physicochemical and functional properties of barley b-glucan as affected by different extraction procedures. International Journal of Food Science and Technology, 44, 181-187. Ahmad, A., Munir, B., Abrar, M., Bashir, S., Adnan, M. and Tabassum, T. (2012b). Perspective of β-glucan as functional ingredient for food industry. Journal of Nutrition & Food Sciences, 2, 133-141. Ahmad, A., Anjum, F., Zahoorb, T., Chathab, Z. A. and Nawazc, H.. (2008). Effect of barley β-glucan on sensory characteristics of bread. Pak. J. Agri. Sci., 45, 1-9. Ahmed, J. )2015(. Effect of barley b-glucan concentrate on oscillatory and creep behavior of composite wheat flour dough. Journal of Food Engineering, 152, 85-94. Aimanianda, V., C. Clavaud, C. Simenel, T. Fontaine, M. Delepierre, and J.-P. Latge. (2009). Cell wall β-(1,6)-glucan of Saccharomyces cerevisiae. Journal of Biological Chemistry, 284, 13401–13412. Aktas-kyildiz, E., Sibakov, J., Nappa, M., Hytönen, E., Koksel, H. and Poutanen, K. )2018(. Extraction of soluble β-glucan from oat and barley fractions: Process efficiency and dispersion stability. Journal of Cereal Science, 81, 60-68Allen, L ., Benoist , B.D., Dary , O. and Hurrell, R. (2006). Fortificants: physical characteristics, selection and use with specific food vehicles .Guidelines on food fortification with micronutrients. Food and Agricultural Organization of the United Nations, World Health organization, 94-134. Al-Sahlany, S. T. G. and Al-musafer, A. M. S. )2020(. Effect of substitution percentage of banana peels flour in chemical composition, rheological characteristics of wheat flour and the viability of yeast during dough time. Journal of the Saudi Society of Agricultural Sciences, 19, 87–91 Al-Saleh, A. and Brennan, C. S. (2012). Bread wheat quality: Some physical, chemical and rheological characteristics of Syrian and English bread wheat samples. Foods, 1, 3-17. Aly, A. A., El-Deeb, F. E., Abdelazeem, A. A., Hameed, A. M., Alfi, A. A., Alessa, H. and Alrefaei, A. F. )2021(. Addition of Whole Barley Flour as a Partial Substitute of Wheat Flour to Enhance the Nutritional Value of Biscuits. Arabian Journal of Chemistry, 14, 103-112. Aman, P. and Graham, H. )1987(. Analysis of Total and Insoluble Mixed-Linked (1 3),( 1+4)-P-~-Glucans in Barley and Oats. Journal of Agricultural and Food Chemistry, 35, 704-709. Anderson, J. W., Baird, P., Davis Jr, R. H., Ferreri, S., Knudtson, M., Koraym, A., Waters, V. and Williams, C. L. (2009). Health benefits of dietary fiber. Nitration Reviews, 67, 188-205. Andersson, A. A. H. and Aman, P. )2008(. Functional barley products. B. R. Hamaker (ed.). Technology of Functional Cereal Products. Woodhead Publishing Limited, CRC Press, Cambridge, 261-280. Andlauer, W and Furst, P. 2002. Nutraceuticals: a piece of history, present status and outlook. Food Research International, 35, 171–176Andrzej, K. M., Małgorzata, M., Sabina, K., Olaf K, H. and Rodak, E. )2020(. Application of rich in b-glucan flours and preparations in bread baked from frozen dough. Food Science and Technology International, 26, 53-64. Antontсeva, E. Belyakova, T. Zabodalova, L. and Mark Shamtsyan, M. (2019). Fortification of yogurt with β-glucans from oyster mushroom. Food Balt, 50-54. Anusooya, S. S., Dongxiao, S. W., Siew, Y. Q. and Conrad, O. P. (2010). Properties of bread dough with added fiber polysaccharides and phenolic antioxidants: A review. Journal of Food Science, 75, 1-12. Aoe, Seiichiro. (2022). Beta-Glucan in Foods and Health Benefits. Nutrients, 14, 96. Azizi, M. H., Sayeddin, S. M. and Payghambardoost, S. H. 2006. Effect of flour extraction rate on flour composition, dough rheological characteristics and quality of flat bread. J. Agric. Sci. Technol., 8, 323-330. Bacha, U., Nasir, M., Iqbal, S. and