# Physicochemical, Functional, Sensory Properties and Willingness to Consume Porridge Made From Composite Flours of Maize, Soybean, and Ripe Plantain

**Authors:** Gifty Serwaa Otoo, Nazir Kizzie‐Hayford, Rosemond Godbless Dadzie, Salifu Seidu‐Larry, Claudia Asantewaa Gyimah, Vivianne Geraldo, Sandra Ama Kaburi, Francis Padi Lamptey, Isaaca Adade, Jerry Ampofo‐Asiama

PMC · DOI: 10.1002/fsn3.71585 · Food Science & Nutrition · 2026-03-02

## TL;DR

This study improves maize porridge's nutrition by adding soybean and ripe plantain, increasing protein and vitamin A while maintaining sensory appeal and consumer willingness to pay more.

## Contribution

A practical approach to creating nutrient-rich porridge using locally available ingredients to combat protein and vitamin A deficiencies.

## Key findings

- Adding soybean and ripe plantain increased protein, iron, and β-carotene in the porridge.
- Sensory evaluation showed high acceptability despite noticeable color changes.
- Consumers were willing to pay more for the composite porridge due to its health benefits.

## Abstract

Addressing issues of protein and vitamin A deficiency remains vital for mitigating hunger and moderating malnutrition in many developing countries. In this study, maize porridge, which is widely consumed in several communities of low‐ to middle‐income countries, was experimented with as a vehicle for improving nutrient intake by adding soybean and ripe plantain to form composite flours. The physicochemical, functional, and proximate composition of the composite flours were determined, and the sensory properties and consumer acceptability of porridge prepared from the flours analyzed. Additionally, the willingness of respondents to consume the porridge was evaluated via questionnaire administration. The results show that adding soybean and ripe plantain led to increases in protein, iron, and β‐carotene, which affected water binding capacity, bulk density, solubility, and swelling power. The browning index reduced, leading to observable color changes while an increase in total soluble solids was observed. The sensory panelists were able to distinguish between the different types of porridge, but this did not affect the overall acceptability. Respondents revealed health and nutritional benefits as the major drivers for acceptability, and were willing to pay higher tokens for the newly developed composite porridge. This study provides a practical approach for creating nutritious and acceptable composite flours from locally available raw ingredients: maize, soybean, and ripe plantain, which can address moderate malnutrition relating to protein and vitamin A deficiency while enhancing food security.

This study aims to enhance the nutritional quality of maize porridge, a popular meal in many developing countries, by adding soybean and ripe plantain flours which are rich in protein and β‐carotene, respectively. The addition of soybean and ripe plantain to form composite flour did not affect water binding, swelling power, and viscosity compared to maize flour. Sensory evaluation revealed high acceptability of the composite porridge, with panelists willing to pay higher tokens due to the health and nutritional benefits.

## Linked entities

- **Chemicals:** β-carotene (PubChem CID 573)

## Full-text entities

- **Diseases:** malnutrition (MESH:D044342), deficiencies (MESH:D007153), dietary deficiencies (MESH:D000740), vitamin A deficiency (MESH:D014802), protein (MESH:D011488), iron deficiencies (MESH:D000090463)
- **Chemicals:** potassium (MESH:D011188), hydrogen peroxide (MESH:D006861), sodium bicarbonate (MESH:D017693), Eriochrome black (-), carbohydrate (MESH:D002241), acetone (MESH:D000096), oil (MESH:D009821), potassium permanganate (MESH:D011196), tannins (MESH:D013634), phenols (MESH:D010636), starch (MESH:D013213), table salt (MESH:D017673), hydroxylamine hydrochloride (MESH:D019811), Minerals (MESH:D008903), beta-carotene (MESH:D019207), lipid (MESH:D008055), calcium (MESH:D002118), sulfuric acid (MESH:C033158), magnesium (MESH:D008274), nitric acid (MESH:D017942), ammonium thiocyanate (MESH:C026976), potassium ferrocyanide (MESH:C031835), gallic acid (MESH:D005707), sugar (MESH:D000073893), methanol (MESH:D000432), phytate (MESH:D010833), fat (MESH:D005223), potassium cyanide (MESH:D011190), boric acid (MESH:C032688), iron (III) chloride (MESH:C024555), ethylenediaminetetraacetic acid (MESH:D004492), oxalate (MESH:D010070), Retinol (MESH:D014801), petroleum ether (MESH:C004544), iron (MESH:D007501), water (MESH:D014867), sodium hydroxide (MESH:D012972), blood sugar (MESH:D001786), ethanol (MESH:D000431), triethanolamine (MESH:C009546), hydrochloric acid (MESH:D006851)
- **Species:** Vigna subterranea (Bambara groundnut, species) [taxon 115715], Homo sapiens (human, species) [taxon 9606], Glycine max (soybean, species) [taxon 3847], Musa x paradisiaca (banana, species) [taxon 89151]

## Full text

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## Figures

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## References

24 references — full list in the complete paper: https://tomesphere.com/paper/PMC12953177/full.md

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Source: https://tomesphere.com/paper/PMC12953177