TY  - JOUR
AU  - Calija, Bojan
AU  - Milić, Jela
AU  - Milasinović, Nikola
AU  - Daković, Aleksandra
AU  - Trifković, Kata
AU  - Stojanović, Jovica
AU  - Krajišnik, Danina
PY  - 2020
UR  - https://ritnms.itnms.ac.rs/handle/123456789/550
AB  - This study was designed to investigate functionality of tetracycline-loaded chitosan-halloysite nanocomposite films, with focus on evaluating the influence of chitosan molar mass on films applicability for sustained local antibiotic delivery. The films were prepared by casting and solvent evaporation using low, medium, and high molar mass chitosan. SEM analysis revealed compact, nonporous and rough surface of the nanocomposite films due to the presence of halloysite agglomerates and tetracycline crystals. Increasing chitosan molar mass led to higher values of elongation at break (from 21.65 +/- 2.65 to 34.48 +/- 2.34%), tensile strength (from 134.8 +/- 13.21 to 246.36 +/- 14.69 MPa), and elastic modulus (from 633.79 +/- 128.37 to 716.55 +/- 60.76 MPa) of the nanocomposite films. FT-IR, XRPD, and thermal analyses confirmed molar mass dependent chitosan-halloysite interactions and improved thermal stability of the nanocomposite films in comparison with chitosan films. The nanocomposite films released tetracycline in a sustained manner, with the slowest release achieved from the films consisting of low molar mass chitosan. Chitosan molar mass was confirmed to be a functionality-related characteristic of chitosan-halloysite nanocomposite films as potential sustained-release carriers for topical delivery of antibiotics.
PB  - Wiley, Hoboken
T2  - Journal of Applied Polymer Science
T1  - Functionality of chitosan-halloysite nanocomposite films for sustained delivery of antibiotics: The effect of chitosan molar mass
IS  - 8
VL  - 137
DO  - 10.1002/app.48406
UR  - conv_858
ER  - 

@article{
author = "Calija, Bojan and Milić, Jela and Milasinović, Nikola and Daković, Aleksandra and Trifković, Kata and Stojanović, Jovica and Krajišnik, Danina",
year = "2020",
abstract = "This study was designed to investigate functionality of tetracycline-loaded chitosan-halloysite nanocomposite films, with focus on evaluating the influence of chitosan molar mass on films applicability for sustained local antibiotic delivery. The films were prepared by casting and solvent evaporation using low, medium, and high molar mass chitosan. SEM analysis revealed compact, nonporous and rough surface of the nanocomposite films due to the presence of halloysite agglomerates and tetracycline crystals. Increasing chitosan molar mass led to higher values of elongation at break (from 21.65 +/- 2.65 to 34.48 +/- 2.34%), tensile strength (from 134.8 +/- 13.21 to 246.36 +/- 14.69 MPa), and elastic modulus (from 633.79 +/- 128.37 to 716.55 +/- 60.76 MPa) of the nanocomposite films. FT-IR, XRPD, and thermal analyses confirmed molar mass dependent chitosan-halloysite interactions and improved thermal stability of the nanocomposite films in comparison with chitosan films. The nanocomposite films released tetracycline in a sustained manner, with the slowest release achieved from the films consisting of low molar mass chitosan. Chitosan molar mass was confirmed to be a functionality-related characteristic of chitosan-halloysite nanocomposite films as potential sustained-release carriers for topical delivery of antibiotics.",
publisher = "Wiley, Hoboken",
journal = "Journal of Applied Polymer Science",
title = "Functionality of chitosan-halloysite nanocomposite films for sustained delivery of antibiotics: The effect of chitosan molar mass",
number = "8",
volume = "137",
doi = "10.1002/app.48406",
url = "conv_858"
}

Calija, B., Milić, J., Milasinović, N., Daković, A., Trifković, K., Stojanović, J.,& Krajišnik, D.. (2020). Functionality of chitosan-halloysite nanocomposite films for sustained delivery of antibiotics: The effect of chitosan molar mass. in Journal of Applied Polymer Science
Wiley, Hoboken., 137(8).
https://doi.org/10.1002/app.48406
conv_858

Calija B, Milić J, Milasinović N, Daković A, Trifković K, Stojanović J, Krajišnik D. Functionality of chitosan-halloysite nanocomposite films for sustained delivery of antibiotics: The effect of chitosan molar mass. in Journal of Applied Polymer Science. 2020;137(8).
doi:10.1002/app.48406
conv_858 .

Calija, Bojan, Milić, Jela, Milasinović, Nikola, Daković, Aleksandra, Trifković, Kata, Stojanović, Jovica, Krajišnik, Danina, "Functionality of chitosan-halloysite nanocomposite films for sustained delivery of antibiotics: The effect of chitosan molar mass" in Journal of Applied Polymer Science, 137, no. 8 (2020),
https://doi.org/10.1002/app.48406 .,
conv_858 .