Anjum, A. A. (2018). Influence of Yeast β-Glucan on Cookies Sensory Characteristics and Bioactivities. Journal of Chemistry, 1-8. Bakarea, A.H., Adegunwaa, M.O., Akinribidob, O.M and Obadinaa, O.A. (2015). Proximate, Baking, and Sensory Qualities of Biscuits from Wheat and Fermented Breadfruit (Artocarpus communis Frost) Flour. Journal of Culinary Science & Technology, 12, 316–325. Bala, A., Gul, K. and Riar, C. S. (2015). Functional and sensory properties of cookies prepared from wheat flour supplemented with cassava and water chestnut flours. Cogent Food and Agriculture, 1. Bangari, M. (2011). Effects of Oat Beta Glucan on the Stability and Textural Properties of Beta Glucan Fortified Milk Beverage. A Research Paper Submitted in Partial Fulfillment of the Requirements for the Master of Science Degree in Food and Nutritional Sciences. University of Wisconsin-Stout, U.S. state of Wisconsin, 1-51.Beck, E. J., S. M. Tosh, M. J. Batterham, L. C. Tapsell and X. F. Huang. (2009). Oat beta-glucan increases postprandial cholecystokinin levels, decreases insulin response and extends subjective satiety in overweight subjects. Molecular Nutrition & Food Research, 53, 1343-1351. Bellido, G. G., Martin G. Scanlon, M. G. and Page, J. H. (2009). Measurement of dough specific volume in chemically leavened dough systems. Journal of Cereal Science, 49, 212–218. Berggren, S. (2017). Water holding capacity and viscosity of ingredients from oats, The effect of B-glucan and starch content, particle size, pH and temperature. Bachelor thesis project in chemistry -15 hp-. Linnaeus University. Sweden, 1-32. Berry, D. Inside the importance of flour quality. World-Grain. 18.08.2021. https://www.world-grain.com/articles/15717-inside-the-importance-of-flour-quality. Bhatty, R. S. (1993). Extraction and enrichment of (1-3),(1-4)-B-D-glucan from barley and oat brans. American Association of Cereal Chemists, 70, 73-77. Bio¨rklund, M., van Rees, A., Mensink, R. P. and O¨nning, G. (2005). Changes in serum lipids and postprandial glucose and insulin concentrations after consumption of beverages with β-glucans from oats or barley: a randomized dose-controlled trial. European Journal of Clinical Nutrition, 59, 1272–1281. Blanco, C. M. S., Steffolani, M. E., León, A. E. and Ribotta, P. D. (2017). Effect of different fibers on dough properties and biscuit quality. Journal of The Science of Food and Agriculture, 97, 1607-1615. Brennan, C. S. and Samyue, E. (2004). Evaluation of starch degradation and textural characteristics of dietary fiber enriched biscuits. International Journal of Food Properties, 7, 647-657.Brown, L., Rosner, B., Willett, W. W. and Sacks, F. M. (1999). Cholesterol-lowering effects of dietary fiber: A meta-analysis. The American Journal of Clinical Nutrition, 69, 30-42. Bukya, A., Sunooj, K. and Babu, D. (2013). Standardization and evaluation of physical, textural and organoleptic properties of chicken biscuits. International Journal of Advanced Research, 1, 163-168. Cauvain, S. (2015). Technology of Breadmaking. Third Edition. Springer International Publishing, London. Cauvain, S. and Young, L. (2009). The Role of Water in the Formation and Processing of Bread Doughs. Bakery Food Manufacture and Quality: Water Control and Effects. 