Chitosan crosslinked microparticles with encapsulated polyphenols: Water sorption and release properties
Samo za registrovane korisnike
2015
Autori
Trifković, KataMilasinović, Nikola
Djordjević, Verica B.
Zdunić, Gordana
Kalagasidis-Krusić, Melina T.
Knežević-Jugović, Zorica
Savikin, Katarina
Nedović, Viktor
Bugarski, Branko
Članak u časopisu (Objavljena verzija)
Metapodaci
Prikaz svih podataka o dokumentuApstrakt
Chitosan-glutaraldehyde microparticles were produced by emulsion crosslinking method to be used as drug delivery system for polyphenols from Thymus serpyllum L. aqueous extract. The effect of preparation conditions, chitosan concentration (1.5-3% w/v), and glutaraldehyde/chitosan (GA/Ch) mass ratio (0.15-1.20) on water and polyphenols transport properties was investigated. Swelling ratio of dry particles (68-230 mm) in water ranged from 280% to 530%, depending on the formulation. The decrease in swelling was observed with increased GA/Ch mass ratio (i.e. crosslinking degree) at the same chitosan concentration, or with increased chitosan concentration at the same GA/Ch mass ratio. The increase in GA/Ch mass ratio was also manifested by increased particle compactness i.e. decreased size and reduced surface roughness. The sorption capacity for polyphenols seems to be a complex interplay of swelling behaviour and interactions chitosan-glutaraldehyde-polyphenols identified by Fourier transm...ission infrared analysis. An increase in crystallinity of chitosan was observed upon crosslinking with glutaraldehyde and encapsulation of polyphenols, as observed by X-ray diffraction analysis. The results obtained from release kinetics of selected polyphenolic compounds (caffeic acid, rosmarinic acid, total flavonoids, and total phenol content) showed that polyphenols were released at a lower amount (2-4 times) in water, but more rapidly (45-120 min) in comparison with the release in gastric followed by intestinal simulated fluid (SGF-SIF) (120-240 min). The experimental results of the time-dependent swelling in water and polyphenols release in both, water and SGF-SIF, were analyzed with several mathematical models. The results depicted Fickian diffusion as the water transport mechanism. In the case of polyphenols, only empirical Weibull model could be suggested for describing release kinetics.
Ključne reči:
Chitosan microparticles / emulsion crosslinking method / water sorption / polyphenols release / mathematical modelsIzvor:
Journal of Biomaterials Applications, 2015, 30, 5, 618-631Izdavač:
- Sage Publications Ltd, London
Finansiranje / projekti:
- Razvoj novih inkapsulacionih i enzimskih tehnologija za proizvodnju biokatalizatora i biološki aktivnih komponenata hrane u cilju povećanja njene konkurentnosti, kvaliteta i bezbednosti (RS-46010)
- Ministry of the Interior of the Republic of Serbia [242/16-4-2014]
DOI: 10.1177/0885328215598940
ISSN: 0885-3282
PubMed: 26250360
WoS: 000367743900012
Scopus: 2-s2.0-84948977538
Institucija/grupa
Poljoprivredni fakultetTY - JOUR AU - Trifković, Kata AU - Milasinović, Nikola AU - Djordjević, Verica B. AU - Zdunić, Gordana AU - Kalagasidis-Krusić, Melina T. AU - Knežević-Jugović, Zorica AU - Savikin, Katarina AU - Nedović, Viktor AU - Bugarski, Branko PY - 2015 UR - http://aspace.agrif.bg.ac.rs/handle/123456789/3751 AB - Chitosan-glutaraldehyde microparticles were produced by emulsion crosslinking method to be used as drug delivery system for polyphenols from Thymus serpyllum L. aqueous extract. The effect of preparation conditions, chitosan concentration (1.5-3% w/v), and glutaraldehyde/chitosan (GA/Ch) mass ratio (0.15-1.20) on water and polyphenols transport properties was investigated. Swelling ratio of dry particles (68-230 mm) in water ranged from 280% to 530%, depending on the formulation. The decrease in swelling was observed with increased GA/Ch mass ratio (i.e. crosslinking degree) at the same chitosan concentration, or with increased chitosan concentration at the same GA/Ch mass ratio. The increase in GA/Ch mass ratio was also manifested by increased particle compactness i.e. decreased size and reduced surface roughness. The sorption capacity for polyphenols seems to be a complex interplay of swelling behaviour and interactions chitosan-glutaraldehyde-polyphenols identified by Fourier transmission infrared analysis. An increase in crystallinity of chitosan was observed upon crosslinking with glutaraldehyde and encapsulation of polyphenols, as observed by X-ray diffraction analysis. The results obtained from