TY  - CONF
AU  - Krajišnik, Danina
AU  - Čalija, Bojan
AU  - Djekić, Ljiljana
AU  - Dobričić, Vladimir
AU  - Daković, Aleksandra
PY  - 2019
UR  - https://ritnms.itnms.ac.rs/handle/123456789/738
AB  - The biopharmaceutical performance of ibuprofen – surfactant modified zeolitic tuff
composites prepared in a one-step preparation procedure was evaluated by in vitro drug
release experiments. Furthermore, to reveal stability upon desorption, the release of surfactant
was also investigated. Results showed that the prolonged ibuprofen release from the tested
composites was achieved over a period of 8 h. The analysis of the drug release profiles
indicated to a combination of drug diffusion and ion-exchange as predominant release
mechanisms. A negligible surfactant desorption demonstrated during release testing alongside
with non-toxic nature of these materials may encourages further researches of these
functionalized mineral materials as prospective excipients for pharmaceutical application.
PB  - Serbian Zeolite Association
C3  - 8th Serbian-Croatian-Slovenian Symposium on Zeolites
T1  - An investigation of ibuprofen release from a clinoptilolitic zeolitic tuff modified with cationic surfactant
EP  - 129
SP  - 126
ER  - 

@conference{
author = "Krajišnik, Danina and Čalija, Bojan and Djekić, Ljiljana and Dobričić, Vladimir and Daković, Aleksandra",
year = "2019",
abstract = "The biopharmaceutical performance of ibuprofen – surfactant modified zeolitic tuff
composites prepared in a one-step preparation procedure was evaluated by in vitro drug
release experiments. Furthermore, to reveal stability upon desorption, the release of surfactant
was also investigated. Results showed that the prolonged ibuprofen release from the tested
composites was achieved over a period of 8 h. The analysis of the drug release profiles
indicated to a combination of drug diffusion and ion-exchange as predominant release
mechanisms. A negligible surfactant desorption demonstrated during release testing alongside
with non-toxic nature of these materials may encourages further researches of these
functionalized mineral materials as prospective excipients for pharmaceutical application.",
publisher = "Serbian Zeolite Association",
journal = "8th Serbian-Croatian-Slovenian Symposium on Zeolites",
title = "An investigation of ibuprofen release from a clinoptilolitic zeolitic tuff modified with cationic surfactant",
pages = "129-126"
}

Krajišnik, D., Čalija, B., Djekić, L., Dobričić, V.,& Daković, A.. (2019). An investigation of ibuprofen release from a clinoptilolitic zeolitic tuff modified with cationic surfactant. in 8th Serbian-Croatian-Slovenian Symposium on Zeolites
Serbian Zeolite Association., 126-129.

Krajišnik D, Čalija B, Djekić L, Dobričić V, Daković A. An investigation of ibuprofen release from a clinoptilolitic zeolitic tuff modified with cationic surfactant. in 8th Serbian-Croatian-Slovenian Symposium on Zeolites. 2019;:126-129..

Krajišnik, Danina, Čalija, Bojan, Djekić, Ljiljana, Dobričić, Vladimir, Daković, Aleksandra, "An investigation of ibuprofen release from a clinoptilolitic zeolitic tuff modified with cationic surfactant" in 8th Serbian-Croatian-Slovenian Symposium on Zeolites (2019):126-129.