32-72 Cavallero, A., Empilli, S., Brighenti, F. and Stanca, A. M. (2002). High (1-3, 1-4)-betaglucan barley fractions in bread making and their effects on human glycemic response. Journal of Cereal Science, 36, 59-66. Chauhan, A., Saxena, D. C. and Singh, S. (2015). Total dietary fibre and antioxidant activity of gluten free cookies made from raw and germinated amaranth (Amaranthus spp.) flour. LWT - Food Science and Technology, 63, 939-945. Chauhan, A., Saxena, D. C. and Singh, S. (2016). Physical, textural and sensory characteristics of wheat and amaranth flour blend cookies. Cogent Food and Agriculture, 2, 1-8. Chen, J. H. and Huang, X. F. (2009). The effects of diets enriched in beta-glucans on blood lipoprotein concentrations. Journal of Clinical Lipidology, 3, 154–158. Cheung, N. V. and Modak, S. (2002). Oral (1-->3),(1-->4)-beta-D-glucan synergizes with ntiganglioside GD2 monoclonal antibody 3F8 in the therapy of neuroblastoma. Clinical Cancer Research, 8, 1217–1223. Cheung, N. V., Modak, S., Vickers, A. and Knuckles, B. (2002). Orally administered β-glucans enhance anti-tumor effects of monoclonal antibodies. Cancer Immunology, Immunotherapy, 51, 557–564.Chiozzi, V., Eliopoulos, C., Markou, G., Arapoglou, D., Agriopoulou, S., A. El Enshasy, H. and Varzakas, T. (2021). Biotechnological Addition of β-Glucans from Cereals, Mushrooms and Yeasts in Foods and Animal Feed. Processes, 9, 1-23. Codex Alimentarius . (2013). General Principles for The Addition of Essential Nutrients to Foods CAC/GL 09-1987 (amended 1989, 1991). Global Food Mate. Cook, c. M., Rains, T. M. and Maki, K. C. (2013). Effects of Oats on Obesity, Weight Management, and Satiety. In, Fang, C. Y.: Oats Nutrition and Technology. 1st Edition. John Wiley & Sons, Ltd., Chichester, UK, 265-279. Daou, C. and Zhang, H. (2012). Oat beta-glucan: its role in health promotion and prevention of diseases. Comprehensive Reviews in Food Science and Food Safety, 11, 355–365. Davison, K. M. and Temple, N. J. (2018). Cereal Fiber, Fruit Fiber, and Type 2 Diabetes: Explaining the Paradox. Journal of Diabetes and its Complications,32, 240-245. Dhingra, D., Michael, M., Rajput, H. and Patil, R. T. (2012). Dietary fibre in foods: A review. Journal of Food Science and Technology, 49, 255-266. Du, B., Bian, Z. and Xu, B. (2014). Skin health promotion: Effects of natural beta-glucan derived from cereals and microorganisms: A review. Phytotherapy Research, 28, 159-166. Elbasyouny, M. A., Kamar, M. S. and Abdalla, A. E. (2019). Quality Characteristics of Biscuits Prepared from Wheat Flour and Biscuit Scrap Powder. International Journal of Advance Agricultural Research, 24, 146-163. ElKhoury, D., Cuda, C., Luhovyy, B. L. and Anderson, G. H. (2012). Beta glucan: Health benefits in obesity and metabolic syndrome. Journal of Nutrition and Metabolism, 2912, 1-28. Elleuch, M., Bedigian, D., Roiseux, O., Besbes, S., Blecker, C. and Attia, H. (2011). Dietary fibre and fibre-rich by-products of food processing: Characterisationtechnological functionality and commercial applications: A review. Food Chemistry,124, 411–421. Elmehdi, H., Page, J. and Scanlon, M. (2007). Evaluating Dough Density Changes During Fermentation by Different Techniques. Cereal Chemistry,84, 250-252. Erive, M., He, F., Wang, T. and Chen, G. (2020). Development of β-glucan enriched wheat bread using soluble oat fiber. Journal of Cereal Science, 95, 1-29. European Food Safety Authority. (2011). Scientific Opinion on the substantiation of a health claim related to barley beta-glucans and lowering of blood cholesterol and reduced risk of (coronary) heart disease pursuant to Article 14 of Regulation (EC) No 1924/2006. European Food Safety Authority Journal, 9, 2470-2484. Parma, Italy. Fan, R., Zhou, D. and Cao, X. (2020). Evaluation of Oat _-Glucan-Marine Collagen Peptide Mixed Gel and Its Application as the Fat Replacer in the Sausage Products. Plos One,15, 1-14. Farahnaky, A. and Hill, S. E. (2007). The effect of salt, water and temperature on wheat dough rheology. Journal of Texture Studies, 38, 499–510. Fazary, N. T. A. A. and Younis, Y. M. (2015). Seed properties and fatty acid composition of flaxseed oil (Linum Usitatissimum). World Journal of Pharmacy