Julius Kwasi Ofori scite author profile

The physicochemical and functional properties of dried okra seed flour of two genotypes Agbagoma and Balabi were evaluated. The samples Agbagoma and Balabi had 8.90%–9.00% moisture, 16.80%–17.40% protein, 47.80%–48.00% fat, 7.70%–7.80% ash, and 18.20%–18.40% carbohydrate. The mean values of functional properties revealed significant differences (p < .05) between okra seed flour samples studied. The samples’ bulk density range was 0.80–0.83 g/ml. Water absorption capacity and oil absorption capacity ranged from 511.65% to 504.32% and 88.38 to 160.67%, respectively. The solubility was 14.10% for Agbagoma and 10.97% for Balabi, whereas swelling power was 16.37% and 14.68% for Agbagoma and Balabi, respectively. All pasting properties except peak time and pasting temperature of Agbagoma seed flour were higher than those of Balabi seed flour. The study revealed that dried okra seed flour is rich in nutrients, which could be used for baking and fortification of foods.

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Polycyclic aromatic hydrocarbons in settled dust particles in selected Ghanaian environments: Levels, source characterization, and assessment of inhalational health risks

Essumang

Ofori

Dodoo

et al. 2014

Indoor and Built Environment

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Deposited total particulate matter samples were collected from 10 indoor sites within the Cape Coast and Komenda Edina Eguafo Abrem Municipalities of Ghana and analysed for polycyclic aromatic hydrocarbons (PAHs) using a Varian Gas Chromatography/Mass Spectrometry (GC/MS) system with 8400 auto-sampler. Quality control analysis using National Institute of Standards and Technology Standard Reference Material 1941B gave the PAH recoveries of 80.5% or better. The concentrations of the various individual PAHs in the particulate matter ranged from below detection limits to 3240 mg/ kg. The results compared well with a similar study carried out in Palermo, Italy, which had concentrations between 0.01 and 25838.0 mg/kg. Assessment of their sources showed the emission of PAHs was from both combustion and petroleum sources. The cancer risk level for the various sites ranged between 2.6 Â 10 -7 and 3.6 Â 10 -4 with the upper limit being higher than the acceptable level of 10 -5 . The mutagenic risk levels of the PAHs in the air particulate matter collected from various sites also ranged from 2.0 Â 10 À6 to 3.3 Â 10 À4 , showing certain levels of health risks. This study suggests that indoor air pollution, which has been relegated in most developing countries, should be taken seriously.

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Starches of two water yam (Dioscorea alata) varieties used as congeals in yogurt production

Tortoe

Akonor

Ofori

2019

Food Science & Nutrition

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The physicochemical properties of water yam ( Dioscorea alata var. Akaba and Matches) starches were determined prior to their use as congeals for yogurt production. The moisture content ranged from 9.34% to 15.8% for A100 (100% Akaba ) and M100 (100% Matches ), respectively, indicating lower moisture content in the Akaba variety compared to Matches variety. Similar trend was observed for their water activity. The pH ranged from 5.88 to 6.93 indicating low acidity of the water yam starches. The water absorption capacity ( WAC ) ranged from 4.10 to 4.89 g/g, seemingly restricted reflecting protein–moisture interaction of the starches. Although the swelling power did not differ significantly ( p > 0.05) ranging from 10% to 14%, they were quite restrictive as the WAC . The L * values of the starches were predominantly lightness in color, highest for A100 sample. The pasting temperatures of Akaba (A100), Matches (M100), and A50:M50 were not significantly different ( p > 0.05). Peak viscosity of the water yam starches was in a range of 509–528 BU. The highest attributes were for taste (6.4), mouthfeel (5.4), flavor (5.4) sourness (4.6) and consistency (5.9), which were obtained from 1.5 % Matches , 0.5 % Akaba + 0.5 % Matches , 1.0 % Akaba + 1.0 % Matches samples. The overall acceptability (5.8) was higher than the control yogurt (4.7), indicating sample 0.5% Akaba + 0.5% Matches as the best‐bet yogurt.

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Chemical, Microbial Quality, and Risk Assessment due to Toxic Metal Contamination of Egusi (Citrullus colocynthis L.) Powder Sold in Selected Ghanaian Markets

Arthur

Ofori

Addo

et al. 2020

International Journal of Food Science

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The present study was undertaken to investigate the physicochemical and microbiological qualities of melon seed powder sold in some open Ghanaian markets. Twenty-five samples of powder were collected randomly from each of four major markets and analyzed for moisture, pH, total ash, acid insoluble ash, and free fatty acids (FFA) using standard methods. The microbial population was determined using the pour plate method. Melon seed powder samples had a neutral pH (6.9-7.3) and contained significant amounts of ash (0.1-0.6%). Acid insoluble ash of powder from one market was high (0.6%) and possibly indicate contamination with siliceous earth material. FFA ranged between 4.1 and 11.6% for powder from the four markets. Levels of lead were higher (0.4-0.8 ppm) than other metals such as cadmium (0.02 ppm) and copper (0.3-0.6 ppm). HQ values >1 were recorded for Pb, implying a greater risk of toxicity to consumers. Counts for aerobic bacteria, fecal coliforms, and yeast and molds were in the range of 3.2-4.4, 1.6-4.0, 1.4-2.8, and 1.1-3.2 log CFU/g correspondingly for these organisms. E. coli was not detected in any of the melon seed powder samples analyzed. This study highlights the need for proper handling of melon seed during processing, storage, and distribution, to safeguard its quality for consumers.

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