Wang_2023_Food.Chem_435_137647

Reference

Title : In vitro plasma hydrolysis of phenolic esters and their absorption kinetics in rats: Controlled release of phenolic compounds and enhanced health benefits - Wang_2023_Food.Chem_435_137647
Author(s) : Wang X , Wang Q , Cai D , Yu J , Liu X , Yin F , Zhou D
Ref : Food Chem , 435 :137647 , 2023
Abstract :

Phenolic esters are considered as promising functional food ingredients. However, their digestion, absorption and metabolism are still unclear. Tyrosol acyl esters (TYr-Es), hydroxytyrosol acyl esters (HTy-Es) and alkyl gallates (A-GAs) were hydrolyzed by carboxylesterase in plasma and exhibited slow release of polyphenols (phenolic acids). In vitro hydrolysis degrees initially increased and then decreased with the increasing carbon chain length (C2-C16). TYr-Es exhibited higher hydrolysis degrees compared to HTy-Es, and hydrolysis degrees of TYr-Es and HTy-Es were markedly higher than those of A-GAs. Due to the fast hydrolysis rates of TYr-Es and HTy-Es, they were undetectable in all rat plasma samples collected at several times within 24 h after administration. Whereas, A-GAs could be detected in rat plasmas and three absorption peaks were found in the pharmacokinetic profiles. Importantly, the T(1/2), MRT, AUC(0-), AUC(0-t) in octyl gallate group were longer (or stronger) than those in propyl gallate and dodecyl gallate groups.

PubMedSearch : Wang_2023_Food.Chem_435_137647
PubMedID: 37804730

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Citations formats

Wang X, Wang Q, Cai D, Yu J, Liu X, Yin F, Zhou D (2023)
In vitro plasma hydrolysis of phenolic esters and their absorption kinetics in rats: Controlled release of phenolic compounds and enhanced health benefits
Food Chem 435 :137647

Wang X, Wang Q, Cai D, Yu J, Liu X, Yin F, Zhou D (2023)
Food Chem 435 :137647