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Effect of pineapple core powder on white finger millet vegan probiotic beverage: Nutrition, sensory and storage

B Malini, C. K. Sunil, Ashish Rawson, R. Vidyalakshmi, Venkatachalapathy Natarajan

2023Food Chemistry Advances13 citationsDOIOpen Access PDF

Abstract

The present study aims to develop, optimize, and evaluate the effective incorporation of pineapple core powder (PCP) in plant-based probiotic beverages using Lactocaseibacillus rhamnosus (LGG). The optimization was carried out using pH, viscosity, and LGG viable load as response variables in the D-optimal mixer design. In optimized products, the changes in pH, titratable acidity (TA), and LGG viable load are observed during fermentation and storage conditions. The optimum condition for developing PCP-added white finger millet probiotic beverage (PAMPB) was 14:5:2:2 for white finger millet, sugar, PCP, and LGG inoculums, respectively. A PAMPB provided a higher LGG viable load of 11.34 log (CFU/mL) within 6 h of fermentation time. The PCP effectively increases the physiochemical properties like total phenolic count (17.64 mg GAE/g), total antioxidant activity, total flavonoid count (8.59 mg QE/g), and water holding capacity (41.52 %) of the PAMPB. In addition, the different sugar profiles and new pineapple aroma compounds like ethyl hexanoate and methyl hexanoate are identified in PAMPB. During the storage of PAMPB at 4⁰C for 21 days, the reduction in LGG viable count was observed from 11.54 to 9.39 log (CFU/mL). Incorporating PCP in millet beverages provides a positive result by increasing nutritional quality.

Topics & Concepts

Food scienceTitratable acidChemistryProbioticAromaFermentationEthyl hexanoateFlavorSugarBiologyBacteriaGeneticsPineapple and bromelain studiesFood composition and propertiesProbiotics and Fermented Foods
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