"Cajuina" is a very popular drink in the Brazilian northeastern region and is produced by clarifying cashew apple juice. To preserve "cajuina" from chancing, the clarified cashew apple juice is submitted to thermal treatment where a desired final color should be obtained. To optimize color formation while maintaining high vitamin C and low 5-hydroxymethylfurfural (5-HMF) concentrations the thermal treatment of "cajuina" needs to be studied and the non enzymatic mechanism should be better understood and controlled. In this work the effect of thermal treatment on "cajuina" (clarified cashew apple juice) was studied at temperatures from 88°C to 121°C. Changes in color were measured and the variation in vitamin C, 5-hydroxymethylfurfural (5-HMF) and sugar content were used to evaluate non enzymatic browning. The kinetic models were used to optimize the thermal treatment to produce "cajuina" with an absorbance at 420 nm of 0.023
This study focused on the potential functional activity of phenolicenriched pineapple wastes bioprocessed by Rhizopus oligosporus . Using the phenolic-enriched bioprocessed extracts, amylase inhibition relevant to Type 2 diabetes and Helicobacter pylori inhibition linked to stomach ulcer were investigated. Two treatments were studied: 9 g of pineapple residue plus 1 g of soy flour (P9) and 5 g of pineapple residue plus 5 g of soy flour (P5). Extracts obtained after 2 and 10 days of growth were selected to represent early and late stages of bioprocessing based on phenolic content. Potent aamylase inhibition was found in P9 treatment at 2 days of fungal growth and was maintained after subsequent boiling, freeze-drying and/or autoclave treatment. Amylase inhibitory activity did not correlate with the DPPH radical scavenging antioxidant activity of the extracts and therefore it is likely linked to the structure of the phenolic compounds. H. pylori inhibitory activity was found in P5 treatment after 10 days of R. oligosporus growth and may be linked to phenolic compounds present at this stage.
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