TY  - CONF
AU  - Ćetković, Zora
AU  - Vasiljević, Ivana
AU  - Cvijić, Sandra
AU  - Vasiljević, Dragana
PY  - 2022
UR  - https://farfar.pharmacy.bg.ac.rs/handle/123456789/4567
AB  - Mixing selected liquid SMEDDS with polymethacrylate polymers (Eudragit ®) led to
solidification of the samples to form solid, ductile, transparent systems (1). The purpose of
this study was to define mechanical properties and long-term stability of novel simvastatin-
loaded SMEDDS-based drug delivery systems. SMEDDS-based formulations were prepared
by adding liquid SMEDDS (10% oleoyl macrogol-6 glycerides and 90% caprylocaproyl
macrogol-8 glycerides/macrogol-15-hydroxystearate, in 3 ratios: 1:1, 2:1 and 3:1) to
Eudragit ® S100 or Eudragit ® S100/Eudragit ® L100 combination (in 1:1 ratio), until
SMEDDS/polymer ratio 2:1 w/w was reached. SMEDDS-based formulations with simvastatin
(SV) were prepared by dissolving SV (5%) into liquid SMEDDS and mixing with
polymethacrylate polymers in the same ratio. Prepared formulations were evaluated in
terms of their mechanical properties and long-term stability. The results indicated that the
increase in the caprylocaproyl macrogol-8 glycerides concentration resulted in higher
penetration force (F1 S100–F3 S100 = 5.83-7.22 N and F1 SL100-F3 SL100 = 4.20-5.99 N).
However, addition of SV was negatively correlated with the hardness, i.e. samples with SV
were softer in comparison to unloaded samples. Moreover, it was noticeable that
formulations with Eudragit ® S100 had greater penetration force values compared to
formulations containing Eudragit ® S100/Eudragit ® L100. After six months of storage at
room and elevated temperature, only slight decrease in SV content (less than 5%) was
observed in these samples. This study demonstrated that novel SMEDDS-based formulations
with higher concentration of caprylocaproyl macrogol-8 glycerides and those with Eudragit ®
S100 were more robust, which may further serve as a guide for formulating tailor-made
formulations.
AB  - Mešanje odabranih tečnih samomikroemulgujućih sistema (SMEDDS) sa
kopolimerima metakrilne kiseline (Eudragit ® ) dovodi do očvršćavanja uzoraka i formiranja
čvrstih, rastegljivih, transparentnih sistema (1). Cilj ovog rada je bio ispitivanje mehaničkih
svojstva i dugotrajne stabilnosti novih lipidnih sistema sa simvastatinom (SV). Lipidne
formulacije su izrađene mešanjem tečnih SMEDDS (10% oleoil makrogol-6 glicerida i 90%
kaprilokaproil makrogol-8 glicerida/makrogol-15-hidroksistearat, u 3 odnosa: 1:1, 2:1 i 3:1)
i Eudragit ® S100 ili kombinacije Eudragit ® S100/Eudragit ® L100 (u odnosu 1:1). Odnos
SMEDDS/polimer bio je 2:1, m/m. Uzorci sa SV su izrađeni rastvaranjem SV (5%) u tečnim
SMEDDS i mešanjem sa kopolimerima metakrilne kiseline u navedenom odnosu. Sprovedena
su ispitivanja mehaničkih osobina i dugotrajne stabilnosti izrađenih lipidnih formulacija.
Rezultati su pokazali da povećanje koncentracije kaprilokaproil makrogol-8 glicerida dovodi
do povećanja vrednosti sile penetracije (F1 S100–F3 S100 = 5,83-7,22 N i F1 SL100-F3
SL100 = 4,20-5,99 N). Uzorci sa SV su bili mekši, u poređenju sa uzorcima bez lekovite
supstance. Takođe, uočeno je da uzorci sa polimerom Eudragit ® S100 imaju već e vrednosti
sile penetracije, u poređenju sa formulacijama koje sadrže kombinaciju Eudragit ®
S100/Eudragit ® L100. Posle šest meseci skladištenja uzoraka na sobnoj i povišenoj
temperaturi, sadržaj SV je neznatno smanjen (manje od 5%). Ova studija je pokazala da nove
lipidne formulacije izrađene sa većom koncentracijom kaprilokaproil makrogol-8 glicerida i
sa Eudragit ® S100 polimerom imaju veće vrednosti sile penetracije i prihvatljivu dugotrajnu
stabilnost, što je od značaja za razvoj lipidnih formulacija željenih karakteristika.
