Batter Rheology and Quality of Sponge Cake Enriched with High Percentage of Resistant Starch (Hi-maize)
-
Sara Hedayati
and
Asgar Farahnaky
Abstract
Addition of resistant starch (RS) to foods improves their health benefits. However, quality and sensory properties of the products are scarified when high amounts of RS (>20%) are added. The main purpose of this study was to develop an acceptable cake containing high level of RS (>20%) and to fix the associated problems by addition of gluten powder. Wheat flour was replaced with 30%, 40% and 50 % of reconstituted flour; a mixture of RS and gluten powder (9:1, w/w) and some quality aspects of the batter and cakes were studied. With increasing the RS+gluten levels, pasting temperature increased while peak and final viscosities decreased. Batter density, viscosity, storage and loss moduli reduced whereas the size of air bubbles increased. Cake volume, height, porosity and hardness reduced, while the crust lightness and crumb darkness increased. Based on the sensory analysis a maximum of 40% RS+Gluten resulted in an acceptable cake quality.
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Articles in the same Issue
- Immobilized enzymolysis of corn gluten meal under triple-frequency ultrasound
- The Effect of Solution Properties on the Photochemical Ability of Pulsed Light to Inactivate Soybean Lipoxygenase
- Batter Rheology and Quality of Sponge Cake Enriched with High Percentage of Resistant Starch (Hi-maize)
- Development of a Novel Kinetic Model for Cocoa Fermentation Applying the Evolutionary Optimization Approach
- Drying Performance and Product Quality of Sliced Carrots by Infrared Blanching Followed by Different Drying Methods
- Influence of Moisture Content on Physicomechanical Properties, Starch-Protein Microstructure and Fractal Parameter of Oat Groats
- Effect of Sodium Chloride and Processing Methods on Protein Aggregation, Physical-Chemical and Rheological Properties of Pork Batters
- Modeling of Dielectric and Thermal Properties of Protein-Enriched Instant Noodles as a Function of Food Chemical Composition
- Impact of Temperature, Gum Arabic and Carboxymethyl Cellulose on Some Physical Properties of Spray-Dried Grapefruit
- Effects of Chickpea-Based Leavening Extract on Physical, Textural and Sensory Properties of White Wheat Bread
Articles in the same Issue
- Immobilized enzymolysis of corn gluten meal under triple-frequency ultrasound
- The Effect of Solution Properties on the Photochemical Ability of Pulsed Light to Inactivate Soybean Lipoxygenase
- Batter Rheology and Quality of Sponge Cake Enriched with High Percentage of Resistant Starch (Hi-maize)
- Development of a Novel Kinetic Model for Cocoa Fermentation Applying the Evolutionary Optimization Approach
- Drying Performance and Product Quality of Sliced Carrots by Infrared Blanching Followed by Different Drying Methods
- Influence of Moisture Content on Physicomechanical Properties, Starch-Protein Microstructure and Fractal Parameter of Oat Groats
- Effect of Sodium Chloride and Processing Methods on Protein Aggregation, Physical-Chemical and Rheological Properties of Pork Batters
- Modeling of Dielectric and Thermal Properties of Protein-Enriched Instant Noodles as a Function of Food Chemical Composition
- Impact of Temperature, Gum Arabic and Carboxymethyl Cellulose on Some Physical Properties of Spray-Dried Grapefruit
- Effects of Chickpea-Based Leavening Extract on Physical, Textural and Sensory Properties of White Wheat Bread