and Pharmaceutical Sciences, 4, 69-99. Fišteš, A., Došenović, T., Rakić, D., Pajin, B., Šereš, Z., Simović, Š. and Lončarević, I. (2014). Statistical analysis of the basic chemical composition of whole grain flour of different cereal grains. Acta Universitatis Sapientiae, Alimentaria, 7, 45-53. Food and Agriculture Organization of the United Nations (FAO). (2003). Food Energy-Methods of Analysis and Conversion Factors. Food and Agriculture Organization of the United Nations. Rome. Food and Drug Administration (FDA). (2018). National Barley Food Council. FDA health claim barley facts. Washington, USAForsido, S. F., Hordofa, A. A., Ayelign, A., Belachew, y. and Hensel, O. (2020). Effects of fermentation and malt addition on the physicochemical properties of cereal based complementary foods in Ethiopia. Heliyon, 6, e04606. Freimund, S., Sautera, M., Ka¨ppelib, O. Dutlera, H. (2003). A new non-degrading isolation process for 1,3-b-D-glucan of high purity from baker’s yeast Saccharomyces cerevisiae. Carbohydrate Polymers, 54, 159–171. Gadallah, M. (2018). Enhancement of nutritional value, quality and sensory properties of biscuit by incorporating oat flour. Journal of Agriculture and Veterinary Sciences, 11, 213-224. Giwa, E. O. and Ikujenlola, A. V. (2010). Quality characteristics of biscuits produced from composite flour of wheat and quality protein maize. African Journal of Food Science and Technology, 1, 116-119. Gonzalez, J., Gallo, R., Correa, D, Gallo García, L. and Castillo, P. (2018). Instrumental assessment of textural parameters of Colombian lemon biscuits. Contemporary Engineering Sciences, 11, 1085-1102. Hager, A., Ryan, L. A. M., Schwab, C., Ganzle, M. G., O’Doherty, J. V. and Arendt, E. K. (2011). Influence of the soluble fibres inulin and oat β-glucan on quality of dough and bread. The Journal European Food Research and Technology, 232, 405-413. Haridas, R. P. (2017). Technology of Biscuits. Fundamentals of Baking. The Indira Gandhi National Open University, 39- 67. Hooda, S., Matte, J. J., Vasanthan, T. and Zijlstra, R. T. (2010). Dietary purified oat β-glucan reduces peak glucose absorption and portal insulin release in portal-vein catheterized grower pigs. Livestock Science, 134, 15–17. Howarth, N. C., Saltzman, E. and Roberts, S. B. (2001). Dietary fiber and weight regulation. Nutrition Reviews, 59, 129–139. Huang, Z., Zhao, Y., Zhu, K., Guo, X., Peng, W. and Zhou, H. (2017). Effect of barley β-glucan on the gluten polymerization process in dough during heat treatment. Journal of Agricultural and Food Chemistry, 29, 6063-6069Ibrahim, M. N. G., Stanislavovna, S. I. and Igorevna, L. K. (2017). Acidic extraction of oat beta glucan by high purity. MOJ Food Processing & Technology, 4, 1-5. Karp, S., Wyrwisz, J. and Kurek, M. A. (2020). The impact of different levels of oat β-glucan and water on gluten-free cake rheology and physicochemical characterisation. Journal of Food Science and Technology, 57, 3628-3638. Kaukovirta-Norja, A. and Lehtinen, P. (2008). Traditional and modern oat-based foods. Hamaker, B. R. Technology of Functional Cereal Products. Woodhead Publishing Limited, CRC Press, Cambridge, 215-232. Kaur, R., Sharma, M., Ji, D., Xu, M. and Agyei, D. (2020). Structural features, modification, and functionalities of beta-glucan. Fibers, 8, 1-29. Keenan, J. M., Pins, J. J., Frazel, C., Moran, A. and Turnquist, L. (2002). Oat ingestion reduces systolic and diastolic blood pressure in patients with mild or borderline hypertension: a pilot trial. The Journal of Family Practice, 51, 369–374. Kenny, S.,Wehrle, K., Stanton, C. and Arendt, E. K. (2000). Incorporation of dairy ingredients into wheat bread: effects on dough rheology and bread quality. The Journal European Food Research