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Complementary Foods (complementary + food)

Distribution by Scientific Domains

Medical Sciences	50%
Chemistry	40%

Selected Abstracts

Production and Shelf Stability of Multiple-Fortified Quick-Cooking Rice As a Complementary Food

JOURNAL OF FOOD SCIENCE, Issue 7 2008
S. Porasuphatana
ABSTRACT:, Rice-based complementary foods normally contain inadequate amounts of several micronutrients, such as iron, calcium, and zinc. This study aimed at improving the quality of commercially produced rice-based complementary foods. The analysis centered on identifying a rice-based complementary food that is safe, stable, sensory acceptable, and economical in terms of fortificants (iron, calcium, zinc, thiamine, folate) and effectively packaged for industrial production and distribution. Product colors were mostly in green-yellow tone and slightly changed to more yellow during storage. Sensory acceptability was affected by changes in odor and rancidity but not in color. Rancidity scores were low in aluminum foil laminated plastic bags (ALU). Lipid oxidation significantly increased during storage, but at a slower rate when sodium citrate and ALU were used. Color differences of raw products were detected but not in the cooked ones. Mineral and vitamin losses during processing were 2% to 11% and 20% to 30%, respectively, but no losses were found during storage. FeSO4+ NaFeEDTA added with sodium citrate resulted in the most acceptable product for all packagings. The multiple-fortified quick-cooking rice (MFQCR) developed from this study could be a potentially useful tool for combating micronutrient deficiencies among infants and young children in the countries where rice is the staple food. [source]

Young child feeding practices and child nutritional status in rural Ghana

INTERNATIONAL JOURNAL OF CONSUMER STUDIES, Issue 4 2007
Christina A. Nti
Abstract A study was conducted in the Manya Krobo district of Ghana with the objective of studying young child feeding practices and child nutrition situation in the area. The study was a cross-sectional survey involving 400 mothers with young children between 0 and 18 months. A combination of methods, including structured interviews using questionnaire, dietary assessment and anthropometry, was used to collect data for the study. The data obtained were analysed using spss version 10 in Windows. Means and standard deviations were generated for continuous variables and frequency distribution for categorical variables. The results revealed that although breastfeeding rates were high (97%), complementary feeding practices were less than ideal with as many as 14% of the children being introduced to complementary foods below the age of 3 months. The nutritional quality of complementary foods were poor and the prevalence of stunting among the children was high (20%). For adequate complementary feeding and improved child nutrition in this population, nutrition education intervention programmes aimed at improving nutrient intake among young children, through improved diet diversity and increased use of local foods rich in iron and other nutrients, need to be undertaken. [source]

Production and Shelf Stability of Multiple-Fortified Quick-Cooking Rice As a Complementary Food

Acceptability, storage stability and costing of ,-amylase-treated maize,beans,groundnuts,bambaranuts complementary blend

JOURNAL OF THE SCIENCE OF FOOD AND AGRICULTURE, Issue 6 2007
Victor O Owino
Abstract The effects of ,-amylase treatment on physical properties, acceptability to mothers, and cost of roasted and extruded maize,beans,groundnuts,bambaranuts complementary porridge recipes were assessed prior to their industrial production. Storage stability of the extruded ,-amylase-treated fortified blend was assessed at 2 weeks and 6 months by sensory evaluation, peroxide value, water activity and microbiological load. The use of ,-amylase at 0.04% w/w enhanced porridge acceptability and resulted in 88% and 122% increase in flour concentration for roasted and extrusion-cooked porridge flour, respectively, while maintaining porridge viscosity at 1000-fold lower than that of traditionally used porridges. The extrusion cooked blend was stable for 6 months. ,-Amylase application increased the unit cost of the developed blend by only 1.4%. The total cost was less than US $ 2 kg,1, half the minimum price of commercially available complementary foods. Further work on marketing and the efficacy of this inexpensive food on growth of infants is warranted. Copyright © 2007 Society of Chemical Industry [source]

Use of ferrous fumarate to fortify foods for infants and young children

NUTRITION REVIEWS, Issue 9 2010
Richard Hurrell
Ferrous fumarate is currently recommended for use in the fortification of foods for infants and young children. This recommendation is based on the compound's good sensory properties and on results from isotope studies in adults that reported similar iron absorption values for ferrous fumarate and ferrous sulphate (relative bioavailability [RBV] of ferrous fumarate, 100). However, later isotope studies conducted on both iron-replete and iron-deficient young children found that iron absorption from ferrous fumarate was only about 30% of that achieved from ferrous sulphate (RBV, 30). The reasons for the differences observed in adults compared with children are unclear but could be related to the following factors: lower iron status in children resulting in greater iron absorption via upregulation from ferrous sulphate but not from ferrous fumarate; reduced gastric acid secretion in children leading to retarded dissolution of ferrous fumarate; or an influence of added ascorbic acid on RBV. Ferrous fumarate-fortified complementary foods have been demonstrated to improve iron status in iron-deficient infants and, more recently, to prevent iron deficiency equally as well as ferrous sulphate in iron-replete infants. However, current evidence indicates that iron-deficient infants and young children may absorb iron from ferrous fumarate less well than iron from ferrous sulfate and that, for equivalent efficacy, complementary foods targeted at such infants and young children should contain more iron in the form of fumarate. [source]

