ABSTRACT
Starch is present in high amount in various cereals, fruits and roots & tubers which finds major application in industry. Commercially, starch is rarely consumed or processed in its native form, thus modification of starch is widely used method for increasing its application and process stability. Due to the high demand for starch in industrial applications, researchers were driven to hunt for new sources of starch, including modification of starch through green processing. Thermal properties are significant reference parameters for evaluating the quality of starch when it comes to cooking and processing. Modification of starches affects the thermal properties, which are widely studied using Differential scanning calorimeter or Thermogravimetric analysis. It could lead to a better understanding of starch's thermal properties including factors influencing and expand its commercial applications as a thickener, extender, fat replacer, etc. in more depth. Therefore, the review presents the classification of starches, factors influencing the thermal properties, measurement methods and thermal properties of starch in its native and modified form. Further, this review concludes that extensive research on the thermal properties of new sources of starch, as well as modified starch, is required to boost thermal stability and extend industrial applications.
ABSTRACT
ABSTRACT: Fat is an essential component for cookies structure and sensory attributes, but there is a necessity to replace or mimic fat in order to prevent lifestyle diseases. Hence, this study investigated the effect of industrial by-product, i.e., Partially defatted tomato seed flour (PDTSF) as a fat replacer on physicochemical and sensory characteristics of millet-based cookies at 10, 20, 30, and 40% (w/w) fat replacement levels. The physicochemical and functional properties of PDTSF were analyzed. PDTSF exhibited excellent nutritional profile and functional properties. PDTSF supplemented cookies showed a significant increase (p ≤ 0.05) in hardness, protein, ash, and carbohydrate content and the significant decrease in spread ratio, fat, and energy value with an increment of PDTSF. Descriptive sensory evaluation of millet-based cookies at all fat replacement levels showed good acceptability. Storage analysis for 30 days revealed as acceptance of cookies is not affected due to moisture intake and hardness. Hence, the results confirmed the positive effect on PDTSF as a whole food fat replacer to produce Reduced- fat millet cookies at 10 and 20% fat replacement levels.