and Technology, 210, 391–396. Khater, E. G. and Bahnasawy, A. H. (2014). Heat and Mass Balance for Baking Process. Journal of Bioprocessing & Biotechniques,4, 1-6. Khatkar, B. S., Bell, A. E. and Schofield, J. D. (1996). A comparative study of the interrelationships between mixograph parameters and bread-making qualities of wheat flours and glutens. Journal of the Science of Food and Agriculture, 72, 71-85. Kim, M. S., Park, Y. D. and Lee, S. R. (2008). Preparation Method of Beta-glucan From Schizophyllum Commune and Composition for External Application Comprising The Same. US patent 2008/ 016043A1, Jun. 3Knuckles, B. E., Hudson, C. A., Chiu, M. M. and Sayre, R. N. (1997). Effect of beta-glucan barley fractions in high-fibre bread and pasta. Cereal Foods World, 42, 94-99. Kohajdova, Z., Karovičova, J. and Jurasova, M. (2012). Influence of carrot pomace powder on the rheological characteristics of wheat flour dough and on wheat rolls quality. Acta Scientiarum Polonorum Technologia Alimentaria, 11, 381-387. Krawecka, A., Sobota, A. and Sykut-Doma´ nska, E. (2020). Physicochemical, Sensory, and Cooking Qualities of Pasta Enriched with Oat _-Glucans, Xanthan Gum, and Vital Gluten. Foods, 9, 1412-1430. Kurek, M. (2015). The application of dietary fiber in bread products. Journal of Food Processing & Technology, 06, 1-4. Kurek, M. A., Wyrwisz, J. and Wierzbicka, A. (2015). Effect of β-glucan particle size on the properties of fortified wheat rolls. CyTA - Journal of Food, 14, 124-130. Kurek, M. A., Wyrwisz, J., Brzeska, M., Moczkowska, M., Karp, S. and Wierzbicka, A. (2018). Effect of different beta-glucan preparation pretreatments on fortified bread quality. Food Science and Technology, 38, 1-6. Kurek, M., Małgorzata, M., Sabina, K., Horbańczuk, O. K. and Rodak, E. (2019). Application of rich in β-glucan flours and preparations in bread baked from frozen dough. Food Science and Technology International, 26, 1-12. Laguna, L., Sanz, y., Sahi, S. and Fiszman, S. M. (2014). Role of fibre morphology in some quality features of fibre-enriched biscuits. International Journal of Food Properties, 17, 163-178. Lattimer, J. M. and Haub, M. D. (2010). Effects of dietary fiber and its components on metabolic health. Nutrients, 2, 1266-1289. Leiva-Valenzuela, G. A., Quilaqueo, M., Lagos, D., Estay, D. and Pedreschi, F. (2018). Effect of formulation and baking conditions on the structure anddevelopment of non-enzymatic browning in biscuit models using images. Journal of Food Science and Technology, 55, 1234-1243. Martenssona, O., Duen¨a-Chascob, M., Irastorzab, A., Holsta, O., Rudlingc, M., Norind, E., Midtvedte, T. and O¨ stef, R. (2002). Effects of fermented, ropy, non-dairy, oat-based products on serum lipids and the faecal excretion of cholesterol and short chain fatty acids in germfree and conventional rats. Nutrition Research, 22, 1461–1473. Maheshwari, G., Sowrirajan, S. and Joseph, B. (2017). Extraction and isolation of β-glucan from grain sources-A review. Journal of Food Science, 82, 1535-1545. Maki, K. C., Schinnic, k. F., Sceley, M. A., Veith, P. E., Quinn, L.C., Hallissey, P.J., Temer, A. and Davidson, M. H. (2003). Food products containing free tall-oil based phytosterol and oat β-glucan lower serum total and LDL-cholesterol in hypercholesterolemic adults. The Journal of Nutrition, 133, 808–813. Mamat, H. and Hill, S. E. (2014). Effect of fat types on the structural and textural properties of dough and semi-sweet biscuit. Journal of Food Science and Technology, 51, 1998-2005. Manley, D. (2001). Biscuit, cracker and cookie recipes for the food industry. Cambridge, UK: Woodhead Publishing Limited, 79-81. Many, J. N. and Vizhi, K. (2014). Analysis of different extraction methods on the yield and recovery