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Changes in Physico-Chemical and Nutritional Quality in Food Grains after Processing


Affiliations
1 Department of Food and Nutrition, Dr. Rajendra Prasad Central Agricultural University, College of Community Science, Pusa, Bihar-848 125, India
     

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Food grains contain abundant of nutrients which are beneficial for health and minimize the risk of various communicable and non-communicable diseases. But they are bounded with numerous inhibiting substances such as tannins, oxalates, trypsin inhibitors etc. which hinders the bioavailability of nutrients. Different processing methods were applied like soaking, roasting, boiling and drying which reduces those inhibiting factors and enhances absorption. The study was conducted to determine the changes in physico-chemical and nutritional characteristics of grains before and after processing. The result indicates that the hundred grain weight of processed food grains ranged from 0.29 to 22.25 g/100 g; bulk density 0.63 to 0.83 g/cc. Nutritional quality like moisture content ranged from 2.41 to 8.44 g/100 g, ash 1.49 to 2.55 g/100 g, crude protein 8.72 to 20.27 g/100 g, crude fat 0.57 to 32.74 g/100 g, dietary fibre 12.12 to 27.02 g/100 g, carbohydrate 11.95 to 66.46 g/100 g including minerals iron 2.55 to 8.37 mg/100 g, zinc 3.03 to 5.64 mg/100 g and calcium 28.01 to 371.53 mg/100 g respectively. It can be concluded that processing of grains reduces anti-nutritional factors, promotes enzymatic activity and declines glycemic index in addition with rich in protein, calcium, zinc, iron, omega-3 fat, dietary fibre whereas lower in carbohydrate and moisture. The flour of processed food grains can be applied to develop many value added food products which helps to overcome day to day lifestyle diseases.

Keywords

Anti-nutritional, Bioavailability, Food Grains, Nutritional Quality, Nutrients, Physico-chemical, Processing
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  • Changes in Physico-Chemical and Nutritional Quality in Food Grains after Processing

Abstract Views: 229  |  PDF Views: 2

Authors

Anjali Yadav
Department of Food and Nutrition, Dr. Rajendra Prasad Central Agricultural University, College of Community Science, Pusa, Bihar-848 125, India
Usha Singh
Department of Food and Nutrition, Dr. Rajendra Prasad Central Agricultural University, College of Community Science, Pusa, Bihar-848 125, India
Gitanjali Chaudhary
Department of Food and Nutrition, Dr. Rajendra Prasad Central Agricultural University, College of Community Science, Pusa, Bihar-848 125, India

Abstract


Food grains contain abundant of nutrients which are beneficial for health and minimize the risk of various communicable and non-communicable diseases. But they are bounded with numerous inhibiting substances such as tannins, oxalates, trypsin inhibitors etc. which hinders the bioavailability of nutrients. Different processing methods were applied like soaking, roasting, boiling and drying which reduces those inhibiting factors and enhances absorption. The study was conducted to determine the changes in physico-chemical and nutritional characteristics of grains before and after processing. The result indicates that the hundred grain weight of processed food grains ranged from 0.29 to 22.25 g/100 g; bulk density 0.63 to 0.83 g/cc. Nutritional quality like moisture content ranged from 2.41 to 8.44 g/100 g, ash 1.49 to 2.55 g/100 g, crude protein 8.72 to 20.27 g/100 g, crude fat 0.57 to 32.74 g/100 g, dietary fibre 12.12 to 27.02 g/100 g, carbohydrate 11.95 to 66.46 g/100 g including minerals iron 2.55 to 8.37 mg/100 g, zinc 3.03 to 5.64 mg/100 g and calcium 28.01 to 371.53 mg/100 g respectively. It can be concluded that processing of grains reduces anti-nutritional factors, promotes enzymatic activity and declines glycemic index in addition with rich in protein, calcium, zinc, iron, omega-3 fat, dietary fibre whereas lower in carbohydrate and moisture. The flour of processed food grains can be applied to develop many value added food products which helps to overcome day to day lifestyle diseases.

Keywords


Anti-nutritional, Bioavailability, Food Grains, Nutritional Quality, Nutrients, Physico-chemical, Processing

References