Sensory, Proximate and Mineral Properties of Smart Baby-Led Weaning Foods from Millet, Soybean and Ripe Banana Flour Blends

Asian Food Science Journal Pub Date : 2023-06-15 DOI:10.9734/afsj/2023/v22i7644

Aderonke Adenike Oladebeye, Abraham Olasupo Oladebeye, M. Suleiman, Yemisi Adenike Jeff-Agboola

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引用次数: 1

Abstract

Aim: The need for formulating and developing smart baby-led weaning (BLW) foods from millet, soybean and ripe banana flour blends as alternative complementary foods inspired this study, which had no documentation in literatures. Place and Duration of Study: Department of Food Technology, Auchi Polytechnic, Auchi, Nigeria from June 2022 to January 2023. Methodology: Smart BLW foods were formulated from millet, soybean and ripe banana flour blends and coded as WMF (100% whole millet flour), MSB1 (60% millet; 20% soybean; 20% ripe banana) and MSB2 (50% millet; 30% soybean; 20% ripe banana). The sensory, proximate and mineral compositions of the foods formulated were compared with those of commercial weaning food (CWF). Results: MSB1 and MSB2 competed favourably with CWF in terms of texture, general acceptability, colour, aroma and taste attributes with high negative deviation most noticeable in WMF (P < 0.05), and exhibited acceptable shelf-life and stability. The ash contents ranged from 1.16±0.02% (WMF) to 2.83±0.02% (MSB2). Increase in fat content in MSB1 to CWF was ≈534%, MSB2 to CWF was ≈492%, MSB1 to WMF was ≈385% and MSB2 to WMF was ≈353% while their protein abundances were in the ratios 1:3.6 for CWF:MSB1, 1:5.9 for CWF:MSB2, 1:2.4 for MWF:MSB1 and 1:3.9 for MWF:MSB2. Generally, MSB1 and MSB2 were appropriate sources of Na, K, Ca, Mg and Zn compared to CWF and WMF in providing adequate intake (AI) and recommended daily allowance (RDA) of these minerals in both infants and children in the age classes of 0-6 months, 7-12 months and 1-3 years. Conclusion: MSB1 and MSB2 exhibited better intrinsic properties than WMF when compared with CWF. MSB1, however had better general performances than MSB2 and therefore, was recommended as the best smart BLW food formulation from this research.

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由小米、大豆和成熟香蕉粉混合制成的智能婴儿断奶食品的感官、近似和矿物特性

目的:利用小米、大豆和成熟香蕉粉混合制成的智能婴儿断奶(BLW)食品作为替代辅食的需求激发了本研究的灵感，该研究尚无文献报道。学习地点和时间:2022年6月至2023年1月，尼日利亚奥奇理工学院食品技术系。方法:智能BLW食品由小米、大豆和成熟香蕉粉混合制成，编码为WMF(100%全小米粉)、MSB1(60%小米粉;20%大豆;20%熟香蕉)和MSB2(50%小米;30%大豆;20%熟香蕉)。将所配制食品的感官成分、近似成分和矿物质成分与商品断奶食品进行了比较。结果:MSB1和MSB2在质地、一般接受度、色、香、味属性上与CWF具有较好的竞争优势，在WMF中表现出较高的负偏差(P < 0.05)，且具有良好的保质期和稳定性。灰分含量为1.16±0.02% (WMF) ~ 2.83±0.02% (MSB2)。MSB1对CWF的脂肪含量增加约534%，MSB2对CWF的脂肪含量增加约492%，MSB1对WMF的脂肪含量增加约385%，MSB2对WMF的脂肪含量增加约353%，蛋白质丰度分别为CWF:MSB1 1:6 .6、CWF:MSB2 1:9 .9、MWF:MSB1 1:4 .4和MWF:MSB2 1:9 .9。一般来说，与CWF和WMF相比，MSB1和MSB2是Na, K, Ca, Mg和Zn的适当来源，可以为0-6个月，7-12个月和1-3岁的婴儿和儿童提供足够的这些矿物质摄入量(AI)和推荐的每日摄入量(RDA)。结论:与CWF比较，MSB1和MSB2表现出比WMF更好的内在特性。然而，MSB1的综合性能优于MSB2，因此，本研究推荐MSB1为最佳智能BLW食品配方。

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Asian Food Science Journal

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