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Proučevanje sproščanja vitaminov E in askorbilpalmitata iz nanostrukturiranih lipidnih sistemov za dermalno aplikacijo
ID Štefanec, Eva (Author), ID Zvonar Pobirk, Alenka (Mentor) More about this mentor... This link opens in a new window

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Abstract
Zanimanje za nanostrukturirane lipidne formulacije za nego kože se je v zadnjih letih povečalo, saj iščejo nove načine vgrajevanja kozmetično aktivnih sestavin, da bi dosegli čim boljšo dostavo in posledično učinek. Razvoj optimalnih dostavnih sistemov je nujen za uspešno dermalno aplikacijo. Samomikroemulgirajoči sistemi predstavljajo obetaven pristop za vgradnjo kozmetično aktivnih sestavin s slabo vodotopnostjo, mikroemulzije olajšajo njihovo penetracijo v kožo, so termodinamsko stabilne in nudijo lokalen učinek, (lamelarni) tekoči kristali pa imajo veliko solubilizacijsko sposobnost, izboljšajo kemijsko stabilnost vgrajenih sestavin in kože ne dražijo, saj so strukturno podobni medceličnim lipidom. V samomikroemulgirajoči sistem, mikroemulzijo voda v olju, lamelarne tekoče kristale in mikroemulzijo olje v vodi, ki so bili sestavljeni iz enakih komponent, a v različnih razmerjih, smo sočasno vgradili lipofilna antioksidanta: vitamin E in askorbilpalmitat, ki upočasnita oksidativne poškodbe kože in s tem fotostaranje. Namen diplomskega dela je ugotoviti, kateri izmed izbranih dostavnih sistemov je ustreznejši za dermalno dostavo vgrajenih vitaminov in posledično izražanje antioksidativne aktivnosti v koži. Zanimal nas je vpliv viskoznosti in notranje strukture dostavnega sistema na sproščanje vgrajenih vitaminov, kar smo vrednotili z in vitro metodo sproščanja vitamina E in askorbilpalmitata skozi celulozno membrano v Franzovih difuzijskih celicah. Razlike v notranji strukturi proučevanih sistemov, brez in z vgrajenima vitaminoma, smo opredelili s pomočjo reoloških testov. Potrdili smo, da na viskoznost sistemov poleg konsistence posameznih ekscipientov pomembno vpliva tudi notranja struktura dostavnega sistema, ki je odvisna od vsebnosti površinsko aktivnih snovi in vode. V skladu s pričakovanji in organoleptičnim pregledom smo najvišjo viskoznost izmerili lamelarnim tekočim kristalom, pri čemer je bila slednja dokaj neodvisna od prisotnosti vgrajenih vitaminov. V proučevanem časovnem intervalu sta se oba vitamina v največjem obsegu sprostila iz samomikroemulgirajočega sistema, ki je izmed vseh sistemov najmanj viskozen ter ima že po definiciji visoko afiniteto do vodne faze, v stiku s katero spontano tvori mikroemulzije. V nasprotju s pričakovanji sproščanje vitaminov iz lamelarnih tekočih kristalov ni bilo počasnejše kot iz preostalih sistemov. Amfifilni askorbilpalmitat se je sicer iz vseh sistemov sprostil v večjem obsegu kot bolj lipofilni vitamin E. Rezultati nakazujejo, da notranja struktura dostavnih sistemov ter lastnosti vgrajenih vitaminov bolj vplivajo na profil sproščanja le-teh kot reološke lastnosti proučevanih sistemov.

Language:Slovenian
Keywords:antioksidanti, lipidni dostavni sistemi, dermalna aplikacija, sproščanje.
Work type:Bachelor thesis/paper
Organization:FFA - Faculty of Pharmacy
Year:2020
PID:20.500.12556/RUL-117295 This link opens in a new window
Publication date in RUL:04.07.2020
Views:1244
Downloads:248
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Secondary language

Language:English
Title:Study of vitamins E and ascorbyl palmitate release from nanostructured lipid systems for dermal application
Abstract:
An interest in nanostructured lipid formulations for skincare has increased in recent years because they have been looking for new methods of incorporation of cosmetic active ingredients to achieve the best possible delivery and the effect consequently. The development of optimal delivery systems is essential for a successful dermal application. Self-microemulsifying systems represent a promising approach for the incorporation of cosmetic active ingredients with poor water solubility. Microemulsions relieve their penetration into the skin. They are thermodynamically stable and offer a local effect. (Lamellar) liquid crystals have a great solubilizing ability. They improve the chemical stability of incorporated ingredients and do not irritate the skin because they are similar to intercellular lipids in structure. Simultaneously, we incorporated lipophilic antioxidants (vitamin E and ascorbyl palmitate), which slow down oxidative skin injuries and, thus, photoaging, into the self-microemulsifying system, microemulsion of waters in oil, lamellar liquid crystals, and microemulsion of oil in water which were constructed from the same components but in different ratios. The purpose of the bachelor’s thesis was to ascertain which of the selected delivery systems is more appropriate for the dermal delivery of the incorporated vitamins and, consequently, the expression of antioxidant activity in the skin. We were interested in the influence of viscosity and internal structure of the delivery system on the release of the incorporated vitamins, which we evaluated by the in vitro method of releasing vitamin E and ascorbyl palmitate through the cellulose membrane in Franz diffusion cells. We defined the differences in the internal structure of the studied systems by rheological tests with and without incorporated vitamins. We confirmed that the internal structure of the delivery systems which is dependent on the content of substances active on surface and water also influences the viscosity of the systems importantly, in addition to the consistency of individual excipients. Following the expectations and organoleptic examination, we measured the highest viscosity to lamellar liquid crystals where the latter was pretty independent of the presence of the incorporated vitamins. In the studied time interval, both vitamins were released to the greatest extent from the self-microemulsifying system which is the least viscid out of all systems and, already by definition, has a high affinity toward the water phase in touch with which it forms microemulsions spontaneously. Contrary to the expectations, the release of vitamins from lamellar liquid crystals was not slower as from other systems. Amphiphilic ascorbyl palmitate was indeed released from all systems to a higher extent in comparison to more lipophilic vitamin E. The results show that the internal structure of the delivery systems and characteristics of the incorporated vitamins influence the release of the latter more than rheological characteristics of the studied systems.

Keywords:antioxidants, lipid delivery systems, dermal application, relaxation.

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