Correlation of Processing Techniques with Some Quality Indexes of Soy-Akamu Prepared with Yellow Maize, Sprouted and Un-Sprouted Soybean

Indonesian Food and Nutrition Progress Pub Date : 2023-04-10 DOI:10.22146/ifnp.76756

I. Okwunodulu, Chikodili Ugochukwu, J. Ndife, S. Ubbor

{"title":"Correlation of Processing Techniques with Some Quality Indexes of Soy-Akamu Prepared with Yellow Maize, Sprouted and Un-Sprouted Soybean","authors":"I. Okwunodulu, Chikodili Ugochukwu, J. Ndife, S. Ubbor","doi":"10.22146/ifnp.76756","DOIUrl":null,"url":null,"abstract":"Akamu or ogi is a commonly relished gruel when prepared with hot water by the sick, recovering patients and infants in Nigeria. It is nutritionally deficient due to inevitable processing losses which called for fortification with soybean (soy-akamu or soy-ogi). Soy-akanu was prepared from steeped yellow maize, sprouted and un-sprouted soybean cotyledons using different processing techniques. Proximate, micronutrients and functional properties were evaluated with standard analytical methods. The results showed that proximate composition of soy-akamu produced from dried steeped maize and sprouted soybean cotyledons had higher protein (63.20%), fibre (0.33%), ash (1.11%), energy (384.28 Kcal) and least moisture content (4.53%). The paste samples had respective values of 0.77, 3.06%; 0.00, 0.00%; 0.71, 1.02%; 29.86, 3303%; 143.50, 145.37 mg/100g, and 64 and 36-64-76%. Dried soy-akamu also had the highest calcium (41.18, iron (0.99), phosphorous (0.27), .zinc (48.02), potassium (0.45), vitamin C (24.60) and least in magnesium (0.07 mg/100g) content. The paste samples had respective values of 40.13, 41.14; 0.86, 0.92; 0.39, 0.41; 0.39, 0.41; 20.46, 23.65 mg/100g with respective magnesium (0.10-0.12) and phosphorous ( 0.25, 2.21 mg/100g) contents. Different processing techniques had significant (p<0.05) variations in proximate, micronutrient and functional properties of the soy-akamu and also their major sources of nutrient losses.","PeriodicalId":13468,"journal":{"name":"Indonesian Food and Nutrition Progress","volume":null,"pages":null},"PeriodicalIF":0.0000,"publicationDate":"2023-04-10","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":null,"platform":"Semanticscholar","paperid":null,"PeriodicalName":"Indonesian Food and Nutrition Progress","FirstCategoryId":"1085","ListUrlMain":"https://doi.org/10.22146/ifnp.76756","RegionNum":0,"RegionCategory":null,"ArticlePicture":[],"TitleCN":null,"AbstractTextCN":null,"PMCID":null,"EPubDate":"","PubModel":"","JCR":"","JCRName":"","Score":null,"Total":0}

引用次数: 0

Abstract

Akamu or ogi is a commonly relished gruel when prepared with hot water by the sick, recovering patients and infants in Nigeria. It is nutritionally deficient due to inevitable processing losses which called for fortification with soybean (soy-akamu or soy-ogi). Soy-akanu was prepared from steeped yellow maize, sprouted and un-sprouted soybean cotyledons using different processing techniques. Proximate, micronutrients and functional properties were evaluated with standard analytical methods. The results showed that proximate composition of soy-akamu produced from dried steeped maize and sprouted soybean cotyledons had higher protein (63.20%), fibre (0.33%), ash (1.11%), energy (384.28 Kcal) and least moisture content (4.53%). The paste samples had respective values of 0.77, 3.06%; 0.00, 0.00%; 0.71, 1.02%; 29.86, 3303%; 143.50, 145.37 mg/100g, and 64 and 36-64-76%. Dried soy-akamu also had the highest calcium (41.18, iron (0.99), phosphorous (0.27), .zinc (48.02), potassium (0.45), vitamin C (24.60) and least in magnesium (0.07 mg/100g) content. The paste samples had respective values of 40.13, 41.14; 0.86, 0.92; 0.39, 0.41; 0.39, 0.41; 20.46, 23.65 mg/100g with respective magnesium (0.10-0.12) and phosphorous ( 0.25, 2.21 mg/100g) contents. Different processing techniques had significant (p<0.05) variations in proximate, micronutrient and functional properties of the soy-akamu and also their major sources of nutrient losses.

查看原文本刊更多论文

黄玉米、发芽大豆和未发芽大豆制备akamu大豆加工工艺与部分品质指标的相关性

Akamu或ogi是尼日利亚病人、康复病人和婴儿用热水制作的一种常见的稀粥。由于不可避免的加工损失，它缺乏营养，需要用大豆(大豆-akamu或大豆-ogi)进行强化。以黄玉米、发芽大豆子叶和未发芽大豆子叶为原料，采用不同的加工工艺，制备了akanu大豆。用标准的分析方法评价了其近似值、微量元素和功能特性。结果表明，以浸渍干玉米和发芽大豆子叶为原料制备的akamu具有较高的蛋白质(63.20%)、纤维(0.33%)、灰分(1.11%)、能量(384.28 Kcal)和最低的水分(4.53%)。膏体样品分别为0.77、3.06%;0.00, 0.00%;0.71, 1.02%;29.86, 3303%;143.50、145.37 mg/100g、64、36-64-76%。干黄豆的钙(41.18 mg/100g)、铁(0.99 mg/100g)、磷(0.27 mg/100g)、锌(48.02 mg/100g)、钾(0.45 mg/100g)、维生素C (24.60 mg/100g)含量最高。膏体样品分别为40.13、41.14;0.86、0.92;0.39、0.41;0.39、0.41;20.46, 23.65 mg/100g，镁(0.10-0.12)和磷(0.25,2.21 mg/100g)含量。不同的加工工艺在大豆的近常量、微量元素和功能特性以及它们的主要营养损失来源方面存在显著差异(p<0.05)。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

求助全文

约1分钟内获得全文求助全文

来源期刊

Indonesian Food and Nutrition Progress

自引率

0.00%

发文量

审稿时长

8 weeks