02075naa a2200313 a 450000100080000000500110000800800410001910000230006024501510008326000090023452011600024365000210140365000110142465000110143565000230144665000080146965300230147765300170150065300220151765300180153965300290155765300160158670000230160270000230162570000290164870000200167770000220169777300420171921520122023-04-19       2023    bl uuuu     u00u1 u    #d1 aDUTRA, M. da C. P.  aBioaccessibility of phenolic compounds from Brazilian grape juices using a digestion model with intestinal barrier passage.h[electronic resource]  c2023  aGrape juices are rich in bioactive compounds; however, for these compounds to exert their functionality, they must be bioaccessible. Thus, the present study evaluated a simulated digestion process on the main bioactive compounds of monovarietal grape juices of five Brazilian hybrid cultivars (V. vinifera x V. labrusca). Characterization of the chemical profiles in liquid chromatography (HPLC-DAD-RID), behaviour of phenolics in the stages of digestion and bioaccessibility through the INFOGEST protocol plus intestinal barrier passage were carried out. Of the 24 polyphenols identified in the grape juice samples, 11 were bioaccessible, with emphasis on the class of flavanols. Procyanidin B2 (101?426%), (+)-catechin (169?370%) and gallic acid (61?230%) stood out in all juices, showing that these compounds are key to the functionality of these drinks. Particularities were observed to differ between juices, demonstrating that factors such as the cultivar should be explored more extensively in studies on functional foods. The study also suggests that quality components such as sugars and organic acids influence the bioaccessibility of beverages.  aDigestive juices  aGrapes  aJuices  aComposto Fenólico  aUva  aBebidas funcionais  aBioatividade  aCultivares de uva  aFitoquímicos  aSimulação de digestão  aSuco de uva1 aSILVA, A. B. M. da1 aFERREIRA, E. de S.1 aCARVALHO, A. J. de B. A.1 aLIMA, M. dos S.1 aBIASOTO, A. C. T.  tFood Biosciencegv. 52, 102501, 2023.