of â-Glucan from baker’s yeast. International Journal of Innovative Science, Engineering & Technology, 1, 268-271. Mckemie, R. J. and Romanchik-cerpovicz, J. E. (2007). Fortification of All-Purpose Wheat- Flour Tortillas with Calcium Lactate, Calcium Carbonate, or Calcium Citrate Is Acceptable. Journal of The American Dietetic Association, 506 – 509. McMullen, S. D. (1991). Oats. Lorenz, K. J. and Kulp, K. Handbook of Cereal Science and Technology. Marcel Decker Inc., New York, 199-232. Mikkelsen, M. S. (2013). Comparison of Functional and Nutritional Characteristics of Barley and Oat Mixed Linkage β-glucans. PhD ThesisUniversity of Copenhagen. Faculty of Science Department of Food Science. Denmark, 1-44. Modak, S., Kushner, B. H., Kramer, K., Vickers, A., Cheung, I. and Cheung, N. V. (2013). Anti-GD2 antibody 3F8 and barley-derived (1 → 3),(1 → 4)-β-D-glucan: A Phase I study in patients with chemoresistant neuroblastoma. OncoImmunology, 2, 1-8. Mohamed, A. A., Rayas-Duarte, P., Xu, J. Y., Palmquist, D. E. and Inglett, G. E. (2005). Hard red winter wheat/Nutrim-OB alkaline fresh noodles: Processing and texture analysis. Journal of Food Science, 70, 1-7. Mousia, Z., Campbell, G. M., Pandiella, S. S. and Webb, C. (2007). Effect of fat level, mixing pressure and temperature on dough expansion capacity during proving. Journal of Cereal Science, 46, 139-147. Nadiah, W., Aziah, N. and See, E. F. (2007). Physico-Chemical and Sensory Evaluation of Breads Supplemented with Pumpkin Flour. ASEAN Food Journal, 14, 123 -130. Nakov, G., Stamatovska, V., Jukić, M., Necinova, L., Ivanova, N., Šušak, A. and Komlenić, D. K. (2019). Beta glucans in biscuits enriched with barley flour made with different sweeteners. Journal of Hygienic Engineering and Design, 88, 92 Noorfarahzihah, M., Lee, J. S., Sharifudin, M. S., Mohd-Fadzelly, A. B. and Hasmadi, M. (2014). Application of composite flour in development of food products. International Food Research, 21, 2061-2074. Okpala, L. C. and Egwu, P. N. (2015). Utilisation ofbrokenriceandcocoyam flour blendsintheproduction of biscuits. Nigerian Food Journal, 33, 8–11. Oluwamukomi, M. O., Oluwalana, I. B. and Akinbowale, O. F. (2011). Physicochemical and sensory properties of wheat-cassava composite biscuit enriched with soy flour. African Journal of Food Science, 5, 50-56Omran, A., Ibrahim, O. and Mohamed, Z. (2016). Quality characteristics of biscuit prepared from wheat and flaxseed flour. Advances in Food Sciences, 38, 129-138. Patel, A., Devraja, H. C., Sharma, P. and Singh, R. R. B. (2019). Technology of biscuit making. Course Developers, Lesson 12, Module 3: Bakery and snack foods. Pentikäinen, S., Karhunen, L., Flander, L., Katina, K., Meynier, A., Aymard, P., Vinoy, S. and Poutanen, k. (2014). Enrichment of biscuits and juice with oat b-glucan enhances postprandial satiety. Appetite ,75, 150–156. Pereira, D., Correia, P. M. and Guine, R. P. (2013). Analysis of the physical-chemical and sensorial properties of maria type cookies. Acta Chimica Slovaca, 6, 269-280. Pillai, R., Redmond, M. and Roding, J. (2005). Anti-wrinkle therapy: significant new findings in the non-invasive cosmetic treatment of skin wrinkles with beta-glucan. International Journal of Cosmetic Science, 27, 292. Pins, J. J., Geleva, D., Keenan, J. M., Frazel, C., O’Connor, P. J. and Cherney, L. M. (2002). Do whole-grain oat cereals reduce the need for antihypertensive medications and improve blood pressure control?. The Journal of Family Practice, 51, 353–359. Raikos, V., Grant, S. B., Hayes, H. and Ranawana, V. (2018). Use of β-glucan from spent brewer’s yeast as a thickener in skimmed yogurt: Physicochemical, textural, and structural properties related to sensory perception. Journal of Dairy