TY  - CONF
AU  - Krajišnik, Danina
AU  - Čalija, Bojan
AU  - Djekić, Ljiljana
AU  - Dobričić, Vladimir
AU  - Daković, Aleksandra
AU  - Marković, Marija
AU  - Milić, Jela
PY  - 2018
UR  - https://ritnms.itnms.ac.rs/handle/123456789/702
AB  - Introduction
Interactions of cationic surfactants with natural zeolites have been extensively studied since they proved to be excellent adsorbents for various drug molecules contributing their functionality as drug carriers. Investigations related to nonsteroidal anti-inflammatory drugs (NSAIDs) are particularly interesting, since they are one of the most frequently used medications (Krajišnik et al., 2017). Sorption and release of ibuprofen (IBU) (a representative of NSAIDs; practically insoluble in water) by modified clinoptilolitic zeolitic tuff, in two step preparation procedure, was previously investigated (Krajišnik et al., 2015). According to this procedure, in the first step surfactant modified zeolites were prepared and then in the second step drug-modified zeolite composites were obtained by adsorption of IBU on modified zeolites.
The aim of this work was to carry out a study of direct method of drug-modified zeolite composites preparation and the influence of cationic surfactant:drug molar ratio on adsorption properties of clinoptilolitic zeolitic tuff.
Experimental Methods
In experiments, the initial clinoptilolitic zeolitic tuff from Zlatokop deposit (Serbia) (Krajišnik et al., 2011) was treated with solutions comprising surfactanthexadecyltrimethylammonium bromide (HB) in amounts equivalent to 100, 200 and 300% of its external cation exchange capacity (ECEC). In surfactant solutions (prepared at 40 C) IBU was solubilized at the same drug:surfactant molar ratio. The 10% aqueous suspensions were mixed on a high-speed disperser at 6000 rpm for 10 min. After mixing, the suspensions were filtered and the filtrates were collected for the drug assay by HPLC analysis. The obtained drug/modified zeolites composites, prepared by direct method, were denoted as ZHB-10 IBU/DM, ZHB-20 IBU/DM and ZHB-30 IBU/DM.
The average droplet size (Z-ave) and polydispersity index (PdI) in the starting drug/surfactant solutions were determined by photon correlation spectroscopy (PCS) using a ZetasizerNano ZS90 (Malvern Instruments, Malvern, UK). The zeta potentials of the starting zeolite and the prepared samples (drug/modified zeolites composites) were performed on the same apparatus. FT-IR spectra of the prepared samples and their individual components were recorded using a Nicolet iS50 spectrometer (Thermo Scientific, USA) in the range of 4000–400 cm−1 at a resolution of 2 cm−1.
Results and Discussion
In the starting drug/surfactant solutions, both IBU and HB were used at equimolar concentrations of 0.011 M, 0.022 M and 0.033 M for ZHB-10 IBU/DM, ZHB-20 IBU/DM and ZHB-30 IBU/DM, respectively. The HB concentration in all solutions was higher than its critical micelle concentration (cmc 0.92 mM at 20-25 °C). Instead of an intensive peak pattern associated with HB micelles, a group of very low intensity peaks was observed in a wider size range. The observed changes can be interpreted by disturbing the structure of the micelles under the conditions of agitation and temperature during the preparation of the starting solutions, and the formation of IBU complexes with individual HB molecules (Bunton et al., 1981), as well as their associates.The changes in zeta-potential of clinoptilolitic zeolitic tuff (ZVB) (Fig. 1a) were more pronounced for the samples with higher HB content compared with the sample ZHB-10 IBU/DM. Since the adsorbed amount of IBU on the prepared composites was lower for ZHB-10 IBU/DM ( 20 mg/g) and approximately the same for ZHB-20 IBU/DM and ZHB-30 IBU/DM ( 40 mg/g), increasing zeta potentials probably correspond to different surfactant coverage and organization at the mineral surface.
The bands in FT-IR spectrum of ZHB-30 IBU/DM (Fig. 1b) at 3618, 3420 and 1640 cm−1 are clinoptilolite characteristic bands related to acidic hydroxyls SiO(H)Al, hydrogen-bonding hydroxyl groups, and bending vibration of absorbed water, respectively (Korkuna et al., 2006). Compared to the FT-IR spectrum of ZVB the following bands were observed: the CH2 symmetric and asymmetric stretching vibrations of alkyl chain at 2919 and 2850 cm−1 and C–H scissoring vibrations of CH3–N+ moiety with peak at 1463 cm−1, which evidence the presence of HB (Sui et al., 2006). A weak band at 1384 cm−1 implies the presence of anionic form of adsorbed IBU (Krajišnik et al., 2015). The presented results of drug uptake by surfactant/zeolite composites revealed that drug adsorption from IBU/HB solutions could be successfully performed by the direct method of preparation, while cationic surfactant:drug molar ratio had influence on adsorbed amounts and organization of molecules on the zeolitic surface. Further investigations of pharmaceutical technical characteristics and drug release from the obtained composites would reveal their possible pharmaceutical application.
Acknowledgment
This work was realized within the framework of the projects TR 34031 and OI 172018 supported by the Ministry of Education, Science and Technological Development of Republic of Serbia.
PB  - Lublin : Lublin University of Technology
C3  - ZEOLITE 2018 - 10th International Conference on the Occurrence, Properties and Utilization of Natural Zeolites
T1  - Ibuprofen adsorption on a clinoptilolitic zeolitic tuff modified with cationic surfactant: direct method of composites preparation
EP  - 192
SP  - 191
ER  - 