PB  - Savez farmaceutskih udruženja Srbije (SFUS)
C3  - Arhiv za farmaciju
T1  - Mechanical properties and long-term stability of novel lipid formulations with simvastatin
T1  - Mehanička svojstva i dugotrajna stabilnost novih lipidnih formulacija sa simvastatinom
VL  - 72
IS  - 4 suplement
SP  - S396
EP  - S397
UR  - https://hdl.handle.net/21.15107/rcub_farfar_4567
ER  - 

@conference{
author = "Ćetković, Zora and Vasiljević, Ivana and Cvijić, Sandra and Vasiljević, Dragana",
year = "2022",
abstract = "Mixing selected liquid SMEDDS with polymethacrylate polymers (Eudragit ®) led to
solidification of the samples to form solid, ductile, transparent systems (1). The purpose of
this study was to define mechanical properties and long-term stability of novel simvastatin-
loaded SMEDDS-based drug delivery systems. SMEDDS-based formulations were prepared
by adding liquid SMEDDS (10% oleoyl macrogol-6 glycerides and 90% caprylocaproyl
macrogol-8 glycerides/macrogol-15-hydroxystearate, in 3 ratios: 1:1, 2:1 and 3:1) to
Eudragit ® S100 or Eudragit ® S100/Eudragit ® L100 combination (in 1:1 ratio), until
SMEDDS/polymer ratio 2:1 w/w was reached. SMEDDS-based formulations with simvastatin
(SV) were prepared by dissolving SV (5%) into liquid SMEDDS and mixing with
polymethacrylate polymers in the same ratio. Prepared formulations were evaluated in
terms of their mechanical properties and long-term stability. The results indicated that the
increase in the caprylocaproyl macrogol-8 glycerides concentration resulted in higher
penetration force (F1 S100–F3 S100 = 5.83-7.22 N and F1 SL100-F3 SL100 = 4.20-5.99 N).
However, addition of SV was negatively correlated with the hardness, i.e. samples with SV
were softer in comparison to unloaded samples. Moreover, it was noticeable that
formulations with Eudragit ® S100 had greater penetration force values compared to
formulations containing Eudragit ® S100/Eudragit ® L100. After six months of storage at
room and elevated temperature, only slight decrease in SV content (less than 5%) was
observed in these samples. This study demonstrated that novel SMEDDS-based formulations
with higher concentration of caprylocaproyl macrogol-8 glycerides and those with Eudragit ®
S100 were more robust, which may further serve as a guide for formulating tailor-made
formulations., Mešanje odabranih tečnih samomikroemulgujućih sistema (SMEDDS) sa
kopolimerima metakrilne kiseline (Eudragit ® ) dovodi do očvršćavanja uzoraka i formiranja
čvrstih, rastegljivih, transparentnih sistema (1). Cilj ovog rada je bio ispitivanje mehaničkih
svojstva i dugotrajne stabilnosti novih lipidnih sistema sa simvastatinom (SV). Lipidne
formulacije su izrađene mešanjem tečnih SMEDDS (10% oleoil makrogol-6 glicerida i 90%
kaprilokaproil makrogol-8 glicerida/makrogol-15-hidroksistearat, u 3 odnosa: 1:1, 2:1 i 3:1)
i Eudragit ® S100 ili kombinacije Eudragit ® S100/Eudragit ® L100 (u odnosu 1:1). Odnos
SMEDDS/polimer bio je 2:1, m/m. Uzorci sa SV su izrađeni rastvaranjem SV (5%) u tečnim
SMEDDS i mešanjem sa kopolimerima metakrilne kiseline u navedenom odnosu. Sprovedena
su ispitivanja mehaničkih osobina i dugotrajne stabilnosti izrađenih lipidnih formulacija.