Science, 101, 5821–5831. Ravi, R., Manohar, R. and Rao, P. (2000). Influence of additives on the reological characteristics and baking quality of wheat flours. European Food Research and Technology, 210, 202-208. Renzyaeva, T. V. 2013. On the role of fats in baked flour goods. Foods and Raw Materials, 1, 19-25.Robbins, G. S., Pomeranz, Y. and Briggle, L. W. (1971). Amino acid composition of oat groats. Journal of Agricultural and Food Chemistry, 19, 536-539. Saastamoinen, M., Kumpulainen, J. and Nummela, S. (1989). Genetic and environmental variation of oil content and fatty acids composition of oats. Cereal Chemistry, 66, 296-300. Sahlstrøm, S. and Shelton, D. (2004). Factors influencing yeast fermentation and the effect of LMW sugars and yeast fermentation on hearth bread quality. Cereal Chemistry, 81, 328-335. Salehifar, M. and Shahedi, M. (2007). Effects of Oat Flour on Dough Rheology, Texture and Organoleptic Properties of Taftoon Bread. Journal of Agricultural Science and Technology, 9, 227-234. Saltzman, E., Das, S.K., Lichtenstein, A.H., Dallal, G.E., Corrales, A., Schaefer, E.J., Greenberg, A. and Roberts, S. B. (2001). An oat-containing hypocaloric diet reduces systolic blood pressure and improves lipid profile beyond effects of weight loss in men and women. The Journal of Nutrition, 131, 1465–1470. Samaan, J. (2007). Characterisation of Grain Quality of Syrian Durum Wheat Genotypes Affecting Milling Performance and End-use Quality. PhD Thesis, School of Biological Sciences, Faculty of Science, University of Plymouth, UK. Schmidt, M. (2020). Cereal beta-glucans: an underutilized health endorsing food ingredient. Critical Reviews in Food Science and Nutrition, 1-20. Shah, A., Gani, A., Masoodi, F. A., Wani, S. M. and Ashwar, B. A. (2017). Structural, rheological and nutraceutical potential of β-glucan from barley and oat. Bioactive Carbohydrates and Dietary Fibre, 10, 10-16. Sharma, S. (2015). Nutritional, sensory and textural analysis of biscuits supplemented with malted barley (Hordeum vulgare). International Journal of Food and Nutritional Sciences, 4, 97-101.Singh, S. and Pandey, R. K. (2018). Formulation of β-Glucan fortified milk beverage and its sensory acceptability. Journal of Pharmacognosy and Phytochemistry, 7, 1178-1181. Sivam, A. S., Sun-Waterhouse, D., Waterhouse, G. I. N., Quek, S. and Perera, C.O. (2011). Physicochemical properties of bread dough and finished bread with added pectin fiber and phenolic antioxidants. Journal of Food Science, 76, 97-107. Skendi, A., Biliaderis, C. G., Papageorgiou, M. and Izydorczyk, M. S. (2010). Effects of two barley b-glucan isolates on wheat flour dough and bread properties. Food Chemistry, 119, 1159-1167. Skendi, A., Papageorgiou, M. and Biliaderis, C. G. (2009). Effect of barley b-glucan molecular size and level on wheat dough rheological properties. Journal of Food Engineering, 91, 594-601. Slavin , J. L. (2005). Dietary fiber and body weight. Nutrition, 21, 411–418. Sofi, S. A., Singh, J. and Rafiq, S. (2017). β-glucan and functionality: A review. EC Nutrition, 10, 67-74. Sottnikova, V., Langová, R., Hřivna, L., Nedomová, Š. and Jůzl, M. (2019). Quality of biscuits as affected by addition of fibre. Potravinarstvo Slovak Journal of Food Sciences, 13, 206-211. Streppel, M. T., Arends, L. R., van’t Veer, P., Grobbee, D. E. and Geleijnse, J. M. (2005). Dietary fiber and blood pressure: a meta-analysis of randomized placebo-controlled trials. The Archives of Internal Medicine, 165, 150–156. Sudha, M. L., Srivastava, A. K., Vetrimani, R. and Leelavathi, K. (2007). Fat replacement in soft dough biscuits: Its implications on dough rheology and biscuit quality. Journal of Food Engineering, 80, 922-930. Symons, L. J. and Brennan, C. (2006). The