@conference{
author = "Krajišnik, Danina and Čalija, Bojan and Djekić, Ljiljana and Dobričić, Vladimir and Daković, Aleksandra and Marković, Marija and Milić, Jela",
year = "2018",
abstract = "Introduction
Interactions of cationic surfactants with natural zeolites have been extensively studied since they proved to be excellent adsorbents for various drug molecules contributing their functionality as drug carriers. Investigations related to nonsteroidal anti-inflammatory drugs (NSAIDs) are particularly interesting, since they are one of the most frequently used medications (Krajišnik et al., 2017). Sorption and release of ibuprofen (IBU) (a representative of NSAIDs; practically insoluble in water) by modified clinoptilolitic zeolitic tuff, in two step preparation procedure, was previously investigated (Krajišnik et al., 2015). According to this procedure, in the first step surfactant modified zeolites were prepared and then in the second step drug-modified zeolite composites were obtained by adsorption of IBU on modified zeolites.
The aim of this work was to carry out a study of direct method of drug-modified zeolite composites preparation and the influence of cationic surfactant:drug molar ratio on adsorption properties of clinoptilolitic zeolitic tuff.
Experimental Methods
In experiments, the initial clinoptilolitic zeolitic tuff from Zlatokop deposit (Serbia) (Krajišnik et al., 2011) was treated with solutions comprising surfactanthexadecyltrimethylammonium bromide (HB) in amounts equivalent to 100, 200 and 300% of its external cation exchange capacity (ECEC). In surfactant solutions (prepared at 40 C) IBU was solubilized at the same drug:surfactant molar ratio. The 10% aqueous suspensions were mixed on a high-speed disperser at 6000 rpm for 10 min. After mixing, the suspensions were filtered and the filtrates were collected for the drug assay by HPLC analysis. The obtained drug/modified zeolites composites, prepared by direct method, were denoted as ZHB-10 IBU/DM, ZHB-20 IBU/DM and ZHB-30 IBU/DM.
The average droplet size (Z-ave) and polydispersity index (PdI) in the starting drug/surfactant solutions were determined by photon correlation spectroscopy (PCS) using a ZetasizerNano ZS90 (Malvern Instruments, Malvern, UK). The zeta potentials of the starting zeolite and the prepared samples (drug/modified zeolites composites) were performed on the same apparatus. FT-IR spectra of the prepared samples and their individual components were recorded using a Nicolet iS50 spectrometer (Thermo Scientific, USA) in the range of 4000–400 cm−1 at a resolution of 2 cm−1.
Results and Discussion
In the starting drug/surfactant solutions, both IBU and HB were used at equimolar concentrations of 0.011 M, 0.022 M and 0.033 M for ZHB-10 IBU/DM, ZHB-20 IBU/DM and ZHB-30 IBU/DM, respectively. The HB concentration in all solutions was higher than its critical micelle concentration (cmc 0.92 mM at 20-25 °C). Instead of an intensive peak pattern associated with HB micelles, a group of very low intensity peaks was observed in a wider size range. The observed changes can be interpreted by disturbing the structure of the micelles under the conditions of agitation and temperature during the preparation of the starting solutions, and the formation of IBU complexes with individual HB molecules (Bunton et al., 1981), as well as their associates.The changes in zeta-potential of clinoptilolitic zeolitic tuff (ZVB) (Fig. 1a) were more pronounced for the samples with higher HB content compared with the sample ZHB-10 IBU/DM. Since the adsorbed amount of IBU on the prepared composites was lower for ZHB-10 IBU/DM ( 20 mg/g) and approximately the same for ZHB-20 IBU/DM and ZHB-30 IBU/DM ( 40 mg/g), increasing zeta potentials probably correspond to different surfactant coverage and organization at the mineral surface.
The bands in FT-IR spectrum of ZHB-30 IBU/DM (Fig. 1b) at 3618, 3420 and 1640 cm−1 are clinoptilolite characteristic bands related to acidic hydroxyls SiO(H)Al, hydrogen-bonding hydroxyl groups, and bending vibration of absorbed water, respectively (Korkuna et al., 2006). Compared to the FT-IR spectrum of ZVB the following bands were observed: the CH2 symmetric and asymmetric stretching vibrations of alkyl chain at 2919 and 2850 cm−1 and C–H scissoring vibrations of CH3–N+ moiety with peak at 1463 cm−1, which evidence the presence of HB (Sui et al., 2006). A weak band at 1384 cm−1 implies the presence of anionic form of adsorbed IBU (Krajišnik et al., 2015). The presented results of drug uptake by surfactant/zeolite composites revealed that drug adsorption from IBU/HB solutions could be successfully performed by the direct method of preparation, while cationic surfactant:drug molar ratio had influence on adsorbed amounts and organization of molecules on the zeolitic surface. Further investigations of pharmaceutical technical characteristics and drug release from the obtained composites would reveal their possible pharmaceutical application.
Acknowledgment
This work was realized within the framework of the projects TR 34031 and OI 172018 supported by the Ministry of Education, Science and Technological Development of Republic of Serbia.",
publisher = "Lublin : Lublin University of Technology",
journal = "ZEOLITE 2018 - 10th International Conference on the Occurrence, Properties and Utilization of Natural Zeolites",
title = "Ibuprofen adsorption on a clinoptilolitic zeolitic tuff modified with cationic surfactant: direct method of composites preparation",
pages = "192-191"
}

