Development and Evaluation of Weaning Foods Using Locally Available Nutritious Fruits in Bangladesh

Bangladesh has one of the highest rates of malnutrition in the world although the country is endowed with agricultural produce that could be properly utilised to prepare adequate food for children. Considering this, three weaning foods were formulated using locally available cereals and nutritious fruits such as wheat, soya flour, jackfruit and mango. Methods: Standard procedures of Association of Official Analytical Chemists (AOAC) and American Public Health Association (APHA) were used to determine the chemical composition and microbiological analysis. Organoleptic qualities were analysed by twenty adult panelists of the Institute of Food Science and Technology, Bangladesh, using a 9-hedonic scale against a cereal based commercial brand as standard for proximate and sensory properties. Results: The moisture content of the developed weaning foods ranged from 2.78-3.59%, crude protein content 14.74-16.55%, fat 11.04-12.70%, ash 1.38-1.68%, crude fibre 1.04-1.52%, carbohydrate 65.83-71.09% and energy content from 445.80-465.48 kcal/100g of the foods. The formulated weaning foods A, B and C were significantly different (p<0.05) in moisture, protein, fat, carbohydrate and energy contents from the commercial brand, D. According to rat bioassay method, the prepared weaning foods C and B had the highest Protein Efficiency Ratio and Feed Efficiency Ratio than the commercial brand, D. Total bacterial counts were nil for all weaning foods. Sensory analysis revealed acceptability of all the weaning foods and preference for weaning food C that compared favorably with the standard in all the quality attributes. Conclusion: The formulated weaning foods are inexpensive and nutritious, and its ingredients are locally available. These foods have the potential for improving malnutrition problems facing children in Bangladesh.

Diagnosis and Management of Grain-Induced Asthma

Grain-induced asthma is a frequent occupational allergic disease mainly caused by inhalation of cereal flour or powder. The main professions affected are bakers, confectioners, pastry factory workers, millers, farmers, and cereal handlers. This disorder is usually due to an IgE-mediated allergic response to inhalation of cereal flour proteins. The major causative allergens of grain-related asthma are proteins derived from wheat, rye and barley flour, although baking additives, such as fungal alpha-amylase are also important. This review deals with the current diagnosis and treatment of grain-induced asthma, emphasizing the role of cereal allergens as molecular tools to enhance diagnosis and management of this disorder. Asthma-like symptoms caused by endotoxin exposure among grain workers are beyond the scope of this review. Progress is being made in the characterization of grain and bakery allergens, particularly cereal-derived allergens, as well as in the standardization of allergy tests. Salt-soluble proteins (albumins plus globulins), particularly members of the alpha-amylase/trypsin inhibitor family, thioredoxins, peroxidase, lipid transfer protein and other soluble enzymes show the strongest IgE reactivities in wheat flour. In addition, prolamins (not extractable by salt solutions) have also been claimed as potential allergens. However, the large variability of IgE-binding patterns of cereal proteins among patients with grain-induced asthma, together with the great differences in the concentrations of potential allergens observed in commercial cereal extracts used for diagnosis, highlight the necessity to standardize and improve the diagnostic tools. Removal from exposure to the offending agents is the cornerstone of the management of grain-induced asthma. The availability of purified allergens should be very helpful for a more refined diagnosis, and new immunomodulatory treatments, including allergen immunotherapy and biological drugs, should aid in the management of patients with this disorder.

Diagnosis and Management of Grain-Induced Asthma

Grain-induced asthma is a frequent occupational allergic disease mainly caused by inhalation of cereal flour or powder. The main professions affected are bakers, confectioners, pastry factory workers, millers, farmers, and cereal handlers. This disorder is usually due to an IgE-mediated allergic response to inhalation of cereal flour proteins. The major causative allergens of grain-related asthma are proteins derived from wheat, rye and barley flour, although baking additives, such as fungal alpha-amylase are also important. This review deals with the current diagnosis and treatment of grain-induced asthma, emphasizing the role of cereal allergens as molecular tools to enhance diagnosis and management of this disorder. Asthma-like symptoms caused by endotoxin exposure among grain workers are beyond the scope of this review. Progress is being made in the characterization of grain and bakery allergens, particularly cereal-derived allergens, as well as in the standardization of allergy tests. Salt-soluble proteins (albumins plus globulins), particularly members of the alpha-amylase/trypsin inhibitor family, thioredoxins, peroxidase, lipid transfer protein and other soluble enzymes show the strongest IgE reactivities in wheat flour. In addition, prolamins (not extractable by salt solutions) have also been claimed as potential allergens. However, the large variability of IgE-binding patterns of cereal proteins among patients with grain-induced asthma, together with the great differences in the concentrations of potential allergens observed in commercial cereal extracts used for diagnosis, highlight the necessity to standardize and improve the diagnostic tools. Removal from exposure to the offending agents is the cornerstone of the management of grain-induced asthma. The availability of purified allergens should be very helpful for a more refined diagnosis, and new immunomodulatory treatments, including allergen immunotherapy and biological drugs, should aid in the management of patients with this disorder.

