Litcius/Paper detail

Effect of pulsed electric fields on carotenoid and phenolic bioaccessibility and their relationship with carrot structure

Gloria López‐Gámez, Pedro Elez‐Martínez, Amparo Quiles, Olga Martín‐Belloso, Isabel Hernando, Robert Soliva‐Fortuny

2021Food & Function48 citationsDOIOpen Access PDF

Abstract

) were stored for 24 h at 4 °C and microstructure was evaluated before subjecting them to in vitro digestion. PEF did not affect carotenoid content, whereas their bioaccessibility improved (11.9%). Likewise, PEF increased the content of some PC, e.g. coumaric acid (163.2%), probably caused by their better extractability. Conversely, caffeic acid derivatives decreased, which may be associated to greater contact with oxidative enzymes. Total PC bioaccessibility (20.8%) and some derivatives increased, e.g. caffeoylshikimic (68.9%), whereas some decreased (e.g. ferulic acid). Structural changes caused by PEF may improve bioaccessibility of carotenoids and PC by favouring their release and easy access to digestive enzymes. However, other antioxidants may be further degraded or entrapped during digestion. Therefore, PEF is an effective technology for obtaining carrots with enhanced carotenoids and phenolic bioaccessibility.

Topics & Concepts

CarotenoidElectric fieldFood scienceChemistryCarrot juiceDaucus carotaBotanyBiologyPhysicsQuantum mechanicsMicrobial Inactivation MethodsAntioxidant Activity and Oxidative StressMagnetic and Electromagnetic Effects
Effect of pulsed electric fields on carotenoid and phenolic bioaccessibility and their relationship with carrot structure | Litcius