Krajišnik, D., Čalija, B., Djekić, L., Dobričić, V., Daković, A., Marković, M.,& Milić, J.. (2018). Ibuprofen adsorption on a clinoptilolitic zeolitic tuff modified with cationic surfactant: direct method of composites preparation. in ZEOLITE 2018 - 10th International Conference on the Occurrence, Properties and Utilization of Natural Zeolites
Lublin : Lublin University of Technology., 191-192.

Krajišnik D, Čalija B, Djekić L, Dobričić V, Daković A, Marković M, Milić J. Ibuprofen adsorption on a clinoptilolitic zeolitic tuff modified with cationic surfactant: direct method of composites preparation. in ZEOLITE 2018 - 10th International Conference on the Occurrence, Properties and Utilization of Natural Zeolites. 2018;:191-192..

Krajišnik, Danina, Čalija, Bojan, Djekić, Ljiljana, Dobričić, Vladimir, Daković, Aleksandra, Marković, Marija, Milić, Jela, "Ibuprofen adsorption on a clinoptilolitic zeolitic tuff modified with cationic surfactant: direct method of composites preparation" in ZEOLITE 2018 - 10th International Conference on the Occurrence, Properties and Utilization of Natural Zeolites (2018):191-192.

TY  - JOUR
AU  - Janićijević, Jelena
AU  - Milić, Jela
AU  - Calija, Bojan
AU  - Micov, Ana
AU  - Stepanović-Petrović, Radica
AU  - Tomić, Maja
AU  - Daković, Aleksandra
AU  - Dobričić, Vladimir
AU  - Nedić-Vasiljević, Bojana
AU  - Krajišnik, Danina
PY  - 2018
UR  - https://ritnms.itnms.ac.rs/handle/123456789/471
AB  - Refined diatomite from the Kolubara coal basin (Serbia) was inorganically functionalized through a simple, one-pot, non-time-consuming procedure. Model drug ibuprofen was adsorbed on the functionalized diatomite under optimized conditions providing high drug Loading (similar to 201 mg g(-1)). Physicochemical characterization was performed on the starting and modified diatomite before and after ibuprofen adsorption. Dissolution testing was conducted on comprimates containing the drug adsorbed on the modified diatomite (composite) and those containing a physical mixture of the drug with the modified diatomite. The antihyperalgesic and the antiedematous activity of ibuprofen from both composites and physical mixtures were evaluated in vivo employing an inflammatory pain model in rats. Functionalization and subsequent drug adsorption had no significant effect on the diatomite ordered porous structure. Two forms of ibuprofen most likely coexisted in the adsorbed state - the acidic form and a salt/complex with aluminium. Both comprimate types showed extended ibuprofen release in vitro, but no significant influence on the duration of the ibuprofen effect was observed upon in vivo application of the composite or physical mixture. However, both the composite and the physical mixture were more effective than equivalent doses of ibuprofen in pain suppression in rats. This potentiation of the ibuprofen antihyperalgesic effect may result from the formation of the drug complex with the carrier and can be of clinical relevance.
PB  - Royal Soc Chemistry, Cambridge
T2  - Journal of Materials Chemistry B
T1  - Potentiation of the ibuprofen antihyperalgesic effect using inorganically functionalized diatomite
EP  - 5822
IS  - 36
SP  - 5812
VL  - 6
DO  - 10.1039/c8tb01376d
UR  - conv_835
ER  - 

