Effect of Maltodextrin Substitution on Physicochemical and Sensorial Properties of Malay Traditional Cake ‘Bahulu’

  • Authors

    • Nur Afifah Mohd Junaidishah
    • Aishah Bujang
    2019-12-24
    https://doi.org/10.14419/ijet.v7i4.14.27572
  • Traditional food, ‘bahulu’, maltodextrin, texture profile.
  • Although Malaysia is not a wheat-producing country, most Malaysian traditional foods uses wheat flour as its main ingredient. One ingredient substitution for wheat flour is modified starch, maltodextrin. The aim of this study was to assess the effects of wheat flour substitution with maltodextrin on physicochemical and sensorial properties of a Malay traditional cake, ‘bahulu’. Changes in the viscosity of batter, water activity (aw), specific volume, colour, texture profile and sensorial preference of ‘bahulu’ with 5% (M5), 10% (M10) and 15% (M15) maltodextrin substitution were measured. The results showed that with increase substitution of maltodextrin, batter viscosity, specific volume and aw values decreased. However, redness (+a*) of crust and yellowness (+b*) of crust and crumb, hardness, springiness, gumminess and chewiness of ‘bahulu’ increased. No significant difference was observed for L* (lightness) and –a* (greenness) of crumb, adhesiveness and cohesiveness. Compared to control, ‘bahulu’ with maltodextrin substitution showed reduction in degree of preference for sensory score except for texture attribute. This study indicates that replacement of wheat flour is possible at a certain level of substitution,  however, further improvements are required in order to maintain the quality of the Malaysian heritage food.

     

     

     
  • References

    1. [1] Mudor H (2010) Comparison of quality perception: an analysis of local traditional snack food in Penang, Kedah and Perlis. Ph.D. Thesis. Universiti Sains Malaysia, Pulau Pinang, Malaysia.

      [2] http://www.world-grain.com/Departments/Country-Focus/Country-Focus-Home/Focus-on-Malaysia.aspx?cck=1 retrieved online on 10.08.2018

      [3] Vaclavik VA & Christian EW (2014) Essentials of food science (4th ed). Springer Science Business Media, New York.

      [4] Moiraghi M, Hera EDL, Perez GT & Gomez M (2013) Effect of wheat flour characteristics on sponge cake quality. Journal of the Science of Food and Agriculture 93(3), 542-549.

      [5] Cho SS & Samuel P (2009) Fiber Ingredients: Food Applications and Health Benefits. CRC Press, USA.

      [6] Hull P (2010) Glucose Syrups: Technology and Applications. Blackwell Publishing, USA.

      [7] AACC International (1999) Approved Methods of Analysis, 11th Ed. Method 10-05.01. Measurement of volume by rapeseed displacement. Baking Quality. AACC International, St. Paul, MN, U.S.A.

      [8] Lakshminarayan SM, Rathinam V & KrishnaRau L (2006) Effect of maltodextrin and emulsifiers on the viscosity of cake batter and on the quality of cakes. Journal of the Science of Food and Agriculture 86, 706-712.

      [9] Ngo WH & Taranto MV (1986) Effect of sucrose level on the rheological properties of cake batters. Cereal Foods World 31, 317–322.

      [10] Paton D, Larocque GM & Holme J (1981) Development of cake structure: Influence of ingredients on the measurement of cohesive force during baking. Cereal Chemistry 58, 527–529.

      [11] Kim HYL, Yeom HW, Lim HS, Lim ST (2001) Replacement of shortening in yellow layer cakes by corn dextrins. Cereal Chemistry, 78, 267-271.

      [12] De Fouw C, Zabik ME, Uebersa MA & Aguilera JM (1982) Use of unheated and heat treated navy bean hulls as a source of dietary fiber in spice flavoured layer cakes. Cereal Chemistry 59, 22–230.

      [13] Masood FA, Sharma B & Chauhan GS (2002) Use of apple as a source of dietary fiber in cakes. Plant Foods for Human Nutrition 57, 121–128.

      [14] Gomez M, Doyague MJ & Hera EDL (2012) Addition of pin-milled flour and air-classified fractions in layer and sponge cakes. Journal of Food Science and Technology 46, 142- 147.

      [15] Ergun R, Lietha R & Hartel RW (2010) Moisture and shelf life in sugar confections. Critical Reviews in Food Science and Nutrition 50(2), 162-192.

      [16] Guynot ME, Ramos AJ, Sala D, Sanchis V & Marin S (2002) Combined effects of weak acid preservatives, pH and water activity on growth of Eurotium species on a sponge cake. International Journal of Food Microbiology 76(1), 39-46.

      [17] Lu TM, Lee CC, Mau JL & Lin SD (2010) Quality and antioxidant property of green tea sponge cake. Food Chemistry 119: 1090-1095.

      [18] Beuchat LR (1981) Microbial stability as affected by water activity. Cereal Foods 26(7), 345-349.

      [19] Saranraj P & Geetha M (2012) Microbial spoilage of bakery products and its control by preservatives. International Journal of Pharmaceutical & Biological Archives 3(1), 38-48.

      [20] Majzoobi M, Ghiasi F, Habibi M, Hedayati S & Farahnaky A (2014) Influence of soy protein isolate on the quality of batter and sponge cake. Journal of Food Processing and Preservation 38(3), 1164-1170.

      [21] Sudha, M. L., Baskaran, V. and Leelavathi, K. (2007). Apple Pomace as a Source of Dietary Fiber and Polyphenols and Its Effect on the Rheological Characteristics and Cake Making. Food Chemistry. 104: 686-692.

      [22] Touma DE (1997). Formulation of a Sugar Free Fat Free Cake: Role of Water and Functional Properties of Fat Replacers and Bulking Agents. Ph.D. Thesis. Auburn University, Alabama, US.

      [23] Ureta MM, Olivera DF & Salvadori VO (2014) Quality attributes of muffins: Effect of baking operative conditions. Food Bioprocess Technology 7, 463-470.

      [24] Majzoobi M, Darabzadeh N & Farahnaky A (2012) Effects of percentage and particle size of wheat germ on some properties of batter and cake. Journal of Agricultural Science and Technology 14, 827-836.

      [25] Lee CC & Lin SD (2008) Effect of GABA tea on quality characteristics of chiffon cake. Cereal Chemistry 85, 31–38.

      [26] Majzoobi M, Habibi M, Hedayati S, Ghiasi F & Farahnaky A (2015) Effects of commercial oat fiber on characteristics of batter and sponge cake. Journal of Agricultural Science and Technology 17, 99-107.

      [27] Sanz T, Salvador A, Baixauli R & Fiszman SM (2009) Evaluation of four types of resistant starch in muffins. II. Effects in texture, colour and consumer response. Journal of European Food Research and Technology 229: 197-204.

      [28] Rodriguez-Garcia J, Puig A, Salvador A & Hernando I (2013) Functionality of several cake ingredients: A comprehensive approach. Czech Journal of Food Sciences 31, 355-360.

      Ronda F, Gomez R, Caballero PA, Oliete B & Blanco CA (2009) Improvement of quality of gluten free layer cakes. Food
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    Afifah Mohd Junaidishah, N., & Bujang, A. (2019). Effect of Maltodextrin Substitution on Physicochemical and Sensorial Properties of Malay Traditional Cake ‘Bahulu’. International Journal of Engineering & Technology, 7(4.14), 239-243. https://doi.org/10.14419/ijet.v7i4.14.27572