Evaluation of replacement of oil by Fenugreek seed gum on quality properties of low-fat chiffon cake

Authors
Sara Niasti
fatemeh pourhaji
bahareh sahraiyan
PhD, Food Science & Technology, Department of Food Science & Technology, Ferdowsi University of Mashhad, Mashhad, Iran
Abstract
In this project, low-fat composite (wheat-millet) cup cake was produced. Fenugreek seed gum (0.25, 0.50, 0.75 and 1%) was used as a fat replacer in levels of 0, 25, 50, 75 and 100 %. specific gravity and consistency of batter and moisture, specific volume, porosity, firmness (2 hours and 1 week after baking), crust color and sensory properties of chiffon cake were measured. The sample containing 0.25% Fenugreek seed gum had the lowest specific gravity and firmness and the highest specific volume, porosity, L* value and overall acceptability score. Also, the result showed the technological and sensory properties of sample containing 0.25% Fenugreek seed gum was similar to control. Moisture and a* value were increased and b* value was decreased by increasing Fenugreek seed gum. Finally, the removal of 50% of oil in chiffon cake formulation was performed successfully.
Keywords
millet
Image processing
Fenugreek seed gum
Low-calorie
Chiffon cake

Subjects

[1] Amirabadi, S., Koocheki, A. & Mohebbi, M. (2015). Effect of Xanthan and Lepidium perfoliatum seed gums on quality and shelf-life of Chiffon cake. Iranian Food Science and Technology Research Journal. 10(4): 375-386. [In Persian].
[2] Chappalwar, V. M., Peter, D., Bobde, H. & John, S. M. (2013). Quality characteristics of cookies prepared from oats and finger millet based composite flour. IRACST-Engineering Science and Technology: An International Journal (ESTIJ), 3: 677-683.
[3] Chhavi, A. and Sarita, S. (2012). Evaluation of composite millet breads for sensory and nutritional qualities and gly-cemicresponse. Malaysian journal of Nutrition, 18 (1): 89-101.
[4] Naas, (2012). Integration of millets in fortified foods, National Academy of Agricultural Sciences, New Delhi. Policy Paper NO. 54: 15P.
[5] Julia, R., Sarabjit, S., Sahi. And Isabel, H. 2014. Functionality of lipase and emulsifiers in low-fat cakes with inulin. LWT-Food Sience and Technology, 58(1): 173-182.
[6] Wafaa, M.M., Abozeid, M., Manal, F., Salama. And Moawad, R.K. 2011. Utilization of fat replacer in production of reduced cakes and cookies. Australian Journal of Basic and Applied Science, 5(12):2833-2840.
[7] Zoulias, E.I., Oreopoulou, V. and Kounalaki, E. 2002. Effect of fat and sugar replacement on cookie properties. Science and food agriculture, 82(14): 1637-1644.
[8] Gallagher, E., Gormleya, T. R., and Arendtb, E. K. 2004. Recent advances in the formulation of gluten free cereal based. Food Science and Technology, 15: 143-152.
[9] Dilek, K., Zeynep, H., Alev., B. and Sinan, K. 2007. Bubble and pore formation of the high-ratio cake formulation with polydextrose as a sugar and fat replacement. Journal of Food Engineering, 78(3): 953-964.
[10] Sudha, M.L., Srivastava, A.K., Vetrimani, R., and Leelavathi, k. 2007. Fat replacement in soft dough biscuits: It’s implications on dough rheology and biscuits quality. Journal of Food Engineering, 80: 922-930.
[11] Rafael, B., Alicia, A., and Alberto, E. 2010. Chia (Salvia hispansia L) Gel Can Be Used as Egg or oil Replacer in cake formulations. Journal of the Americans Dietetic Association, 110(6): 946-949.
[12] Laura, L., Cristina, P., Paula, V., Ana, S. and Teresa, S. 2014. HPMC and inulin as fat replacers in biscuits: Sensory and instrumental evaluation. LWT- Food science and technology, 56(2): 494-501.
[13] Manley, D. 2001. Biscuit, cracker and cookies recipes for food industry. In: CRC., p. 151-159, 178-182.
[14] Brummer, Y., Cui, W. and Wang, Q. (2003). Extraction, purification and physicochemical characterization of fenugreek gum. Food Hydrocolloids, 17(3): 229-36.
[15] Jiang, J.X., Zhu, L. W., Zhang, W. M.& Sun, R.C. (2007). Characteristics of galactomannan gum from fenugreek (Trigonella foenum-graecum) seeds and its rheological properties. Int. J. Polym. Mater, 56: 1145-1154.
[16] Srinivasan, K. (2006). Fenugreek (Trigonella foenum-graecum): A review of health beneficial physicochemical effects. Food Rev. Int, 22: 203-224.
[17] Singthong, J., Ningsanond , S. & Cui, S. W. (2009). Extraction and physicochemical characterization of polysaccharide gum from Yanang (Tiliacora rtiandra) leaves. Food Chemistry, 114: 1301-1307.
[18] Naghipour, F., Tabatabaei Yazdi, F., Karimi, M. Mortazavi, S. A. & Mohebbi, M. (2017). Effect of sorghum ß-Glucan as fat replacer in low- fat gluten-free cup cake production. JFST, 61(13): 163-176. . [In Persian].
[19] Rahimi, SH., Sheikholeslami, Z. and Seyedain Ardebili, S. M. (2019). The effect of Barhang (Plantago major. L) gum quality and sensory characteristics of composite low-fat cup cake (Wheat-Quinoa). Food Science and Technology, 88(16): 123-134. [In Persian].