@article{
author = "Janićijević, Jelena and Milić, Jela and Calija, Bojan and Micov, Ana and Stepanović-Petrović, Radica and Tomić, Maja and Daković, Aleksandra and Dobričić, Vladimir and Nedić-Vasiljević, Bojana and Krajišnik, Danina",
year = "2018",
abstract = "Refined diatomite from the Kolubara coal basin (Serbia) was inorganically functionalized through a simple, one-pot, non-time-consuming procedure. Model drug ibuprofen was adsorbed on the functionalized diatomite under optimized conditions providing high drug Loading (similar to 201 mg g(-1)). Physicochemical characterization was performed on the starting and modified diatomite before and after ibuprofen adsorption. Dissolution testing was conducted on comprimates containing the drug adsorbed on the modified diatomite (composite) and those containing a physical mixture of the drug with the modified diatomite. The antihyperalgesic and the antiedematous activity of ibuprofen from both composites and physical mixtures were evaluated in vivo employing an inflammatory pain model in rats. Functionalization and subsequent drug adsorption had no significant effect on the diatomite ordered porous structure. Two forms of ibuprofen most likely coexisted in the adsorbed state - the acidic form and a salt/complex with aluminium. Both comprimate types showed extended ibuprofen release in vitro, but no significant influence on the duration of the ibuprofen effect was observed upon in vivo application of the composite or physical mixture. However, both the composite and the physical mixture were more effective than equivalent doses of ibuprofen in pain suppression in rats. This potentiation of the ibuprofen antihyperalgesic effect may result from the formation of the drug complex with the carrier and can be of clinical relevance.",
publisher = "Royal Soc Chemistry, Cambridge",
journal = "Journal of Materials Chemistry B",
title = "Potentiation of the ibuprofen antihyperalgesic effect using inorganically functionalized diatomite",
pages = "5822-5812",
number = "36",
volume = "6",
doi = "10.1039/c8tb01376d",
url = "conv_835"
}

Janićijević, J., Milić, J., Calija, B., Micov, A., Stepanović-Petrović, R., Tomić, M., Daković, A., Dobričić, V., Nedić-Vasiljević, B.,& Krajišnik, D.. (2018). Potentiation of the ibuprofen antihyperalgesic effect using inorganically functionalized diatomite. in Journal of Materials Chemistry B
Royal Soc Chemistry, Cambridge., 6(36), 5812-5822.
https://doi.org/10.1039/c8tb01376d
conv_835

Janićijević J, Milić J, Calija B, Micov A, Stepanović-Petrović R, Tomić M, Daković A, Dobričić V, Nedić-Vasiljević B, Krajišnik D. Potentiation of the ibuprofen antihyperalgesic effect using inorganically functionalized diatomite. in Journal of Materials Chemistry B. 2018;6(36):5812-5822.
doi:10.1039/c8tb01376d
conv_835 .

Janićijević, Jelena, Milić, Jela, Calija, Bojan, Micov, Ana, Stepanović-Petrović, Radica, Tomić, Maja, Daković, Aleksandra, Dobričić, Vladimir, Nedić-Vasiljević, Bojana, Krajišnik, Danina, "Potentiation of the ibuprofen antihyperalgesic effect using inorganically functionalized diatomite" in Journal of Materials Chemistry B, 6, no. 36 (2018):5812-5822,
https://doi.org/10.1039/c8tb01376d .,
conv_835 .

TY  - CHAP
AU  - Krajišnik, Danina
AU  - Daković, Aleksandra
AU  - Milić, Jela
AU  - Marković, Marija
PY  - 2018
UR  - https://ritnms.itnms.ac.rs/handle/123456789/465
AB  - In the last two decades, natural zeolites have emerged in biomedical applications due to their favorable physicochemical characteristics such as high adsorption capacity and specific surface, the cation exchange ability, and good biocompatibility. Although very similar to clays that have been traditionally used in pharmaceutical preparations, these mineral materials also require a comprehensive characterization prior to their use as potential pharmaceutical excipients, that is, drug carriers. In this chapter a brief summary on definitions, properties, functionality-related characteristics, safety, and regulatory aspects of pharmaceutical excipients is given. Special attention is focused on natural and surfactant-modified zeolites; an overview of techniques used for characterization of a starting mineral material as well as drug-modified zeolite composites relevant for their application as pharmaceutical excipients and potential drug carriers is presented.
PB  - Elsevier
T2  - Modified Clay and Zeolite Nanocomposite Materials: Environmental and Pharmaceutical Applications
T1  - Zeolites as potential drug carriers
EP  - 55
SP  - 27
DO  - 10.1016/B978-0-12-814617-0.00002-5
UR  - conv_1027
ER  - 

@inbook{
author = "Krajišnik, Danina and Daković, Aleksandra and Milić, Jela and Marković, Marija",
year = "2018",
abstract = "In the last two decades, natural zeolites have emerged in biomedical applications due to their favorable physicochemical characteristics such as high adsorption capacity and specific surface, the cation exchange ability, and good biocompatibility. Although very similar to clays that have been traditionally used in pharmaceutical preparations, these mineral materials also require a comprehensive characterization prior to their use as potential pharmaceutical excipients, that is, drug carriers. In this chapter a brief summary on definitions, properties, functionality-related characteristics, safety, and regulatory aspects of pharmaceutical excipients is given. Special attention is focused on natural and surfactant-modified zeolites; an overview of techniques used for characterization of a starting mineral material as well as drug-modified zeolite composites relevant for their application as pharmaceutical excipients and potential drug carriers is presented.",
publisher = "Elsevier",
journal = "Modified Clay and Zeolite Nanocomposite Materials: Environmental and Pharmaceutical Applications",
booktitle = "Zeolites as potential drug carriers",
pages = "55-27",
doi = "10.1016/B978-0-12-814617-0.00002-5",
url = "conv_1027"
}

