Vinegar from Anacardium othonianum Rizzini using submerged fermentation.

BACKGROUND: Anacardium othonianum Rizzini is a native Cerrado fruit, recently described in the literature. Its use is restricted to its native region and there is a lack of studies regarding production of vinegar from the pulp. This work aims to investigate the production of A. othonianum Rizzini vinegar using submerged fermentation. RESULTS: The density, alcohol content, proximal composition, pH, color coordinates, and chromatographic profile of the volatile compounds were analyzed in the slurry, fermented juice, and vinegar produced from the corpulent parts of A. othonianum Rizz. Sensory acceptance and willingness to pay were also assessed with vinegar at 4% and 6% of total acidity. The results indicated compliance with European legislation and the presence of volatile compounds such as carbon dioxide, acetic acid, ethanol, and acetaldehyde in the analyzed vinegars. Our results indicate the potential of vinegar production from A. othonianum, with 74% and 86% willingness to pay. CONCLUSIONS: The process of transformation of the fruit pulp into new products can contribute to fruit valorization and consequent preservation of the plant in the Cerrado biome. To the best of our knowledge, this is the first report of volatile compounds and minerals in A. othonianum Rizz. slurry. Our observations can be used as a basis for future studies regarding the preparation of vinegars from this species and for investigating their application in cooking and guiding consumer perception. © 2020 Society of Chemical Industry.

In vitro effects of Bifidobacterium lactis-based synbiotics on human faecal bacteria.

Synbiotic supplements contain pre- and probiotics and are used to modulate gut microbiota composition. This study aimed to investigate effects of two synbiotic mixtures on human faecal bacteria in vitro. Short chain fructooligosaccharides (FOS) (1% w/v) combined with either Bifidobacterium lactis Bb12 or Bifidobacterium lactis HN019 (106 colony-forming units (CFU)/mL)] were added to pH-controlled anaerobic batch cultures inoculated with human faeces. Maltodextrin (1% w/v), FOS (1% w/v) and the probiotic strains were also tested individually. Effects on bacteria, short-chain fatty acids (SCFAs) and branched-chain fatty acids (BCFAs) were assessed over 48 h. With maltodextrin, FOS and the synbiotic mixtures, there was a significant increase in total bacteria and bifidobacteria numbers, compared to the negative control or probiotics alone. Increases in Atopobium cluster and Clostridium coccoides-Eubacterium rectale group occurred with FOS and maltodextrin, respectively. Additionally, maltodextrin, FOS and synbiotics resulted in a greater production of acetate and butyrate (SCFAs) compared to the negative control and probiotics alone, whereas concentrations of iso-valerate (BCFA) were lower with these treatments. In conclusion, synbiotic-induced in vitro bacterial changes and changes in SCFAs concentrations were not different from those observed with FOS alone. These data suggest that metabolic effects of these synbiotics are largely driven by the prebiotic component.