Rezultati su pokazali da povećanje koncentracije kaprilokaproil makrogol-8 glicerida dovodi
do povećanja vrednosti sile penetracije (F1 S100–F3 S100 = 5,83-7,22 N i F1 SL100-F3
SL100 = 4,20-5,99 N). Uzorci sa SV su bili mekši, u poređenju sa uzorcima bez lekovite
supstance. Takođe, uočeno je da uzorci sa polimerom Eudragit ® S100 imaju već e vrednosti
sile penetracije, u poređenju sa formulacijama koje sadrže kombinaciju Eudragit ®
S100/Eudragit ® L100. Posle šest meseci skladištenja uzoraka na sobnoj i povišenoj
temperaturi, sadržaj SV je neznatno smanjen (manje od 5%). Ova studija je pokazala da nove
lipidne formulacije izrađene sa većom koncentracijom kaprilokaproil makrogol-8 glicerida i
sa Eudragit ® S100 polimerom imaju veće vrednosti sile penetracije i prihvatljivu dugotrajnu
stabilnost, što je od značaja za razvoj lipidnih formulacija željenih karakteristika.",
publisher = "Savez farmaceutskih udruženja Srbije (SFUS)",
journal = "Arhiv za farmaciju",
title = "Mechanical properties and long-term stability of novel lipid formulations with simvastatin, Mehanička svojstva i dugotrajna stabilnost novih lipidnih formulacija sa simvastatinom",
volume = "72",
number = "4 suplement",
pages = "S396-S397",
url = "https://hdl.handle.net/21.15107/rcub_farfar_4567"
}

Ćetković, Z., Vasiljević, I., Cvijić, S.,& Vasiljević, D.. (2022). Mechanical properties and long-term stability of novel lipid formulations with simvastatin. in Arhiv za farmaciju
Savez farmaceutskih udruženja Srbije (SFUS)., 72(4 suplement), S396-S397.
https://hdl.handle.net/21.15107/rcub_farfar_4567

Ćetković Z, Vasiljević I, Cvijić S, Vasiljević D. Mechanical properties and long-term stability of novel lipid formulations with simvastatin. in Arhiv za farmaciju. 2022;72(4 suplement):S396-S397.
https://hdl.handle.net/21.15107/rcub_farfar_4567 .

Ćetković, Zora, Vasiljević, Ivana, Cvijić, Sandra, Vasiljević, Dragana, "Mechanical properties and long-term stability of novel lipid formulations with simvastatin" in Arhiv za farmaciju, 72, no. 4 suplement (2022):S396-S397,
https://hdl.handle.net/21.15107/rcub_farfar_4567 .

TY  - THES
AU  - Ćetković, Zora
PY  - 2021
UR  - http://eteze.bg.ac.rs/application/showtheses?thesesId=8476
UR  - https://fedorabg.bg.ac.rs/fedora/get/o:24875/bdef:Content/download
UR  - http://vbs.rs/scripts/cobiss?command=DISPLAY&base=70036&RID=49206793
UR  - https://nardus.mpn.gov.rs/handle/123456789/18909
UR  - https://farfar.pharmacy.bg.ac.rs/handle/123456789/4043
AB  - nisku rastvorljivost u vodi/gastrointestinalnim (GI) tečnostima, koja je ograničavajući faktor za apsorpciju, a samim tim i biološku raspoloživost lekovite supstance. Jedan od pristupa za prevazilaženje ovog problema je izrada lipidnih formulacija, u koje spadaju i samomikroemulgujući sistemi (SMEDDS). Simvastatin je lekovita supstanca iz grupe statina, koja se koristi za snižavanje koncentracije holesterola u krvi, poseduje i vaskuloprotektivna svojstva, a najnovija istraživanja pokazuju i da ispoljava određenu efikasnost u lečenju tumora dojke, kolona i prostate. Zbog niske biološke raspoloživosti simvastatina nakon peroralne primene tableta sa trenutnim oslobađanjem, jedinog farmaceutskog oblika sa simvastatinom na tržištu, sve je veća potreba za razvojem savremenih nosača koji bi omogućili veću biološku raspoloživost ove lekovite supstance. Stoga, sveobuhvatni cilj ove doktorske disertacije je bio razvoj novih lipidnih formulacija sa aspekta potencijalne primene kao nosača nove generacije za peroralnu primenu simvastatina i njihova fizičkohemijska i biofarmaceutska karakterizacija.U prvoj fazi istraživanja formulisani su tečni SMEDDS, kao potencijalni nosači za peroralnu primenu simvastatina, koji omogućavaju povećanje rastvorljivosti i brzine rastvaranja ove lekovite supstance. Od ukupno 54 različite kombinacije ulja (oleoil makrogol-6 gliceridi, propilenglikol monokaprilat, propilenglikol monolaurat), surfaktanta (kaprilokaproil makrogol-8 gliceridi) i kosurfaktanta (polisorbat 80 ili makrogol 15 hidroksistearat), odabrani su uzorci koji su odgovarali kriterijumima za SMEDDS u pogledu brzine samoemulgovanja (< 1 min), robusnosti prema razblaživanju (transparencija ˃ 99%), veličine kapi (< 100 nm) i raspodele veličine kapi (PDI < 0,2), kao i prihvatljive stabilnosti tokom šestomesečnog skladištenja na