Krajišnik, D., Daković, A., Milić, J.,& Marković, M.. (2018). Zeolites as potential drug carriers. in Modified Clay and Zeolite Nanocomposite Materials: Environmental and Pharmaceutical Applications
Elsevier., 27-55.
https://doi.org/10.1016/B978-0-12-814617-0.00002-5
conv_1027

Krajišnik D, Daković A, Milić J, Marković M. Zeolites as potential drug carriers. in Modified Clay and Zeolite Nanocomposite Materials: Environmental and Pharmaceutical Applications. 2018;:27-55.
doi:10.1016/B978-0-12-814617-0.00002-5
conv_1027 .

Krajišnik, Danina, Daković, Aleksandra, Milić, Jela, Marković, Marija, "Zeolites as potential drug carriers" in Modified Clay and Zeolite Nanocomposite Materials: Environmental and Pharmaceutical Applications (2018):27-55,
https://doi.org/10.1016/B978-0-12-814617-0.00002-5 .,
conv_1027 .

TY  - JOUR
AU  - Calija, Bojan
AU  - Milić, Jela
AU  - Janićijević, Jelena
AU  - Daković, Aleksandra
AU  - Krajišnik, Danina
PY  - 2017
UR  - https://ritnms.itnms.ac.rs/handle/123456789/429
AB  - This study investigated the potential of halloysite nanotubes (HNTs) to improve the sustained release properties of chitosan (CS) microparticles cross-linked ionically with tripolyphosphate (TPP). Composite CS-HNTs microparticles were obtained by a simple and eco-friendly procedure based on a coaxial extrusion technique. Prior to encapsulation, a water-soluble model drug, verapamil hydrochloride (VH), was adsorbed successfully on HNTs. The microparticles were characterized by optical microscopy, Fourier transform infrared (FTIR) spectroscopy, differential thermal analysis/thermogravimetric analysis (DTA/TG) and evaluated for encapsulation efficiency and drug-release properties. The composite particles had a slightly deformed spherical shape and micrometric size with average perimeters ranging from 485.4 +/- 13.3 to 492.4 +/- 11.9 mu m. The results of FTIR spectroscopy confirmed non-covalent interactions between CS and HNTs within composite particle structures. The DTA and TG studies revealed increased thermal stability of the composite particles in comparison to the CS-TPP particles. Drug adsorption on HNTs prior to encapsulation led to an increase in encapsulation efficiency from 19.6 +/- 2.9 to 84.3 +/- 1.9%. In contrast to the rapid release of encapsulated model drug from CS-TPP microparticles, the composite CS-HNTs microparticles released drug in a sustained manner, showing the best fit to the Bhaskar model. The results presented here imply that HNTs could be used to improve morphology, encapsulation efficiency and sustained drug-release properties of CS microparticles cross-linked ionically with TPP.
PB  - Mineralogical Soc, Twickenham
T2  - Clay Minerals
T1  - Ionically cross-linked chitosan-halloysite composite microparticles for sustained drug release
EP  - 426
IS  - 4
SP  - 413
VL  - 52
DO  - 10.1180/claymin.2017.052.04.01
UR  - conv_823
ER  - 

@article{
author = "Calija, Bojan and Milić, Jela and Janićijević, Jelena and Daković, Aleksandra and Krajišnik, Danina",
year = "2017",
abstract = "This study investigated the potential of halloysite nanotubes (HNTs) to improve the sustained release properties of chitosan (CS) microparticles cross-linked ionically with tripolyphosphate (TPP). Composite CS-HNTs microparticles were obtained by a simple and eco-friendly procedure based on a coaxial extrusion technique. Prior to encapsulation, a water-soluble model drug, verapamil hydrochloride (VH), was adsorbed successfully on HNTs. The microparticles were characterized by optical microscopy, Fourier transform infrared (FTIR) spectroscopy, differential thermal analysis/thermogravimetric analysis (DTA/TG) and evaluated for encapsulation efficiency and drug-release properties. The composite particles had a slightly deformed spherical shape and micrometric size with average perimeters ranging from 485.4 +/- 13.3 to 492.4 +/- 11.9 mu m. The results of FTIR spectroscopy confirmed non-covalent interactions between CS and HNTs within composite particle structures. The DTA and TG studies revealed increased thermal stability of the composite particles in comparison to the CS-TPP particles. Drug adsorption on HNTs prior to encapsulation led to an increase in encapsulation efficiency from 19.6 +/- 2.9 to 84.3 +/- 1.9%. In contrast to the rapid release of encapsulated model drug from CS-TPP microparticles, the composite CS-HNTs microparticles released drug in a sustained manner, showing the best fit to the Bhaskar model. The results presented here imply that HNTs could be used to improve morphology, encapsulation efficiency and sustained drug-release properties of CS microparticles cross-linked ionically with TPP.",
publisher = "Mineralogical Soc, Twickenham",
journal = "Clay Minerals",
title = "Ionically cross-linked chitosan-halloysite composite microparticles for sustained drug release",
pages = "426-413",
number = "4",
volume = "52",
doi = "10.1180/claymin.2017.052.04.01",
url = "conv_823"
}