[20] AACC. 2000. Approved Methods of the American Association of Cereal Chemists, 10th Ed., Vol. American Association of Cereal Chemists, St. Paul, MN.
[21] Sabanis, D., Tzia, C. and Papadakis, S. 2008. Effect of different raisin juice preparations on selected properties of gluten-free bread. Food and Bioprocess Technology, 1(4): 374-383.
[22] Barcenas, M. E. and Rosell, M. 2003. Effect of freezing and frozen storage on the staling of part-baked bread. Food Research International, 36:863-869.
[23] Sun, D. 2008. Computer vision technology for food quality evaluation. Academic Press, New York.
[24] Ronda F. Oliete B. Gomez M. Caballero P. and Pando V. 2011. Rheological study of layer cake batters made with soybean protein isolate and different starch sources. Journal of Food Engineering 112: 272-277.
[25] Gacula, J.R., and Singh. 1984. Statistical methods in food and consumer research. Academic press Inc. U.S.A. 360-366.
[26] Yaseen, A.A., Shouk, A.H., and Ramadan, M.T. 2010. Corn-wheat pan bread quality as affected by hydrocolloids. Journal of American Science, 6(10): 684-690.
[27] Nikzae, V., Mazaheri Tehrani, M. and Saadatmand, M. 2012. Optimization of low cholesterol- low fat mayonnaise formulation. Food Hydrocolloids, 28: 344-352.
[28] Arunepanlop, B., Morr, C. V., Karleskind, D., and Laye, I. 1996. Patial replacement of egg with proteins with whey in angel food cake. Food Science, 61(5): 1085-1093.
[29] Sahi, S. S. and Avala, J. M. 2003. Functionality of emulsifiers in spong cake production. Journal of the Science of Food and Agriculture, 83(11): 1419-1429.
[30] Alizadeh Behbahani, B.A., Yazdi, F.T., Shahidi, F., Hesarinejad, M.A., Mortazavi, S.A., Mohebbi, M. 2017. Plantago major seed mucilage: Optimization of extraction and some physicochemical and rheological aspects. Carbohydrate Polymers, 155: 68-77.
[31] Sahraiyan, B., Naghipour, F., Karimi, M. and Ghiafe Davoodi, M. 2013. Evaluation of Lepidium sativum seed and guar gum to improve dough rheology and quality parameters in composite rice-wheat bread. Food Hydrocolloid. 30, 698-703.
[32] Estela, P. L. & Maria, C. G. 2015. Influence of storage time for the acceptability of bread formulated with lupin protein isolate and added brea gum. LWT- Food Science and Technology, 64 (2): 1171-1178.
[33] Iva, B., Richardos, N. S., Erika, V., Lucie, M. & David, B. (2017). The effect of Chios mastic gum addition on characteristics of rice dough and bread. LWT-Food science and Technology, 81: 299-305.
[34] Hejrani, T., Sheikholeslami, Z., Mortazavi, A. & Ghiafeh Davoodi, M. (2017). The properties of part baked frozen bread with guar and xanthan gums. Food Hydrocolloids, 71: 252-257.
[35] Mandala, I.G. (2005). Effect of frozen storage and microwave reheating on some physical attributes of fresh containing hydrocolloids. Food Hydrocolloids, 19: 709-719.
[36] Sahraiyan, B. 2016. Production of sorghum malt powder by using microwaves and its evaluation as a sugar replacer in gluten free cup cake. Ph.D. thesis, Ferdowsi University of Mashhad, Department of Food Science and Technology. [in Persian].
[37] Ozkoc Ozge, S., Summe, G. and Sahin, S. (2009). The effect of gums on macro and micro-structure of breads baked in different ovens. Food hydrocolloids, 23: 2182-2189.
[38]Bitaghsir, M., Kadivar, M. & Shahedi, M. (2014). Investigation of the possibility of producing low-calorie cake containing flaxseed mucilage fat replacer. Iranian Journal of Nutrition Science & Food Technology, 9(3): 83-82. [in Persian].
[39] Mohammadi, M., Sadeghnia, M., Azizi, M. H., Neyestani, T. R. and Morta Zavian, A. M. (2014). Development of Gluten-free flat bread using by hydrocolloids. Xanthan and CMC. Journal of Industrial and Engineering Chemistry, 20 (4): 1812-1818.
[40] Gujral H. Haros M. and Rosell M. 2004. Improving the texture and delaying staling in rice flour chapatti with hydrocolloids and α-amylase. Journal of Food Engineering 65: 89-94.
[41] Koliandris, A., Lee, A., Ferry, A., Hill, S., and Mitchell, J. 2008. Relationship between structure of hydrocolloid gels and solutions and flavor release. Food Hydrocolloids, 22: 623–630.
[42] Boland, B., Buhr, K., Giannouli, P. and van Ruth, S. M. 2004. Influence of gelatin, starch, pectin and artificial saliva on the release of 11 flavor compounds from model gel systems. Food Chemistry, 86: 401–411.
[43] Rafael, B., Alicia, A., and Alberto, E. 2010. Chia (Salvia hispansia L) Gel Can Be Used as Egg or oil Replacer in cake formulations. Journal of the Americans Dietetic Association, 110(6): 946-949.
[44] Laura, L., Cristina, P., Paula, V., Ana, S. and Teresa, S. 2014. HPMC and inulin as fat replacers in biscuits: Sensory and instrumental evaluation. LWT- Food science and technology, 56(2): 494-50.