THE CHARACTERIZATION OF SILYMARIN AND SILIBININ LIPOSOMES

Jovanović, Aleksandra; Dinić, Svetlana; Uskoković, Aleksandra; Arambašić Jovanović, Jelena; Grdović, Nevena; Vidaković, Melita; Mihailović, Mirjana

doi:10.7251/JEPM2202040j

dc.creator	Jovanović, Aleksandra
dc.creator	Dinić, Svetlana
dc.creator	Uskoković, Aleksandra
dc.creator	Arambašić Jovanović, Jelena
dc.creator	Grdović, Nevena
dc.creator	Vidaković, Melita
dc.creator	Mihailović, Mirjana
dc.date.accessioned	2023-10-17T10:47:51Z
dc.date.available	2023-10-17T10:47:51Z
dc.date.issued	2022
dc.identifier.issn	1840-4774
dc.identifier.uri	http://TechnoRep.tmf.bg.ac.rs/handle/123456789/6690
dc.description.abstract	The aim of the present study was the characterization of silymarin and silibinin liposomes via determination of encapsulation efficiency, particle size, polydispersity index (PDI), zeta potential, mobility, and conductivity, as well as storage stability during 28 days at 4ºC and stability after UV irradiation. Encapsulation efficiencies of silymarin and silibinin were 92.05±1.41% and 87.86±2.06%, respectively. Particle size and PDI of the liposomes with silymarin were changed from 3541.3±62.5nm to 2677.0±44.2 nm and from 0.346±0.044 to 0.228±0.036, respectively, during the 28-day stability study; particle size and PDI of the liposomes with silibinin were changed from 2074.7±19.4 nm to 2704.0±35.0 nm and from 0.328±0.030to 0.456±0.026, respectively. The Zeta potential of the silymarin-loaded liposomes and silibinin-loaded liposomes was changed from -27.0±0.7 mV to -26.4±0.4 mV and from -29.4±0.6 mV to -29.0±0.4 mV, respectively. Mobility and conductivity of the liposomes with silymarin were changed from -2.120±0.057 μmcm/Vs to -2.067±0.028 μmcm/Vs and from 0.017±0.005 mS/cm to 0.009±0.004 mS/cm, respectively. Mobility and conductivity of the liposomal particles with silibinin were changed from -2.307±0.053 μmcm/Vs to -2.110±0.033 μmcm/Vs and from0.018±0.003 mS/cm to 0.060±0.001 mS/cm, respectively. UV irradiation did not affect particle size and PDI of all liposomes, but it caused a decrease in zeta potential: -23.9±0.8 mV for silymarin and -24.5±0.7 mV for silibinin, in mobility: -1.874±0.064 μmcm/Vs for silymarin and -1.920±0.057 μmcm/Vs for silibinin, and in conductivity: 0.014±0.001 mS/cm for silymarin and 0.007±0.003 mS/cm for silibinin. Overall, the obtained results qualify liposomes to be used as silymarin and silibinin carriers for application in functional foods and pharmaceutical products.	sr
dc.language.iso	en	sr
dc.publisher	Faculty of Technology, University of East Sarajevo	sr
dc.rights	openAccess	sr
dc.rights.uri	https://creativecommons.org/licenses/by-nc-nd/4.0/
dc.source	Journal of Engineering & Processing Management	sr
dc.subject	silymarin	sr
dc.subject	silibinin	sr
dc.subject	liposomes	sr
dc.subject	characterization	sr
dc.title	THE CHARACTERIZATION OF SILYMARIN AND SILIBININ LIPOSOMES	sr
dc.type	article	sr
dc.rights.license	BY-NC-ND	sr
dc.citation.epage	45
dc.citation.issue	2
dc.citation.spage	40
dc.citation.volume	14
dc.identifier.doi	10.7251/JEPM2202040j
dc.identifier.fulltext	http://TechnoRep.tmf.bg.ac.rs/bitstream/id/18101/document.pdf
dc.type.version	publishedVersion	sr

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