Acerola Nectar With Added Microencapsulated Probiotic

The aim of this study was to evaluate the survival of a probiotic microorganism microencapsulated in cellulose acetate phthalate, added to acerola nectar. The changes in pH, Brix, organic acid content and color of the product during its shelf-life were evaluated. A total of 3 processing runs were carried out on a semi-industrial scale, each consisting of a 15-liter batch of acerola nectar with added prebiotics and a microencapsulated probiotic culture. The physicochemical characteristics of the samples remained stable throughout storage. After 30 days storage the acerola nectar samples containing microencapsulated probiotic microorganisms exhibited counts above 8 log CFU per 200mL, within the limits set by the Brazilian regulation for functional foods. On the other hand, the samples containing free Bifidobacterium animalis cells showed counts of 5.9 log CFU per 200mL after the same storage time. It was concluded that microencapsulation was a suitable technique for improving the viability of probiotic microorganisms in acerola nectar during cold storage. © 2013 Elsevier Ltd.541125131Anekella, K., Orsat, V., Optimization of microencapsulation of probiotics in raspberry juice by spray drying (2013) LWT - Food Science and Technology, 50, pp. 17-24Brazilian Agency of Sanitary Surveillance (2003) Resolução RDC n°359, de 23 de dezembro de 2003. Regulamento Técnico de Porções de Alimentos Embalados para Fins de Rotulagem Nutricional, , http://www.anvisa.gov.br/legis/resol/2003/rdc/359_03rdc.pdf, ANVISA. Publicado no Diário Oficial da União em 26 de dezembro de 2003. 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