Browsing by Person "Mburu, Monica"

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Chemical composition and consumer acceptability of oyster mushroom and sorghum-pearl millet based composite flours
(2024) Ndunge Charles, Alice; Mburu, Monica; Njoroge, Daniel; Zettel, Viktoria
Due to over-reliance on starchy staple foods in Kenya Micronutrient deficiency (MD) and Protein Energy Malnutrition (PEM) are the major nutritional concerns. Despite these foods being characterized by low nutrient densities, they are still used as main food ingredient especially in making porridges. Therefore, this study intended to develop composite flour of sorghum-pearl millet blends fortified with oyster mushroom and further evaluate its chemical composition and consumer acceptability. The sorghum and pearl millet were soaked in tap water then solar dried followed by milling into flour. Oyster mushrooms were also solar dried and milled. Subsequently, oyster mushroom was substituted to sorghum-pearl millet blends at 10–50 % to achieve the composite flours. Proximate composition of the samples was determined using standard methods, Inductively Coupled Plasma Optical Emission Spectroscopy and Ultra Performance Liquid Chromatography Ultraviolet Spectroscopy/Mass Spectrometry were used for mineral and vitamin analyses, respectively. In addition, consumer acceptability test was done on thin porridges was also carried out using untrained panelists. Protein content of the composite flours increased from 11.15–19.74 %, and there were significant increases in fiber (2.68–10.66 %) and ash (1.38 % to 5–79 %). Mineral content increased with Ca, P, Na, K, Mg, Zn and Fe as high as 286.25 mg/100 g, 2088.05 mg/100 g, 167.55 mg/100 g, 1833.05 mg/100 g, 136.75 mg/100 g, 4.22 mg/100 g and 9.46 mg/100 g respectively. An improvement of B1, B2, B3, B6 and B9 vitamin contents was also observed. Sensory analysis showed relatively moderate overall acceptance of thin porridges from the composite flours, although the acceptability decreased with the increase in oyster mushroom. Specifically, composite flour with 50% oyster mushroom was rich in most nutrients but it had the lowest scores for the sensory attributes. In conclusion, addition of oyster mushroom increased the overall nutritional composition of local cereal based staple foods an indication of potential solution to PEM and MD.
Effects of Ugali maize flour fortification with chia seeds (Salvia hispanica L.) on its physico-chemical properties and consumer acceptability
(2024) Chemutai, Susan; Mburu, Monica; Njoroge, Daniel; Zettel, Viktoria
The study investigated the effect of incorporating whole chia seeds (WCS) and defatted chia seed flour (DCF) into whole maize meal for ugali preparation. Both were incorporated at substitution levels of 3%, 6%, and 9% separately, and the resulting treatments subjected to laboratory analysis. In addition, ugali samples were prepared from all the resulting flour formulations and subjected to consumer acceptability assessment. Incorporation of both DCF and WCS resulted in increased water absorption capacity (ranging from 0.78 to 0.98 g/mL), swelling index (ranging from 0.15 to 3.25 mL/g), and swelling capacity (ranging from 2.46 to 5.74 g/g). WCS decreased the bulk density and oil absorption capacity. DCF, however, resulted in an increase in bulk density and oil absorption capacity. Both DCF and WCS lowered the lightness (L*) of the products. Proximate composition ranged from 4.78 to 7.46% for crude fat, 7.22% to 9.16% for crude protein, and 1.74 to 4.27% for crude fiber. The obtained results show the potential of chia seeds as a good fortificant of maize flour since it resulted in nutritionally superior products (crude ash, crude protein, crude fat, and energy value) when compared to control. The freshly prepared ugali samples were generally acceptable to the panelists up to 9% WCS and 6% DCF substitution levels.
Spectroscopic analysis of chia seeds
(2021) Mburu, Monica; Paquet-Durand, Olivier; Hitzmann, Bernd; Zettel, Viktoria
Chia seeds are becoming more and more popular in modern diets. In this contribution NIR and 2D-fluorescence spectroscopy were used to determine their nutritional values, mainly fat and protein content. 25 samples of chia seeds were analysed, whereof 9 samples were obtained from different regions in Kenya, 16 samples were purchased in stores in Germany and originated mostly from South America. For the purchased samples the nutritional information of the package was taken in addition to the values obtained for fat and protein, which were determined at the Hohenheim Core Facility. For the first time the NIR and fluorescence spectroscopy were used for the analysis of chia. For the spectral evaluation two different pre-processing methods were tested. Baseline correction with subsequent mean-centring lead to the best results for NIR spectra whereas SNV (standard normal variate transformation) was sufficient for the evaluation of fluorescence spectra. When combining NIR and fluorescence spectra, the fluorescence spectra were also multiplied with a factor to adjust the intensity levels. The best prediction results for the evaluation of the combined spectra were obtained for Kenyan samples with prediction errors below 0.2 g/100 g. For all other samples the absolute prediction error was 0.51 g/100 g for fat and 0.62 g/100 g for protein. It is possible to determine the amount of protein and fat of chia seeds by fluorescence and NIR spectroscopy. The combination of both methods is beneficial for the predictions. Chia seeds from Kenya had similar protein and lipid contents as South American seeds.