sobnoj temperaturi (22 ± 2 °C). Simvastatin se iz odabranih tečnih SMEDDS oslobađao brzo, čime je potvrđeno da se formulisanjem tečnih SMEDDS značajno povećava brzina rastvaranja simvastatina.U drugoj fazi istraživanja, primenom kompjuterskog programa GastroPlus™, uspešno je razvijen simvastatin-specifični fiziološki zasnovan farmakokinetički (PBPK) model, koji na odgovarajući način opisuje apsorpciju, konverziju u simvastatin-kiselinu, raspodelu i eliminaciju simvastatina. Analizom literaturnih podataka, eksperimentalnih podataka i in silico predviđenih vrednosti parametara koji opisuju biofarmaceutska svojstva simvastatina i fiziološke karakteristike organizma, odabran je set ulaznih parametara koji su korišćeni za in silico modelovanje. Izgrađeni PBPK model je validiran poređenjem predviđenih sa in vivo vrednostima farmakokinetičkih parametara za simvastatin i simvastatin-kiselinu nakon peroralne primene 20 mg simvastatina u obliku tableta sa trenutnim oslobađanjem. Rezutati in vitro ispitivanja tečnih SMEDDS, punjenih u tvrde kapsule su pokazali da ove formulacije omogućavaju povećanje brzine rastvaranja simvastatina. Međutim, in silico modelovanjem je pokazano da se na ovaj način ne povećava biološka raspoloživosti simvastatina, u poređenju sa tabletama simvastatina sa trenutnim oslobađanjem. Analizom rezultata simulacija je utvrđeno da su distalni delovi GI trakta optimalno mesto za apsorpciju simvastatina, te se razvojem formulacija sa modifikovanim (ciljnim) oslobađanjem simvastatina može postići smanjenje uticaja presistemskog metabolizma i povećanje biološke raspoloživosti ove lekovite supstance.U trećoj fazi istraživanja formulisane su lipidne formulacije sa modifikovanim oslobađanjem simvastatina, punjenjem odabranih tečnih SMEDDS u acidorezistentne kapsule, kao i mešanjem odabranih tečnih SMEDDS sa kopolimerima metakrilne kiseline, koji pokazuju pH zavisnu rastvorljivost. Korišćeni su polimeri Eudragit® L100, Eudragit® S100, kao i njihova kombinacija, u odnosu 1:1, a odnos SMEDDS:polimer je bio 2:1. Rezultati in vitro ispitivanja brzine rastvaranja simvastatina pod uslovima izmene medijuma su pokazali da je punjenje tečnih SMEDDS u acidorezistentne kapsule omogućilo oslobađanje simvastatina nakon 90 min, u medijumu pH 6,4. Poređenjem rezultata in vitro ispitivanja brzine rastvaranja simvastatina iz formulacija, dobijenih mešanjem tečnih SMEDDS sa Eudragit® polimerima punjenih u tvrde kapsule, zaključeno je da postoji jasna zavisnost između brzine rastvaranja/oslobađanja simvastatina i vrste Eudragit® polimera...
AB  - ABSTRACTMore than 50% of the marketed drugs and approximately 90% of new drug entities are poorly soluble in water/gastrointestinal (GI) fluids, which is a limiting factor for their absorption and bioavailability. One of the approaches to overcome this issue is based on the design of lipid-based drug delivery systems, including self-microemulsifying drug delivery systems (SMEDDS). Simvastatin belongs to statins, the class of drugs used to lower cholesterol levels in the blood; it also has vasculoprotective properties, and recent research shows that simvastatin exhibits certain activity in the treatment of breast, colon and prostate cancer. Due to low bioavailability of this drug following oral administration of immediate-release tablets, the only dosage form of simvastatin available on the market, there is a growing need for the development of modern carriers that would improve its oral bioavailability. Therefore, the overall aim of this doctoral dissertation was to develop novel lipid-based drug delivery systems as carriers for oral administration of simvastatin, along with their physicochemical and biopharmaceutical characterization.In the first phase of the study, liquid SMEDDS were formulated, as potential carriers for oral administration of simvastatin, which improved the drug solubility and dissolution rate. Out of 54 different combinations of oils (oleoyl macrogol-6 glycerides, propylene glycol monocaprylate, propylene glycol monolaurate), surfactant (caprylocaproyl macrogol-8 glycerides) and cosurfactant (polysorbate 80 or macrogol 15 hydroxystearate), only formulations with acceptable selfemulsification rate (< 1 min), robustness to dilution (transparency ˃ 99%), droplet size (< 100 nm) and polydispersity index (PDI < 0.2), which proved to be stable during six-month storage at room temperature (22 ± 2 °C) were selected. Simvastatin was rapidly released from the selected liquid SMEDDS, confirming that liquid SMEDDS significantly improved the dissolution rate of simvastatin.In the second phase of the study, using the GastroPlus™ software, a drug-specific physiologically-based pharmacokinetic (PBPK) model was successfully developed, which appropriately describes the absorption, conversion to simvastatin-acid, distribution and elimination of simvastatin. After analyzing literature and experimental data, together with in silico predicted values to describe simvastatin biopharmaceutical properties and physiological characteristics of the human body, a set of input parameters used for in silico modeling was selected. The constructed PBPK model was validated by comparing the estimated values with the in vivo data on pharmacokinetic parameters for simvastatin and simvastatin-acid following oral administration of 20 mg simvastatin immediate-release tablets. In vitro drug dissolution profiles from liquid SMEDDS, filled into hard gelatin capsules, showed that these formulations improved the dissolution rate of simvastatin. However, in silico results demonstrated that this strategy would not lead to the enhancement of drug oral bioavailability compared to immediate-release tablets. In addition, simulation results showed that distal parts of the GI tract are the optimal place for simvastatin absorption, and that formulation of modified (targeted)-release oral dosage forms of simvastatin could reduce the effects of presystemic metabolism and improve oral bioavailability of this drug.In the third phase of the study, modified-release lipid-based drug delivery systems were formulated by filling the selected liquid SMEDDS into acid-resistant capsules, as well as by mixing the selected liquid SMEDDS with pH-dependent methacrylic acid copolymers. Eudragit® L100 and Eudragit® S100 polymers, as well as their combination (in the ratio 1:1) were used, whereas the ratio SMEDDS:polymer was 2:1. In vitro dissolution results under medium-change conditions showed that liquid SMEDDS filled into acid-resistant capsules enabled complete drug release after 90 min in medium pH 6.4. Comparison of the in vitro dissolution test results for formulations obtained by mixing liquid SMEDDS with Eudragit® polymers filled into hard gelatin capsules, pointed out that there was a clear relationship between simvastatin release rate and the type of Eudragit® polymer. Simvastatin was completely released from all formulations with Eudragit® L100 after 180 min in medium pH 6.9. The presence of Eudragit® S100 in the formulations enabled complete simvastatin release after 300 min in medium pH 7.4. ..
PB  - Универзитет у Београду, Фармацеутски факултет
T2  - Универзитет у Београду
T1  - Razvoj i in vitro/in silico karakterizacija lipidnih formulacija sa simvastatinom kao model supstancom
UR  - https://hdl.handle.net/21.15107/rcub_nardus_18909
ER  - 

@phdthesis{
author = "Ćetković, Zora",
year = "2021",
abstract = "nisku rastvorljivost u vodi/gastrointestinalnim (GI) tečnostima, koja je ograničavajući faktor za apsorpciju, a samim tim i biološku raspoloživost lekovite supstance. Jedan od pristupa za prevazilaženje ovog problema je izrada lipidnih formulacija, u koje spadaju i samomikroemulgujući sistemi (SMEDDS). Simvastatin je lekovita supstanca iz grupe statina, koja se koristi za snižavanje koncentracije holesterola u krvi, poseduje i vaskuloprotektivna svojstva, a najnovija istraživanja pokazuju i da ispoljava određenu efikasnost u lečenju tumora dojke, kolona i prostate. Zbog niske biološke raspoloživosti simvastatina nakon peroralne primene tableta sa trenutnim oslobađanjem, jedinog farmaceutskog oblika sa simvastatinom na tržištu, sve je veća potreba za razvojem savremenih nosača koji bi omogućili veću biološku raspoloživost ove lekovite supstance. Stoga, sveobuhvatni cilj ove doktorske disertacije je bio razvoj novih lipidnih formulacija sa aspekta potencijalne primene kao nosača nove generacije za peroralnu primenu simvastatina i njihova fizičkohemijska i biofarmaceutska karakterizacija.U prvoj fazi istraživanja formulisani su tečni SMEDDS, kao potencijalni nosači za peroralnu primenu simvastatina, koji