Hidden salt in breads of Blantyre (Malawi) and labelling practices: A national wake-up call

A study was carried out to the determine amount of salt in breads sold in five major retail shops in Blantyre (Malawi). Determined salt concentrations were compared with declared values on labels. In addition, the study also assessed labelling practices among bread manufacturers to check compliance with labelling regulations in Malawi. Six brands of breads were sampled from the five major retail shops. Twelve samples were collected for each of the six brands of bread herein designated as bread 1, bread 2, bread 3, bread 4, bread 5 and bread 6. The study found that average concentration of sodium in the breads ranged from 1.7 g/100 g to 2.6 g/100 g. Significant differences of sodium content were observed in four brands of bread; bread 1, bread 2, bread 4 and bread 5 (p<0.05). No significant difference was observed between bread 3 and bread 6 (p>0.05). None of the sampled breads had declared sodium content. All the breads complied with Malawi requirements for general labelling of breads. However, all the breads did not comply with nutrition labelling guidelines. The study reveals policy gap, in Malawi, on salt reduction in foods. The study also reveals regulation and regulation enforcement gaps that need to be urgently addressed to improve the current situation. Considering the results in this study, the authors recommend that Malawi should develop policies to support reduction of salt in food products such as bread to minimise risks associated with high salt intake. The authors also recommend enforcement of Malawi standard for nutrition labelling by the relevant authorities and a complete national survey to assess understanding of nutrition labelling among manufactures. Furthermore, the authors recommend urgent revision of 1985 Malawi standard for common bread, currently in use, to include sodium content limits as one way of initiating a reduction of sodium content in breads being sold on the market.Keywords: salt reduction, bread, labelling, standard, Malawi, hypertension, sodium, consume

Development and Optimization of Peanut-Based Beverages: A Malawian Consumer-Driven Approach

Development studies of peanut-based beverages have been ongoing for many years, but there are still challenges, especially with their sensory properties and, ultimately, consumer acceptability. As a result, peanut-based beverages are rarely found on the market, even in developed countries. The current study used mixture design and product matching approaches to develop and optimize peanut-based beverages. Sensory drivers of consumer acceptability were also determined. Optimization focused on maximizing overall consumer acceptability by varying two independent variables that constituted 16% of the beverage by weight: peanut paste (PP) and malted milk powder (MMP). The optimal proportions of the PP and any type of MMP, in the two-component mixture, were 0.6 and 0.4, respectively. Maintaining all other factors as constant, model validation results showed that the model could predict overall liking of the peanut-based beverages with 96% accuracy when the proportions of PP and MMP are known. The samples that were perceived, by the consumers, to be thick, creamy, and smooth had significantly higher (p ≤ 0.05) overall liking scores than those that were perceived to be watery, grainy, and whitish. Based on the findings, acceptable peanut-based beverages were developed and can be scaled up despite using non-defatted peanuts in the formulation

Development and Optimization of Peanut-Based Beverages: A Malawian Consumer-Driven Approach

Development studies of peanut-based beverages have been ongoing for many years, but there are still challenges, especially with their sensory properties and, ultimately, consumer acceptability. As a result, peanut-based beverages are rarely found on the market, even in developed countries. The current study used mixture design and product matching approaches to develop and optimize peanut-based beverages. Sensory drivers of consumer acceptability were also determined. Optimization focused on maximizing overall consumer acceptability by varying two independent variables that constituted 16% of the beverage by weight: peanut paste (PP) and malted milk powder (MMP). The optimal proportions of the PP and any type of MMP, in the two-component mixture, were 0.6 and 0.4, respectively. Maintaining all other factors as constant, model validation results showed that the model could predict overall liking of the peanut-based beverages with 96% accuracy when the proportions of PP and MMP are known. The samples that were perceived, by the consumers, to be thick, creamy, and smooth had significantly higher (p ≤ 0.05) overall liking scores than those that were perceived to be watery, grainy, and whitish. Based on the findings, acceptable peanut-based beverages were developed and can be scaled up despite using non-defatted peanuts in the formulation

Optimization of Emulsifier and Stabilizer Concentrations in a Model Peanut-Based Beverage System: A Mixture Design Approach

Colloidal stability as well as physicochemical and rheological properties are among the critical determinants of the sensory quality of beverages. The present study investigated the effects of lecithin, xanthan gum, propylene glycol alginate, and their combinations on the colloidal stability and physicochemical/rheological properties of a model peanut-based beverage. A simplex centroid mixture design was applied, and the visual stability, centrifuge stability, physicochemical properties (soluble solids, pH, water activity, color), and rheological parameters (flow behavior and viscosity) of the samples were determined. All the evaluated parameters were significantly affected (p < 0.05) by the type and quantity of emulsifier or stabilizer used. At the 0.5% total usage level, the optimum stabilizer and emulsifier combination was that of 66% xanthan gum and 34% lecithin. A further increase of lecithin in the mixture caused a decrease in the colloidal stability of the sample. Irrespective of emulsifier and stabilizer type and quantity, all samples exhibited shear-thinning flow behavior, with samples containing xanthan gum being more pseudoplastic than the others. The prediction model for the visual stability index found in this study may be used by the industry to formulate similar beverages for better colloidal stability

Peanut Consumption in Malawi: An Opportunity for Innovation

Peanuts are a valuable source of nutrients, but peanut consumption patterns, consumption frequencies, and the factors influencing peanut consumption in Malawi are not known. This study surveyed consumers to fill this knowledge gap and to assess Malawian consumers’ readiness to try new food products. Out of the 489 respondents surveyed, all but three consumed peanuts (in any form). The majority (70.4%) consumed peanuts at least three times in a week. Chi-square test showed that demographic and socioeconomic variables had significant effects (p < 0.05) on peanut product preferences, the frequency of peanut consumption, and readiness to try new foods. For instance, women mostly preferred peanut flour compared to men, and peanut butter was the most preferred form for younger consumers. Logistic regression analysis showed that consumers with high school education or below were 2.35 times more likely to eat peanuts more often than consumers with post high school education. Among the participants that were ready to try new foods (54%), men and those with post high school education were 1.90 and 2.74 times more likely to try new foods than their respective counterparts. In general, the diversity of peanut products on the Malawian market is limited, and socioeconomic restrictions override consumer preferences. Therefore, future peanut-based food products innovations should explore ways to overcome such restrictions

Reduction of aflatoxins during brewing of a Malawian maize‐based non‐alcoholic beverage, thobwa

Abstract This study reports onthe effect of various production steps on levels of aflatoxins during preparation of thobwa, a traditional maize‐based fermented non‐alcoholic beverage, brewed across Malawi. The effect of boiling, fermentation and their interaction on the level of aflatoxins, the trends of aflatoxin reduction during brewing, and the distribution of aflatoxins between the solid and liquid phases of the beverage were studied using VICAM AflaTest immunoaffinity fluorometric assay. Fermenting and boiling thobwa pre‐mix‐, with initial aflatoxin content of 45–183 μg/kg, resulted in aflatoxin reduction of 47% (13–61 μg/kg) on average. Fermentation and boiling contributed about 20 and 33% aflatoxin reduction, respectively, but without interactive effect between the two factors. Fermenting the thobwa for 24 h led to further reduction of aflatoxins to about 37% of the initial content, and remainedconstant for up to 8 days. Thobwa is a popular beverage in Malawi which is consumed in large quantities by all gender categories including infants, therefore the presence of aflatoxins may constitute a significant health risk factor. This study highlights the need to use raw materials with low levels of aflatoxins for production of maize‐based non‐alcoholic beverages to ensure consumer safety