influence of (1→3) (1→4)-β-D-Glucan-rich fractions from barley on the physicochemical properties and invitro reducing sugar release of white wheat breads. Journal of Food Science, 69, C463-C467. Tapola, N., Harvonen, H., Niskamen, L., Mikola, M. and Sarkkinen. (2005). Glycemic responses of oat bran products in type 2-diabetic patients. Nutrition, Metabolism & Cardiovascular Diseases, 15, 255–261 Tarancón, P., Fiszman, S., Salvador, A. and Tárrega, A. (2013). Formulating biscuits with healthier fats. Consumer profiling of textural and flavour sensations duringconsumption. Food Research International, 53, 134-140. Tejinder, S., Bhupinder, K. and Harinder, K. (2000). Flow behavior and functional properties of barley and oat water-soluble β-D-glucan rich extractions. International Journal of Food Properties, 3, 259-274. Theuwissen, E. and Mensink, R. P. (2008). Water-soluble dietary fibers and cardiovascular disease-a review. Physiology & Behavior, 94, 285–292. Tiwari, U. and Cummins, E. (2011). Meta-analysis of the effect of beta-glucan intake on blood cholesterol and glucose levels. Nutrition, 27, 1008–1016. Toyosaki, T. and Sakane, Y. (2013). Effects of Salt on Wheat Flour Dough Fermentation. Advance Journal of Food Science and Technology, 5, 84-89. Vaikousi, H., Biliaderis, C. G. and Izydorczyk, M. S. (2004). Solution flow behavior and gelling properties of water-soluble barley (1-3, 1-4)-β-glucans varying in molecular size. The Journal of Cereal Science, 39, 119-137. Vetvicka, V. Vetvickova, J. (2007). Physiological Effects of Different Types of β-glucan. Biomedical papers of the Medical Faculty of the University Palacky, Olomouc, Czech Republic, 151, 225–231. Wang, L., Ye, F., Li, S. h., Wei, F., Chen, J. and Zhao, G. (2017b). Wheat flour enriched with oat b- glucan: A study of hydration, rheological and fermentation properties of dough. Journal of Cereal Science, 75, 143-150. Wang, Q., Sheng, X., Shi, A., Hu, H., Yang, Y., Liu, L., Fei, L. and Liu, H. (2017a). β-Glucans: Relationships between modification, conformation and functional activities. Powder Technology, 315, 430-437.Williams, P. (1997). Variety development and quality control of wheat in Canada. International Japanese Conference on Near-Infrared Reflectance, CGC, 345-378. Wood, P. J. (2007). Cereal β-glucans in diet and health. Journal of Cereal Science, 46, 230–238. Wood, P. J., Beer, M. U. and Butler, G. (2000). Evaluation of the role of concentration and molecular weight of oat β-glucan in determining effect of viscosity on plasma glucose and insulin following an oral glucose load. British Journal of Nutrition, 84, 19–23. Xie, D., Lei, Y. and Sun, Y. (2022). Effect of glucose levels on the rheo-fermentation properties of dough during fermentation. International Journal of Food Science & Technology, 57, 552-569. Xu, B. and Wan, W. (2018). Development of an orange juice beverage formulated with oat beta-glucan and whey protein isolate. journal of the Science of Food and Agriculture, 98, 4685-4691. Yamashev, T., Gematdinova, V. and Kanarsky, A.V. (2020). The effect of oat beta-glucan isolate on the rheology of dough from premium wheat flour and the quality of bakery products. Processes and Food Production Equipment, 10, 62-75. Youngs, V. L. (1986). Oat lipids and lipid-related enzymes. Webster, F. H. Oats: Chemistry and Technology. American Association of Cereal Chemists, Inc., St. Paul, Minnesota, 205-226. Zaki, H. M., Elshawaf, A. M., El.Makhzangy, A. And Hussein, A. M. S. (2018). Chemical, rheological and sensory properties of wheat- oat flour composite cakes Brennan, 306. -, 23, 287Journal of Productivity and Development and biscuits.C. S. Samyue, E. (2004).Evaluation uits. International Journal of Food Properties, 7, 647657.