Fermentation of Clementine Juice with Lactobacillus salivarius spp. salivarius CECT 4063: Effect of Trehalose Addition and High-Pressure Homogenization on Antioxidant Properties, Mucin Adhesion, and Shelf Life

Burca-Busaga, Cristina Gabriela; Betoret, Noelia; Seguí, Lucía; Barrera, Cristina

doi:10.3390/fermentation8110642

Cited by 1 publication

(1 citation statement)

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“…Regarding the intensity of the prior disruption of the plant material, it did not have a significant impact on the growth of any of the three strains tested, despite the expectation that the smaller particle size could enhance microorganisms' access to nutrients due to both nutrient release and increase of specific surface [46] , [47] . Nonetheless, grinding could also have promoted a greater release of phenolic compounds and isothiocyanates with antimicrobial properties and, therefore, with a negative impact on microbial growth.…”

Section: Discussionmentioning

confidence: 85%

Exploring fermentation with lactic acid bacteria as a pretreatment for enhancing antioxidant potential in broccoli stem powders

Serna-Barrera,

Bas-Bellver,

Seguí

et al. 2024

AIMSMICRO

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<abstract> <p>Fruit and vegetable industries face a major environmental challenge with food loss and waste. Broccoli stems, comprising 38% of the plant's total weight, are usually discarded by the industry producing fourth-range and ready-to-use products, despite being rich in antioxidants, vitamins, fiber, carotenoids, phenolic compounds, and glucosinolates. Addressing the challenge of reducing waste in this sector includes the production of stable and nutrient-concentrated powders, which can be consumed directly or used as ingredients in functional food formulation. This study investigated fermentation with lactic acid bacteria (<italic>Limosilactobacillus reuteri</italic>, <italic>Lactiplantibacillus plantarum</italic>, and <italic>Lactobacillus salivarius</italic>) as a pretreatment for enhancing antioxidant and probiotic potential in broccoli stem powders. Results showed maximum counts 24 h after inoculation, and no effect of the previous disruption intensity on microbial growth was observed. Fermenting broccoli stems for 24 h with the three microbial strains led to a significant increase in total phenols and flavonoids but to a general reduction in the samples' capacity to scavenge DPPH and ABTS free radicals. Overall, ground broccoli stems exhibited the most favorable antioxidant properties following the 24 h fermentation step. The subsequent freeze-drying and final grinding had minimal impact on the microbial population but significantly enhanced the extractability of the antioxidant compounds. This study offers a valuable reference for researchers and stakeholders exploring the development of new products and innovations from vegetable waste.</p> </abstract>

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Section: Discussionmentioning

confidence: 85%