4.7 Article

Microencapsulation of pomegranate (Punica granatum L.) seed oil by complex coacervation: Stability and application in an instant caff`e latte beverage

期刊

FOOD CHEMISTRY
卷 381, 期 -, 页码 -

出版社

ELSEVIER SCI LTD
DOI: 10.1016/j.foodchem.2022.132199

关键词

Whey protein; Gum Arabic; Conjugated linolenic acid isomers; Volatile compounds; SPME-GC-MS; Tocopherols

资金

  1. CAPES (Brazil) [001]
  2. CNPq (Brazil) [432484/2016-7, 309558/2015-8, 312341/2018-0, 310659/2018-3]
  3. FAPERJ (Brazil) [E-26/010.001277/2015, E-26/203.197/2015, E-26/203.294-2016, E-26/010.101016/2018, E-26/201.161/2021]
  4. CNPq
  5. FAPERJ

向作者/读者索取更多资源

This study investigated the oxidative stability of pomegranate seed oil microparticles and their application in instant caff`e latte beverage. The coacervated microparticles were overall stable for 60 days, but their structure collapsed after 90 days. Storage under vacuum improved the oxidative stability of the microparticles at high temperature.
Pomegranate seed oil (PSO) is rich in highly oxidizable bioactive conjugated linolenic acids (cLnA), limiting food applications. This study aimed to investigate the oxidative stability (room temperature for 90 days; 60 degrees C, for 10 days, vacuum-sealed or not), physical and morphological properties of PSO microparticles produced by complex coacervation (CC). An instant caff`e latte beverage was formulated with PSO microparticles (30%) as a proof-of-application vehicle for the microparticles and physical properties were evaluated. CC was compared with spray drying. Although non-coacervated microparticles showed superior oxidative stability, coacervated microparticles were overall stable for 60 days and cLnA retention reduced 42% after.-tocopherol exhaustion. Coacervated microparticles' structure was collapsed after 90 days. Storage under vacuum increased the oxidative stability at 60 degrees C. Microparticles showed high solubility and thermal stability, addition to the product promoted negligible changes in physical properties. This study brings new insights regarding cLnA stability and PSO application in food.

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