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Rapid and Continuous Astaxanthin Isomerization in Subcritical Ethanol

Masaki Honda, Kazuya Murakami, Yelin Zhang, Motonobu Goto

2021Industrial & Engineering Chemistry Research29 citationsDOI

Abstract

Recent studies have shown that Z-isomers of astaxanthin have greater bioavailability and biological activity than the all-E-isomer. Hence, it is important to develop efficient and practical Z-isomerization methods. This study attempted to establish a continuous-flow isomerization system for (all-E)-astaxanthin in subcritical ethanol. Specifically, the effects of temperature, pressure, time, and addition of antioxidants and a natural catalyst, allyl isothiocyanate, on the Z-isomerization and degradation were investigated. Continuous high-temperature processing (>140 °C) efficiently promoted astaxanthin Z-isomerization within a few minutes, but simultaneously accelerated its degradation. We found that the thermal degradation could be inhibited by adding specific antioxidants, especially ascorbic acid. Finally, using the continuous-flow system with ascorbic acid, 60.3% of total Z-isomer ratio of astaxanthin was achieved while inhibiting the degradation at 200 °C and 10 MPa in just 30 s. This efficient and environmentally friendly isomerization technology is an effective means for the production of Z-isomer-rich astaxanthin materials.

Topics & Concepts

IsomerizationAstaxanthinChemistryAscorbic acidDegradation (telecommunications)CatalysisEthanolPhotochemistryOrganic chemistryCarotenoidBiochemistryFood scienceTelecommunicationsComputer scienceAntioxidant Activity and Oxidative StressAlgal biology and biofuel productionFree Radicals and Antioxidants
Rapid and Continuous Astaxanthin Isomerization in Subcritical Ethanol | Litcius