omogućavaju povećanje rastvorljivosti i brzine rastvaranja ove lekovite supstance. Od ukupno 54 različite kombinacije ulja (oleoil makrogol-6 gliceridi, propilenglikol monokaprilat, propilenglikol monolaurat), surfaktanta (kaprilokaproil makrogol-8 gliceridi) i kosurfaktanta (polisorbat 80 ili makrogol 15 hidroksistearat), odabrani su uzorci koji su odgovarali kriterijumima za SMEDDS u pogledu brzine samoemulgovanja (< 1 min), robusnosti prema razblaživanju (transparencija ˃ 99%), veličine kapi (< 100 nm) i raspodele veličine kapi (PDI < 0,2), kao i prihvatljive stabilnosti tokom šestomesečnog skladištenja na sobnoj temperaturi (22 ± 2 °C). Simvastatin se iz odabranih tečnih SMEDDS oslobađao brzo, čime je potvrđeno da se formulisanjem tečnih SMEDDS značajno povećava brzina rastvaranja simvastatina.U drugoj fazi istraživanja, primenom kompjuterskog programa GastroPlus™, uspešno je razvijen simvastatin-specifični fiziološki zasnovan farmakokinetički (PBPK) model, koji na odgovarajući način opisuje apsorpciju, konverziju u simvastatin-kiselinu, raspodelu i eliminaciju simvastatina. Analizom literaturnih podataka, eksperimentalnih podataka i in silico predviđenih vrednosti parametara koji opisuju biofarmaceutska svojstva simvastatina i fiziološke karakteristike organizma, odabran je set ulaznih parametara koji su korišćeni za in silico modelovanje. Izgrađeni PBPK model je validiran poređenjem predviđenih sa in vivo vrednostima farmakokinetičkih parametara za simvastatin i simvastatin-kiselinu nakon peroralne primene 20 mg simvastatina u obliku tableta sa trenutnim oslobađanjem. Rezutati in vitro ispitivanja tečnih SMEDDS, punjenih u tvrde kapsule su pokazali da ove formulacije omogućavaju povećanje brzine rastvaranja simvastatina. Međutim, in silico modelovanjem je pokazano da se na ovaj način ne povećava biološka raspoloživosti simvastatina, u poređenju sa tabletama simvastatina sa trenutnim oslobađanjem. Analizom rezultata simulacija je utvrđeno da su distalni delovi GI trakta optimalno mesto za apsorpciju simvastatina, te se razvojem formulacija sa modifikovanim (ciljnim) oslobađanjem simvastatina može postići smanjenje uticaja presistemskog metabolizma i povećanje biološke raspoloživosti ove lekovite supstance.U trećoj fazi istraživanja formulisane su lipidne formulacije sa modifikovanim oslobađanjem simvastatina, punjenjem odabranih tečnih SMEDDS u acidorezistentne kapsule, kao i mešanjem odabranih tečnih SMEDDS sa kopolimerima metakrilne kiseline, koji pokazuju pH zavisnu rastvorljivost. Korišćeni su polimeri Eudragit® L100, Eudragit® S100, kao i njihova kombinacija, u odnosu 1:1, a odnos SMEDDS:polimer je bio 2:1. Rezultati in vitro ispitivanja brzine rastvaranja simvastatina pod uslovima izmene medijuma su pokazali da je punjenje tečnih SMEDDS u acidorezistentne kapsule omogućilo oslobađanje simvastatina nakon 90 min, u medijumu pH 6,4. Poređenjem rezultata in vitro ispitivanja brzine rastvaranja simvastatina iz formulacija, dobijenih mešanjem tečnih SMEDDS sa Eudragit® polimerima punjenih u tvrde kapsule, zaključeno je da postoji jasna zavisnost između brzine rastvaranja/oslobađanja simvastatina i vrste Eudragit® polimera..., ABSTRACTMore than 50% of the marketed drugs and approximately 90% of new drug entities are poorly soluble in water/gastrointestinal (GI) fluids, which is a limiting factor for their absorption and bioavailability. One of the approaches to overcome this issue is based on the design of lipid-based drug delivery systems, including self-microemulsifying drug delivery systems (SMEDDS). Simvastatin belongs to statins, the class of drugs used to lower cholesterol levels in the blood; it also has vasculoprotective properties, and recent research shows that simvastatin exhibits certain activity in the treatment of breast, colon and prostate cancer. Due to low bioavailability of this drug following oral administration of immediate-release tablets, the only dosage form of simvastatin available on the market, there is a growing need for the development of modern carriers that would improve its oral bioavailability. Therefore, the overall aim of this doctoral dissertation was to develop novel lipid-based drug delivery systems as carriers for oral administration of simvastatin, along with their physicochemical and biopharmaceutical