Proximate composition and vitamin A contribution of biofortified orange fleshed sweet potato value added products

Proximate composition and vitamin A contribution of biofortified orange fleshed sweet potato value added products

Orange fleshed sweet potato (OFSP) is rich in provitamin A carotenoids and can thus be utilized to tackle Vitamin A deficiency (VAD) in Sub-Saharan Africa (SSA). Puree with high amounts of β-carotene processed from OFSP roots is currently being incorporated in baked products such as bread, cakes, biscuits, and buns. The objective of this study was to evaluate the nutritional composition of OFSP puree supplemented food products, that is, bread, buns, flakes, cakes, biscuits, muffins, soft cookies, golden biscuits and whole wheat flour bread. The composite products made from OFSP puree were analyzed for β-carotene content and proximate analysis. The highest concentration of β-carotene (19.86 mg/100g) was obtained in OFSP flakes. The concentration in buns with 20% puree was 0.58 mg/100g, while bread with 35% puree had a concentration of 3.02 mg/100g. Biscuits, cookies and cakes with high puree of 40% had β-carotene concentrations of 2.39, 1.83, and 2.30 mg/100g respectively. These concentrations are lower than in bread with 35% puree, and we see different proportions of ingredients and other factors such as cooking method, duration of cooking also play a major role in the final β-carotene concentration of the products. The total Retinol Activity Equivalents (RAE) for the OFSP products were significantly different with bread (35% puree) having a higher concentration of 216.67 μg/100g and OFSP buns (20% puree) having a lower concentration of 41.19 μg/100g. Orange fleshed sweet potato flakes had the highest concentration of 1443.2 μg/100g and whole wheat flour bread having the least of 6.9 μg/100g. The moisture content, total ash, crude fiber, crude fat, crude protein, and carbohydrate content of the OFSP products varied between 2.4-29.7%, 0.7-2.4%, 1.0-4.5%, 0.7-18.1%, 5.1-7.9% and 50.7-83.7%, respectively. The findings of this study show that different proportions of OFSP puree: wheat flour is not the only determinant on the final β-carotene concentration of the different OFSP products, the type and quantity of ingredients used, cooking time and method also contribute to the VA content. Diversification of OFSP food products helps increase its consumption and its added value.

