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Comparative evaluation of different natural biopolymers and proteins for encapsulation of green tea (Camellia sinensis L.) bioactive compounds (CROSBI ID 619016)

Prilog sa skupa u zborniku | sažetak izlaganja sa skupa | međunarodna recenzija

Belščak-Cvitanović, Ana ; Nedović, Viktor ; Đorđević, Verica ; Pravilović, Radoslava ; Karlović, Sven ; Komes, Draženka ; Bugarski, Branko Comparative evaluation of different natural biopolymers and proteins for encapsulation of green tea (Camellia sinensis L.) bioactive compounds // Book of Abstracts of the 1st Congress on Food Structure Design / Vicente, Antonio ; Silva, Christina ; Piazza, Laura (ur.). Braga: Universidade do Minho, Departamento de Engenharia Biológica, 2014. str. 53-x

Podaci o odgovornosti

Belščak-Cvitanović, Ana ; Nedović, Viktor ; Đorđević, Verica ; Pravilović, Radoslava ; Karlović, Sven ; Komes, Draženka ; Bugarski, Branko

engleski

Comparative evaluation of different natural biopolymers and proteins for encapsulation of green tea (Camellia sinensis L.) bioactive compounds

Since the production of nutritively highly valuable food products is one of the major current demands of the global food industry, encapsulation of various bioactive phytochemicals is of great interest and should conform to the large-scale and economic production of food products. In this study various biomaterials, naturally derived polysaccharides and proteins were studied as matrices for the encapsulation of bioactive compounds from aquous extract of green tea. Different formulations of biopolymers such as alginate, carageenan, pectin, chitosan, agar, starch, xanthan, locust bean gum and whey proteins, as plain compounds or blends, were compared in terms of encapsulation attributes and delivery properties of polyphenols, textural and sensory properties. The delivery systems were produced in the form of micro-sized particles by applying either electrostatic extrusion technique or emulsification method and by employing either ionic gellation or complex coacervation (depending on the formulation) as the mechanisms responsible for microparticles formation. Among the evaluated delivery systems, alginate hydrogels blended with whey proteins, modified starch, xanthan or locust bean gum provided the highest encapsulation efficiency of polyphenolic antioxidants and the most retarded release in water. Alginate-xanthan microparticles exhibited the largest particle size (<1300 µm) and the poorest textural properties, while alginate-whey proteins microbeads were characterized with the smallest particle size (700 µm) but the best textural properties. Alginate and whey proteins formulation resulted with the highest encapsulation efficiency of total polyphenolic compounds and caffeine and the lowest bitterness and astringency intensity of the suspended microparticles in water. For the sake of controlled release of green tea polyphenols, the selected matrix-type encapsulates were additionally coated with chitosan or pectin ; the coating led to an extention of polyphenols release to 30 min for chitosan-coated and 80 min for pectin-coated microparticles. As the end-result of this study, optimized dosage form of green tea bioactives were produced.

Caffeine; Complex coacervation; Electrostatic extrusion; Green tea; Ionic gelling; Polyphenols

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Podaci o prilogu

53-x.

2014.

objavljeno

Podaci o matičnoj publikaciji

Book of Abstracts of the 1st Congress on Food Structure Design

Vicente, Antonio ; Silva, Christina ; Piazza, Laura

Braga: Universidade do Minho, Departamento de Engenharia Biológica

978-989-97478-5-2

Podaci o skupu

1st Congress on Food Structure Design: Innovation in Food Structure Properties-Relationship

poster

15.10.2014-17.10.2014

Porto, Portugal

Povezanost rada

Prehrambena tehnologija