Browsing by Author "Attakora R"

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    Non-invasive discrimination of roasted and unroasted cocoa bean shell of cocoa clones in Ghana and quantification of nutritional and bioactive components: a chemometric approach
    (Springer Nature, 2024-10-09) Ampomah KA; Attakora R; Zaukuu J-LZ; Agbolegbe RK; Diako C; Aduama-Larbi MS; Atta O; Mensah ET; Amoah I
    Cocoa bean shell (CBS) remains a commonly produced by-product of cocoa bean processing. It is usually obtained from fermented and dried cocoa beans that are roasted. The study investigated the potential use of Near-infrared spectroscopy (NIRS) analysis for discriminating roasted and unroasted CBS among cocoa clones and quantifying some nutritional and bioactive components in Ghana. Five clones, comprising four important seed gardens clones used across West Africa and one criollo were evaluated. Cocoa beans from the different clones (T60/887, VENC 4, MO 20, PA 150 and T60/887 × POUND 7) were divided into two parts, with one part roasted at a temperature of 120 °C for 50 min while the other part was kept unroasted. The CBSs were milled and passed through a 425 μm pore-sized sieve to obtain the powder. A handheld portable NIRS was used to scan the CBS powder in Ziplock bags. The nutritional and bioactive characterisation was carried out using official methods. NIRS discriminated the various clones of roasted and unroasted CBS. Carbohydrate was the predominant macronutrient, and ash content ranged from 5.25 to 8.24%. The CBS was high in potassium (2382–3144 mg/100 g) and low in sodium (25.67–51.33 mg/100 g). Total flavonoids and phenolics ranged from 8.61 to 40.71 mgQE/g and 6.34–12.25 mgGAE/g, respectively, for the roasted and unroasted CBS. To ensure better differentiation of cocoa beans from different clones using NIRS, incorporating roasting as a processing parameter is recommended.
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    Nutrient Content, Functional Properties and Acceptability of Rock Buns Formulated From Freeze-Dried Detroit Dark Red Beetroot Pomace Flour
    (John Wiley asnd Sons Ltd, 2025-07-26) Amoah I; Asante RO; Attakora R; Mohammed AZ; Tandoh MA; Diako C; Suhag R
    Beetroot pomace is an underutilised food by-product obtained from the processing of beetroots. However, its rich source of nutrients makes it a potential ingredient for utilisation in rock bun development. The aim of the study was to investigate the nutrient composition and functional properties of freeze-dried beetroot pomace and wheat composite flours, as well as the sensory acceptability of rock buns formulated from these flours. Rock buns were formulated with 95:5, 90:10, 85:15 and 80:20 for wheat flour:freeze-dried beetroot pomace flour (BPF) and 100:0 for the control, respectively. Functional properties and proximate analysis of the flours were determined using standard methods. Sensory evaluation was carried out using a 100 mm visual analogue scale. One-way ANOVA was used to determine significant differences in the mean of the parameters evaluated. Principal component analysis and agglomerative hierarchical clustering exploiting Ward linkage and Euclidean distances were used to establish a visual relationship between the flour samples and some outcome variables. The nutrient composition of composite flour enriched with 20% of BPF showed high fibre, protein and ash content of 1.79%, 11.71% and 2.19%, respectively, compared to the control sample. The swelling power, oil absorption capacity and water absorption capacity increased with increased incorporation of BPF, whilst dispersibility and solubility decreased. The sensory acceptability of the rock buns enriched with 5% and 10% freeze-dried BPF was comparable to the control rock buns formulated from wheat flour only. Rock buns enriched with 10% freeze-dried BPF are nutrient-dense and can compete with control rock buns commercially.