release kinetics of selected polyphenolic compounds (caffeic acid, rosmarinic acid, total flavonoids, and total phenol content) showed that polyphenols were released at a lower amount (2-4 times) in water, but more rapidly (45-120 min) in comparison with the release in gastric followed by intestinal simulated fluid (SGF-SIF) (120-240 min). The experimental results of the time-dependent swelling in water and polyphenols release in both, water and SGF-SIF, were analyzed with several mathematical models. The results depicted Fickian diffusion as the water transport mechanism. In the case of polyphenols, only empirical Weibull model could be suggested for describing release kinetics. PB - Sage Publications Ltd, London T2 - Journal of Biomaterials Applications T1 - Chitosan crosslinked microparticles with encapsulated polyphenols: Water sorption and release properties EP - 631 IS - 5 SP - 618 VL - 30 DO - 10.1177/0885328215598940 ER -
@article{ author = "Trifković, Kata and Milasinović, Nikola and Djordjević, Verica B. and Zdunić, Gordana and Kalagasidis-Krusić, Melina T. and Knežević-Jugović, Zorica and Savikin, Katarina and Nedović, Viktor and Bugarski, Branko", year = "2015", abstract = "Chitosan-glutaraldehyde microparticles were produced by emulsion crosslinking method to be used as drug delivery system for polyphenols from Thymus serpyllum L. aqueous extract. The effect of preparation conditions, chitosan concentration (1.5-3% w/v), and glutaraldehyde/chitosan (GA/Ch) mass ratio (0.15-1.20) on water and polyphenols transport properties was investigated. Swelling ratio of dry particles (68-230 mm) in water ranged from 280% to 530%, depending on the formulation. The decrease in swelling was observed with increased GA/Ch mass ratio (i.e. crosslinking degree) at the same chitosan concentration, or with increased chitosan concentration at the same GA/Ch mass ratio. The increase in GA/Ch mass ratio was also manifested by increased particle compactness i.e. decreased size and reduced surface roughness. The sorption capacity for polyphenols seems to be a complex interplay of swelling behaviour and interactions chitosan-glutaraldehyde-polyphenols identified by Fourier transmission infrared analysis. An increase in crystallinity of chitosan was observed upon crosslinking with glutaraldehyde and encapsulation of polyphenols, as observed by X-ray diffraction analysis. The results obtained from release kinetics of selected polyphenolic compounds (caffeic acid, rosmarinic acid, total flavonoids, and total phenol content) showed that polyphenols were released at a lower amount (2-4 times) in water, but more rapidly (45-120 min) in comparison with the release in gastric followed by intestinal simulated fluid (SGF-SIF) (120-240 min). The experimental results of the time-dependent swelling in water and polyphenols release in both, water and SGF-SIF, were analyzed with several mathematical models. The results depicted Fickian diffusion as the water transport mechanism. In the case of polyphenols, only empirical Weibull model could be suggested for describing release kinetics.", publisher = "Sage Publications Ltd, London", journal = "Journal of Biomaterials Applications", title = "Chitosan crosslinked microparticles with encapsulated polyphenols: Water sorption and release properties", pages = "631-618", number = "5", volume = "30", doi = "10.1177/0885328215598940" }
Trifković, K., Milasinović, N., Djordjević, V. B., Zdunić, G., Kalagasidis-Krusić, M. T., Knežević-Jugović, Z., Savikin, K., Nedović, V.,& Bugarski, B.. (2015). Chitosan crosslinked microparticles with encapsulated polyphenols: Water sorption and release properties. in Journal of Biomaterials Applications Sage Publications Ltd, London., 30(5), 618-631. https://doi.org/10.1177/0885328215598940
Trifković K, Milasinović N, Djordjević VB, Zdunić G, Kalagasidis-Krusić MT, Knežević-Jugović Z, Savikin K, Nedović V, Bugarski B. Chitosan crosslinked microparticles with encapsulated polyphenols: Water sorption and release properties. in Journal of Biomaterials Applications. 2015;30(5):618-631. doi:10.1177/0885328215598940 .
Trifković, Kata, Milasinović, Nikola, Djordjević, Verica B., Zdunić, Gordana, Kalagasidis-Krusić, Melina T., Knežević-Jugović, Zorica, Savikin, Katarina, Nedović, Viktor, Bugarski, Branko, "Chitosan crosslinked microparticles with encapsulated polyphenols: Water sorption and release properties" in Journal of Biomaterials Applications, 30, no. 5 (2015):618-631, https://doi.org/10.1177/0885328215598940 . .