The importance of early complementary feeding in the development of oral tolerance: Concerns and controversies

PEDIATRIC ALLERGY AND IMMUNOLOGY, Issue 5 2008
Susan L. Prescott
Rising rates of food allergies in early childhood reflect increasing failure of early immune tolerance mechanisms. There is mounting concern that the current recommended practice of delaying complementary foods until 6 months of age may increase, rather than decrease, the risk of immune disorders. Tolerance to food allergens appears to be driven by regular, early exposure to these proteins during a ,critical early window' of development. Although the timing of this window is not clear in humans, current evidence suggests that this is most likely to be between 4 and 6 months of life and that delayed exposure beyond this period may increase the risk of food allergy, coeliac disease and islet cell autoimmunity. There is also evidence that other factors such as favourable colonization and continued breastfeeding promote tolerance and have protective effects during this period when complementary feeding is initiated. This discussion paper explores the basis for concern over the current recommendation to delay complementary foods as an approach to preventing allergic disease. It will also examine the growing case for introducing complementary foods from around 4 months of age and maintaining breastfeeding during this early feeding period, for at least 6 months if possible. [source]

Feeding practices of infants through the first year of life in Italy

ACTA PAEDIATRICA, Issue 4 2004
M Giovannini
Aim: To investigate infant feeding practices through the first year of life in Italy, and to identify factors associated with the duration of breastfeeding and early introduction of solid foods. Methods: Structured phone interviews on feeding practices were conducted with 2450 Italian-speaking mothers randomly selected among women who delivered a healthy-term singleton infant in November 1999 in Italy. Interviews were performed 30 d after delivery and when the infants were aged 3, 6, 9 and 12 mo. Type of breastfeeding was classified according to the WHO criteria. Results: Breastfeeding started in 91.1% of infants. At the age of 6 and 12mo, respectively, 46.8% and 11.8% of the infants was still breastfed, 68.4% and 27.7% received formula, and 18.3% and 65.2% were given cow's milk. Solids were introduced at the mean age of 4.3 mo (range 1.6,6.5 mo). Introduction of solids occurred before age 3 and 4 mo in 5.6% and 34.2% of infants, respectively. The first solids introduced were fruit (73.1%) and cereals (63.9%). The main factors (negatively) associated with the duration of breastfeeding were pacifier use (p > 0.0001), early introduction of formula (p > 0.0001), lower mother's age (p > 0.01) and early introduction of solids (p= 0.05). Factors (negatively) associated with the introduction of solids foods before the age of 3 mo were mother not having breastfed (p > 0.01), early introduction of formula (p > 0.01), lower infant bodyweight at the age of 1 mo (p= 0.05) and mother smoking (p= 0.05). Conclusion: The duration of breastfeeding in Italy is still inadequate, as well as compliance with international recommendations for timing of introduction of complementary foods. National guidelines, public messages and educational campaigns should be promoted in Italy. [source]

Iron balance and iron nutrition in infancy

ACTA PAEDIATRICA, Issue 2003
G Faldella
At birth, the total body iron content is approximately 75 mg/kg, twice that of an adult man in relation to weight. During the first 6 mo of life, total iron body content increases slightly and exclusive breastfeeding is sufficient to maintain an optimal iron balance. Thereafter, iron body content substantially increases and the infant becomes critically dependent on dietary iron, provided by complementary foods. Numerous factors may contribute to nutritional iron deficiency in infancy, the most important being low body iron content at birth, blood loss, high postnatal growth rate, and a low amount and/or bioavailability of dietary iron. We have documented that the prevalence of iron deficiency declined in Italy as iron nutrition improved and that early feeding on fresh cow's milk is the single most important determinant of iron deficiency in infancy. Healthy full-term infants should maintain optimal iron balance by consuming a good diet, which can be summarized as follows: breastfeeding should be continued exclusively for at least 5 mo and then together with complementary foods containing highly bioavailable iron; infants who are not breastfed or are partially breastfed should receive an iron-fortified formula, containing between 4.0 and 8.0mg/L iron, from birth to 12 mo of age; fresh cow's milk should be avoided before 12 mo of age. [source]