characterization.In the first phase of the study, liquid SMEDDS were formulated, as potential carriers for oral administration of simvastatin, which improved the drug solubility and dissolution rate. Out of 54 different combinations of oils (oleoyl macrogol-6 glycerides, propylene glycol monocaprylate, propylene glycol monolaurate), surfactant (caprylocaproyl macrogol-8 glycerides) and cosurfactant (polysorbate 80 or macrogol 15 hydroxystearate), only formulations with acceptable selfemulsification rate (< 1 min), robustness to dilution (transparency ˃ 99%), droplet size (< 100 nm) and polydispersity index (PDI < 0.2), which proved to be stable during six-month storage at room temperature (22 ± 2 °C) were selected. Simvastatin was rapidly released from the selected liquid SMEDDS, confirming that liquid SMEDDS significantly improved the dissolution rate of simvastatin.In the second phase of the study, using the GastroPlus™ software, a drug-specific physiologically-based pharmacokinetic (PBPK) model was successfully developed, which appropriately describes the absorption, conversion to simvastatin-acid, distribution and elimination of simvastatin. After analyzing literature and experimental data, together with in silico predicted values to describe simvastatin biopharmaceutical properties and physiological characteristics of the human body, a set of input parameters used for in silico modeling was selected. The constructed PBPK model was validated by comparing the estimated values with the in vivo data on pharmacokinetic parameters for simvastatin and simvastatin-acid following oral administration of 20 mg simvastatin immediate-release tablets. In vitro drug dissolution profiles from liquid SMEDDS, filled into hard gelatin capsules, showed that these formulations improved the dissolution rate of simvastatin. However, in silico results demonstrated that this strategy would not lead to the enhancement of drug oral bioavailability compared to immediate-release tablets. In addition, simulation results showed that distal parts of the GI tract are the optimal place for simvastatin absorption, and that formulation of modified (targeted)-release oral dosage forms of simvastatin could reduce the effects of presystemic metabolism and improve oral bioavailability of this drug.In the third phase of the study, modified-release lipid-based drug delivery systems were formulated by filling the selected liquid SMEDDS into acid-resistant capsules, as well as by mixing the selected liquid SMEDDS with pH-dependent methacrylic acid copolymers. Eudragit® L100 and Eudragit® S100 polymers, as well as their combination (in the ratio 1:1) were used, whereas the ratio SMEDDS:polymer was 2:1. In vitro dissolution results under medium-change conditions showed that liquid SMEDDS filled into acid-resistant capsules enabled complete drug release after 90 min in medium pH 6.4. Comparison of the in vitro dissolution test results for formulations obtained by mixing liquid SMEDDS with Eudragit® polymers filled into hard gelatin capsules, pointed out that there was a clear relationship between simvastatin release rate and the type of Eudragit® polymer. Simvastatin was completely released from all formulations with Eudragit® L100 after 180 min in medium pH 6.9. The presence of Eudragit® S100 in the formulations enabled complete simvastatin release after 300 min in medium pH 7.4. ..",
publisher = "Универзитет у Београду, Фармацеутски факултет",
journal = "Универзитет у Београду",
title = "Razvoj i in vitro/in silico karakterizacija lipidnih formulacija sa simvastatinom kao model supstancom",
url = "https://hdl.handle.net/21.15107/rcub_nardus_18909"
}

Ćetković, Z.. (2021). Razvoj i in vitro/in silico karakterizacija lipidnih formulacija sa simvastatinom kao model supstancom. in Универзитет у Београду
Универзитет у Београду, Фармацеутски факултет..
https://hdl.handle.net/21.15107/rcub_nardus_18909

Ćetković Z. Razvoj i in vitro/in silico karakterizacija lipidnih formulacija sa simvastatinom kao model supstancom. in Универзитет у Београду. 2021;.
https://hdl.handle.net/21.15107/rcub_nardus_18909 .

Ćetković, Zora, "Razvoj i in vitro/in silico karakterizacija lipidnih formulacija sa simvastatinom kao model supstancom" in Универзитет у Београду (2021),
https://hdl.handle.net/21.15107/rcub_nardus_18909 .

