Jet Milling Effect on Functionality, Quality and In Vitro Digestibility of Whole Wheat Flour and Bread

The study aimed to investigate the appropriate technology for the development of modified starch and standardize the millet-based bakery and pasta products incorporated with modified starch and measure the glycemic index of the standardized therapeutic baked and pasta products. The physical modification and chemical modification techniques were performed to optimize the technology for modified starch. Refined wheat flour was substituted with millet flour, modified starch and pulse flour at various percentages to optimize the flour blend for pasta and bakery products. The products were subjected to in vitro study to measure the glycemic index. Physical modification technique, i.e. autoclave-cooling, was found to be optimum for the development of modified starch. The optimum flour blend for pasta products was whole wheat flour(50%), millet flour (25 and 50%), cassava modified starch (15 and 25%) and green ram flour (10%) and it was found to be acceptable without affecting its sensory attributes. The optimum blend for bread was whole wheat flour (50%), kodo / barnyard millet flour (50%) with cassava modified starch (10%) and for low-fat cookies, it was millet flour (20%) and modified starch (15 %). Among the three pasta products, noodles and macaroni were found to be highly acceptable with minimum cooking loss. The in vitro study showed that the pasta products have a hypoglycemic effect suitable for lifestyle disorder patients and do not involve high production costs and earn good returns to the entrepreneurs.

Download Full-text

Effect of Guar Gum on Dough Stickiness and Staling in Chapatti-An Indian Unleavened Flat Bread

International Journal of Food Engineering ◽

10.2202/1556-3758.1317 ◽

2009 ◽

Vol 5 (3) ◽

Cited By ~ 22

Author(s):

Shalini Kishanrao Ghodke

Keyword(s):

Wheat Flour ◽

Room Temperature ◽

Guar Gum ◽

Soluble Starch ◽

Water Soluble ◽

Whole Wheat Flour ◽

Whole Wheat ◽

Flat Bread ◽

Traditionally Prepared

Chapatti, Indian unleavened flat bread made of whole-wheat flour, is traditionally prepared in households by hand sheeting of dough followed by baking on hot griddle and is consumed fresh. Investigations were made to study the effect of guar gum on whole wheat chapatti dough stickiness and its effect on staling of chapatti during storage. Guar gum was incorporated at various levels ranging between 0.25-1.0% w/w of whole wheat flour. Chapatti dough was prepared and evaluated for dough stickiness using Chen-Hoseney dough stickiness probe. Chapattis were prepared and monitored for staling parameters such as water soluble starch (WSS), moisture content, in vitro enzyme digestibility (IVED), extensibility and tear force, both when fresh and after storage for three days at room temperature (30±2 °C) and refrigerated temperature (4±1 °C). From the study it was observed that guar gum prevented staling in chapattis as was monitored through various parameters. Moisture, WSS, IVED content in guar gum incorporated chapatti was higher than the control chapatti. The force required to tear fresh chapattis was decreased with hydrocolloid addition however guar gum addition at 0.75% w/w of whole wheat flour gave the softest chapatti. Extensibility of stored chapatti was significantly decreased with storage, both at room and refrigeration temperature. However, refrigerated chapatti containing guar gum showed less loss in extensibility, up to a period of three days.

Download Full-text