Biological evaluation for protein quality of supplementary foodsbased on popped cereals and legumes suitable for feeding rural mothers andchildren in India

Eight different formulations of supplementary foods (FS) based on poppedcereals (wheat, ragi, bajra and sorghum) and legumes (soy and bengalgram)were prepared. Four of the FS were produced with cereals, soy flour (SF)and bengalgram (BG) dhal and the other four were prepared with combinationsof cereals and SF. These blends were evaluated for food efficiency ratio(FER), protein efficiency ratio (PER) and net protein utilization (NPU)using growing albino rats. Skim milk powder (SMP, standard reference protein)was used in the control diet. In general the FER (0.28 to 0.34), PER (2.7to 2.9) and NPU (62 to 68) results of the FS were not significantly (p>0.05)different among the FS groups or compared with FER (0.36), PER (3.0) and NPU(73.5) of the control SMP. It is evident from the results that all eight FSwere nutritionally and biologically as good as SMP with regard to proximatecomposition, PER and NPU.     

Elaboration of amylase activity and changes in paste viscosity of some common Indian legumes during germination

The effect of germination upto 120 hours on malting loss, amylase activity and viscosity of nine common Indian legumes was investigated. The amylase activity increased on progressive germination in all legumes, the increase being particularly high for green gram, horse gram, moth bean and black gram. Malted samples had lower cooked paste viscosity than native ones. Samples with high amylase activity exhibited proportionately lower viscosity. Maximum reduction in viscosity was observed in green gram, followed by moth bean, horse gram, black gram and cowpea within 48 hours of germination. Malting losses ranged between 12 to 27 percent over a period of 48 hours in all legumes. Germination beyond 48 hours resulted in considerably higher malting losses without much effect on viscosity.     

Acceptability of supplementary foods based on popped cereals and legumes suitable for rural mothers and children

Eight types of supplementary foods based on popped cereals (wheat, ragi, bajra and sorghum) blended with legumes (soy and bengalgram) and fortified with essential vitamins and minerals were developed on a pilot plant scale. Four of the supplements were prepared with cereals, soy flour (SF) and bengal gram (BG) dhal and the other four were prepared with combinations of cereals and SF. These blends were mixed with jaggery (obtained by boiling juice out of sugarcane) syrup and pressed into compact form. One hundred gram portions of these foods provided 370 ± 20 kilocalories and 11 ± 1 g protein. Moisture, crude protein, total carbohydrates, total lipids, ash, dietary fiber and energy contents, of all the developed supplements were within the ranges prescribed by the Indian Standards Institute for processed weaning foods and could satisfactorily meet one-third of the Recommended Dietary Allowance (RDA) of these nutrients per day for preschool children. Organoleptic evaluation and feeding trials revealed that the foods were well accepted by rural mothers and children.     

Physical and nutritional qualities of extruded weaning foods containing sorghum,pearl millet,or finger millet blended with mung beans and nonfat dried milk

Sorghum, pearl millet, and finger millet flours (60% of each) were blended with toasted mung bean flour (30%) and nonfat dry milk (10%) and extruded (Brabender single screw) to make precooked, ready-to-eat, weaning foods. The extruded foods had high cold paste viscosity, but their cooked paste viscosity was lower than that of the respective blends. Chemical scores of the extruded foods were 78 for sorghum, 80 for pearl millet, and 96 for finger millet. Protein digstibility corrected amino acid scores (PD-CAS) were similar for pearl millet (68%) and finger millet (69%); PD-CAS for sorghum was 57%. Total dietary fiber content of the foods ranged from 7.6 to 10.1%, with the soluble dietary fiber content of the foods being about 10% higher than that of the corresponding blends. Extrusion enhanced the in vitro protein digestibility of foods, but no marked difference occurred in the in vitro carbohydrate digestibility among the unprocessed blends and the extruded foods. The net protein ratio, protein efficiency ratio, and biological values were higher for the finger millet food than for the pearl millet food, probably because of the higher lysine content of the finger millet protein.Contribution No. 95-253-J of the Kansas Agricultural Experiment Station.     

Protein quality evaluation of a weaning food based on malted ragi and green gram

The nutritional quality of a malted weaning food developed using malted ragi (Eleusine coracana) and green gram (Phaseolus radiatus) was evaluated by rat feeding trials. The protein score of the weaning food was 70 calculated according to FAO/WHO (1973) pattern. The protein efficiency ratio (PER), net protein utilization (NPU), biological value (BV) and true digestibility (TD) values for the weaning food proteins at 10% level of protein intake were 2.2, 51.6, 73.8 and 82.8, respectively and the relative protein value (RPV), determined at 5, 8 and 11% levels of protein intake was 84. Supplementation of the weaning food with 10% skim milk powder enhanced the PER to 2.7 and NPU to 63.0. The nutritional quality of a roller dried proprietary weaning food was also evaluated along with malted weaning food for comparison and it was observed that the nutritional quality of the two products were comparable.     

Nutritive value of malted millet flours

The changes in proximate composition, phytate phosphorus, thiamine and ascorbic acid content of finger millet, pearl millet and foxtail millet during progressive germination were studied. Germination resulted in a slight decrease in total protein and minerals, a marked fall in phytate-phosphorus and a significant increase in the ascorbic acid content of the millets. An increase in lysine and tryptophan but no appreciable changes in threonine and sulfur amino acid content of the millets were observed as a result of germination. However, the protein efficiency ratio values of ungerminated control seeds, 48 h germinated green malt and kilned malt were not significantly different.