TY  - JOUR
AU  - Ćetković, Zora
AU  - Cvijić, Sandra
AU  - Vasiljević, Dragana
PY  - 2019
UR  - https://farfar.pharmacy.bg.ac.rs/handle/123456789/3457
AB  - Formulation of lipid-based drug delivery systems is recognized as a promising strategy to increase bioavailability of simvastatin (SV). The purpose of this study was to formulate advantageous lipid-based drug delivery systems for pH-controlled release of SV using polymethacrylate polymers (Eudragit®) as carriers. Liquid SV-loaded self-microemulsifying drug delivery systems (SMEDDS), composed of oils (PEG 300 oleic glycerides, propylene glycol monocaprylate, or propylene glycol monolaurate), surfactant (PEG 400 caprylic/capric glycerides) and cosurfactant (PEG-15 hydroxystearate), were characterized in terms of emulsification time, robustness to dilution, and droplet size. To enable targeted SV release at desired pH, the liquid SMEDDS were mixed with solid carriers, Eudragit® L100 and/or Eudragit® S100. The resulting gel-like lipid-based drug delivery systems were transparent and ductile, and exhibited viscoelastic rheological properties. In vitro dissolution data indicated sustained SV release in pH medium corresponding to distal ileum. The simulation results revealed that sustained SV release from the designed systems is expected to increase SV bioavailability. Overall, our results demonstrate that sustained-release drug delivery systems, composed of liquid SMEDDS and polymethacrylate carriers (Eudragit® polymers), have the potential to enhance oral bioavailability of drugs with preferred absorption site in the pH medium corresponding to distal ileum.
PB  - Elsevier
T2  - Journal of Drug Delivery Science and Technology
T1  - Formulation and characterization of novel lipid-based drug delivery systems containing polymethacrylate polymers as solid carriers for sustained release of simvastatin
VL  - 53
SP  - 1
EP  - 9
DO  - 10.1016/j.jddst.2019.101222
ER  - 

@article{
author = "Ćetković, Zora and Cvijić, Sandra and Vasiljević, Dragana",
year = "2019",
abstract = "Formulation of lipid-based drug delivery systems is recognized as a promising strategy to increase bioavailability of simvastatin (SV). The purpose of this study was to formulate advantageous lipid-based drug delivery systems for pH-controlled release of SV using polymethacrylate polymers (Eudragit®) as carriers. Liquid SV-loaded self-microemulsifying drug delivery systems (SMEDDS), composed of oils (PEG 300 oleic glycerides, propylene glycol monocaprylate, or propylene glycol monolaurate), surfactant (PEG 400 caprylic/capric glycerides) and cosurfactant (PEG-15 hydroxystearate), were characterized in terms of emulsification time, robustness to dilution, and droplet size. To enable targeted SV release at desired pH, the liquid SMEDDS were mixed with solid carriers, Eudragit® L100 and/or Eudragit® S100. The resulting gel-like lipid-based drug delivery systems were transparent and ductile, and exhibited viscoelastic rheological properties. In vitro dissolution data indicated sustained SV release in pH medium corresponding to distal ileum. The simulation results revealed that sustained SV release from the designed systems is expected to increase SV bioavailability. Overall, our results demonstrate that sustained-release drug delivery systems, composed of liquid SMEDDS and polymethacrylate carriers (Eudragit® polymers), have the potential to enhance oral bioavailability of drugs with preferred absorption site in the pH medium corresponding to distal ileum.",
publisher = "Elsevier",
journal = "Journal of Drug Delivery Science and Technology",
title = "Formulation and characterization of novel lipid-based drug delivery systems containing polymethacrylate polymers as solid carriers for sustained release of simvastatin",
volume = "53",
pages = "1-9",
doi = "10.1016/j.jddst.2019.101222"
}

Ćetković, Z., Cvijić, S.,& Vasiljević, D.. (2019). Formulation and characterization of novel lipid-based drug delivery systems containing polymethacrylate polymers as solid carriers for sustained release of simvastatin. in Journal of Drug Delivery Science and Technology
Elsevier., 53, 1-9.
https://doi.org/10.1016/j.jddst.2019.101222

Ćetković Z, Cvijić S, Vasiljević D. Formulation and characterization of novel lipid-based drug delivery systems containing polymethacrylate polymers as solid carriers for sustained release of simvastatin. in Journal of Drug Delivery Science and Technology. 2019;53:1-9.
doi:10.1016/j.jddst.2019.101222 .

Ćetković, Zora, Cvijić, Sandra, Vasiljević, Dragana, "Formulation and characterization of novel lipid-based drug delivery systems containing polymethacrylate polymers as solid carriers for sustained release of simvastatin" in Journal of Drug Delivery Science and Technology, 53 (2019):1-9,
https://doi.org/10.1016/j.jddst.2019.101222 . .