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Main Authors: Wafula, E.N., Malavi, D.N., Mbogo, D., Mwaura, L., Moyo, M., Muzhingi, T.
Format: Journal Article biblioteca
Language:English
Published: 2022-06
Subjects:sweet potatoes, vitamin a deficiency, carotenoids, biofortification,
Online Access:https://hdl.handle.net/10568/129749
https://doi.org/10.18697/ajfand.109.21605
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spelling dig-cgspace-10568-1297492023-09-09T22:53:14Z Proximate composition and vitamin A contribution of biofortified orange fleshed sweet potato value added products Wafula, E.N. Malavi, D.N. Mbogo, D. Mwaura, L. Moyo, M. Muzhingi, T. sweet potatoes vitamin a deficiency carotenoids biofortification Orange fleshed sweet potato (OFSP) is rich in provitamin A carotenoids and can thus be utilized to tackle Vitamin A deficiency (VAD) in Sub-Saharan Africa (SSA). Puree with high amounts of β-carotene processed from OFSP roots is currently being incorporated in baked products such as bread, cakes, biscuits, and buns. The objective of this study was to evaluate the nutritional composition of OFSP puree supplemented food products, that is, bread, buns, flakes, cakes, biscuits, muffins, soft cookies, golden biscuits and whole wheat flour bread. The composite products made from OFSP puree were analyzed for β-carotene content and proximate analysis. The highest concentration of β-carotene (19.86 mg/100g) was obtained in OFSP flakes. The concentration in buns with 20% puree was 0.58 mg/100g, while bread with 35% puree had a concentration of 3.02 mg/100g. Biscuits, cookies and cakes with high puree of 40% had β-carotene concentrations of 2.39, 1.83, and 2.30 mg/100g respectively. These concentrations are lower than in bread with 35% puree, and we see different proportions of ingredients and other factors such as cooking method, duration of cooking also play a major role in the final β-carotene concentration of the products. The total Retinol Activity Equivalents (RAE) for the OFSP products were significantly different with bread (35% puree) having a higher concentration of 216.67 μg/100g and OFSP buns (20% puree) having a lower concentration of 41.19 μg/100g. Orange fleshed sweet potato flakes had the highest concentration of 1443.2 μg/100g and whole wheat flour bread having the least of 6.9 μg/100g. The moisture content, total ash, crude fiber, crude fat, crude protein, and carbohydrate content of the OFSP products varied between 2.4-29.7%, 0.7-2.4%, 1.0-4.5%, 0.7-18.1%, 5.1-7.9% and 50.7-83.7%, respectively. The findings of this study show that different proportions of OFSP puree: wheat flour is not the only determinant on the final β-carotene concentration of the different OFSP products, the type and quantity of ingredients used, cooking time and method also contribute to the VA content. Diversification of OFSP food products helps increase its consumption and its added value. 2022-06 2023-03-23T14:25:40Z 2023-03-23T14:25:40Z Journal Article Wafula, E.; Malavi, D. N.; Mbogo, D.; Mwaura, L.; Moyo, M.; Muzhingi, T. 2022. Proximate composition and vitamin A contribution of biofortified orange fleshed sweet potato value added products. African Journal of Food, Agriculture, Nutrition and Development. ISSN 1684-5374. 22(4), 20215–20230. 1684-5374 https://hdl.handle.net/10568/129749 https://doi.org/10.18697/ajfand.109.21605 en CC-BY-NC-ND-4.0 Open Access 20215-20230 African Journal of Food, Agriculture, Nutrition and Development
institution CGIAR
collection DSpace
country Francia
countrycode FR
component Bibliográfico
access En linea
databasecode dig-cgspace
tag biblioteca
region Europa del Oeste
libraryname Biblioteca del CGIAR
language English
topic sweet potatoes
vitamin a deficiency
carotenoids
biofortification
sweet potatoes
vitamin a deficiency
carotenoids
biofortification
spellingShingle sweet potatoes
vitamin a deficiency
carotenoids
biofortification
sweet potatoes
vitamin a deficiency
carotenoids
biofortification
Wafula, E.N.
Malavi, D.N.
Mbogo, D.
Mwaura, L.
Moyo, M.
Muzhingi, T.
Proximate composition and vitamin A contribution of biofortified orange fleshed sweet potato value added products
description Orange fleshed sweet potato (OFSP) is rich in provitamin A carotenoids and can thus be utilized to tackle Vitamin A deficiency (VAD) in Sub-Saharan Africa (SSA). Puree with high amounts of β-carotene processed from OFSP roots is currently being incorporated in baked products such as bread, cakes, biscuits, and buns. The objective of this study was to evaluate the nutritional composition of OFSP puree supplemented food products, that is, bread, buns, flakes, cakes, biscuits, muffins, soft cookies, golden biscuits and whole wheat flour bread. The composite products made from OFSP puree were analyzed for β-carotene content and proximate analysis. The highest concentration of β-carotene (19.86 mg/100g) was obtained in OFSP flakes. The concentration in buns with 20% puree was 0.58 mg/100g, while bread with 35% puree had a concentration of 3.02 mg/100g. Biscuits, cookies and cakes with high puree of 40% had β-carotene concentrations of 2.39, 1.83, and 2.30 mg/100g respectively. These concentrations are lower than in bread with 35% puree, and we see different proportions of ingredients and other factors such as cooking method, duration of cooking also play a major role in the final β-carotene concentration of the products. The total Retinol Activity Equivalents (RAE) for the OFSP products were significantly different with bread (35% puree) having a higher concentration of 216.67 μg/100g and OFSP buns (20% puree) having a lower concentration of 41.19 μg/100g. Orange fleshed sweet potato flakes had the highest concentration of 1443.2 μg/100g and whole wheat flour bread having the least of 6.9 μg/100g. The moisture content, total ash, crude fiber, crude fat, crude protein, and carbohydrate content of the OFSP products varied between 2.4-29.7%, 0.7-2.4%, 1.0-4.5%, 0.7-18.1%, 5.1-7.9% and 50.7-83.7%, respectively. The findings of this study show that different proportions of OFSP puree: wheat flour is not the only determinant on the final β-carotene concentration of the different OFSP products, the type and quantity of ingredients used, cooking time and method also contribute to the VA content. Diversification of OFSP food products helps increase its consumption and its added value.
format Journal Article
topic_facet sweet potatoes
vitamin a deficiency
carotenoids
biofortification
author Wafula, E.N.
Malavi, D.N.
Mbogo, D.
Mwaura, L.
Moyo, M.
Muzhingi, T.
author_facet Wafula, E.N.
Malavi, D.N.
Mbogo, D.
Mwaura, L.
Moyo, M.
Muzhingi, T.
author_sort Wafula, E.N.
title Proximate composition and vitamin A contribution of biofortified orange fleshed sweet potato value added products
title_short Proximate composition and vitamin A contribution of biofortified orange fleshed sweet potato value added products
title_full Proximate composition and vitamin A contribution of biofortified orange fleshed sweet potato value added products
title_fullStr Proximate composition and vitamin A contribution of biofortified orange fleshed sweet potato value added products
title_full_unstemmed Proximate composition and vitamin A contribution of biofortified orange fleshed sweet potato value added products
title_sort proximate composition and vitamin a contribution of biofortified orange fleshed sweet potato value added products
publishDate 2022-06
url https://hdl.handle.net/10568/129749
https://doi.org/10.18697/ajfand.109.21605
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