Dieta hiperlipídica com farinha de soja como fonte proteica: utilização na seleção de ratos propensos e resistentes à obesidade / High-fat diet using soybean meal as protein source: use for selecting rats prone and resistant to obesity

OBJETIVO: Desenvolver uma dieta hiperlipídica de baixo custo, tendo farinha de soja como fonte proteica, que seja eficiente na seleção de ratos propensos e resistentes à obesidade e que permita alcançar fenótipo obeso nos animais propensos. Além desses requisitos, a dieta deve ser palatável e não rejeitada a curto prazo pelo animal. MÉTODOS: A dieta proposta foi obtida misturando-se leite condensado (15,5 por cento), amendoim (18,5 por cento), farinha de soja (20,0 por cento), óleo de milho (6,0 por cento), ração Bio Tec (30,0 por cento) e bolacha wafer de chocolate (10,0 por cento). A mistura foi peletizada e submetida à análise bromatológica. A dieta foi ofertada a ratos Wistar durante uma semana; posteriormente, os animais foram divididos em três grupos, de acordo com o ganho de peso. O terço superior foi considerado propenso à obesidade e o terço inferior, resistente à obesidade. Após 80 dias de oferta da dieta, os animais foram sacrificados e foram quantificados o peso corpóreo, consumo alimentar, gorduras retroperitoneal, periepididimal, de carcaça e gorduras totais. RESULTADOS: Verificou-se que a dieta apresentava 5,31kcal/g, com a seguinte composição: 22,3 por cento de gordura, 22,2 por cento de proteína, 15,9 por cento de fibra, estimando-se 35,7 por cento de carboidrato. Ratos propensos à obesidade, alimentados por 87 dias com a dieta hipercalórica, apresentaram peso corpóreo, gorduras retroperitoneal, periepididimal e totais significativamente maiores do que animais resistentes à obesidade (p<0,05). O consumo de alimentos também foi maior em animais propensos (p<0,05). Verificou-se também que a substituição da caseína pela farinha de soja, como componente proteico da ração, levou à diminuição de 96,0 por cento no custo do estudo. CONCLUSÃO: A dieta formulada com farinha de soja apresentou custo reduzido e foi capaz de desenvolver o fenótipo obeso em ratos propensos, à semelhança do observado na literatura com outras dietas.

OBJECTIVE: The objective was to develop a high-fat, low cost diet, using soybean meal as protein source. This diet should effectively discriminate between rats prone and resistant to obesity and allow the obese phenotype to be achieved in the animals that are prone to obesity. Furthermore, the diet must be palatable and not be rejected by the animal in the short run. METHODS: The chow was obtained by mixing the following ingredients: condensed milk (15.5 percent), peanuts (18.5 percent), soybean meal (20.0 percent), corn oil (6.0 percent), Bio Tec chow (30.0 percent) and chocolate wafer cookies (10.0 percent). In order to make it appropriate for rats, the mixture was pelleted and subjected to food analysis. The chow was offered to Wistar rats for a week. The animals were subsequently separated according to weight gained. The upper third group was considered prone to obesity and the lower third group was considered resistant to obesity. The animals were sacrificed 80 days later to determine body weight, food intake, retroperitoneal, periepididymal and carcass fats and total fats. RESULTS: Food analysis found that the chow had an energy density of 5.31 Kcal/g, 22.3 percent fat, 22.2 percent protein, 15.9 percent fiber and 35.7 percent carbohydrates. After being fed for 87 days with the high-fat diet, obesity-prone rats had higher body weight and retroperitoneal, periepididymal and total fats than obesity-resistant animals (p<0.05). Food intake was also higher among obesity-prone rats (p<0.05). The replacement of casein by soybean meal as protein source reduced the cost of the study by 96.0 percent. CONCLUSION: The substitution of casein by soybean meal in a high-fat diet allows cost reduction and the identification of obese-prone rats. Continuous use of this high-fat diet resulted in the development of the obese phenotype, as seen with other diets used in the literature.