Calija, B., Milić, J., Janićijević, J., Daković, A.,& Krajišnik, D.. (2017). Ionically cross-linked chitosan-halloysite composite microparticles for sustained drug release. in Clay Minerals
Mineralogical Soc, Twickenham., 52(4), 413-426.
https://doi.org/10.1180/claymin.2017.052.04.01
conv_823

Calija B, Milić J, Janićijević J, Daković A, Krajišnik D. Ionically cross-linked chitosan-halloysite composite microparticles for sustained drug release. in Clay Minerals. 2017;52(4):413-426.
doi:10.1180/claymin.2017.052.04.01
conv_823 .

Calija, Bojan, Milić, Jela, Janićijević, Jelena, Daković, Aleksandra, Krajišnik, Danina, "Ionically cross-linked chitosan-halloysite composite microparticles for sustained drug release" in Clay Minerals, 52, no. 4 (2017):413-426,
https://doi.org/10.1180/claymin.2017.052.04.01 .,
conv_823 .

TY  - JOUR
AU  - Krajišnik, Danina
AU  - Daković, Aleksandra
AU  - Malenović, Anđelija
AU  - Kragović, Milan
AU  - Milić, Jela
PY  - 2015
UR  - https://ritnms.itnms.ac.rs/handle/123456789/348
AB  - The sorption of ibuprofen by modified natural zeolite composites at three concentration levels (10, 20 and 30 mmol/100 g) of cationic surfactants - benzalkonium chloride and cetylpyridinium chloride, in a buffer solution (pH 7.4), was studied. Characterization of the composites before and after ibuprofen sorption was performed by drug sorption and isotherm studies, zeta potential and Fourier Transform infrared spectroscopic analysis. The biopharmaceutical performance of cationic surfactant-modified zeolites as drug formulation excipients was evaluated by in vitro dissolution experiments from the composites with medium surfactant contents. The drug sorption was influenced by the surfactant type and amount used for the zeolite modification. Prolonged drug release over a period of 8 h (up to similar to 40%) was achieved with both groups of samples. The kinetic analysis showed that the drug release profiles were best fitted with the Higuchi and the Bhaskar models, indicating a combination of drug diffusion and ion exchange as the predominant release mechanisms.
PB  - Mineralogical Soc, Twickenham
T2  - Clay Minerals
T1  - Ibuprofen sorption and release by modified natural zeolites as prospective drug carriers
EP  - 22
IS  - 1
SP  - 11
VL  - 50
DO  - 10.1180/claymin.2015.050.1.02
UR  - conv_740
ER  - 

@article{
author = "Krajišnik, Danina and Daković, Aleksandra and Malenović, Anđelija and Kragović, Milan and Milić, Jela",
year = "2015",
abstract = "The sorption of ibuprofen by modified natural zeolite composites at three concentration levels (10, 20 and 30 mmol/100 g) of cationic surfactants - benzalkonium chloride and cetylpyridinium chloride, in a buffer solution (pH 7.4), was studied. Characterization of the composites before and after ibuprofen sorption was performed by drug sorption and isotherm studies, zeta potential and Fourier Transform infrared spectroscopic analysis. The biopharmaceutical performance of cationic surfactant-modified zeolites as drug formulation excipients was evaluated by in vitro dissolution experiments from the composites with medium surfactant contents. The drug sorption was influenced by the surfactant type and amount used for the zeolite modification. Prolonged drug release over a period of 8 h (up to similar to 40%) was achieved with both groups of samples. The kinetic analysis showed that the drug release profiles were best fitted with the Higuchi and the Bhaskar models, indicating a combination of drug diffusion and ion exchange as the predominant release mechanisms.",
publisher = "Mineralogical Soc, Twickenham",
journal = "Clay Minerals",
title = "Ibuprofen sorption and release by modified natural zeolites as prospective drug carriers",
pages = "22-11",
number = "1",
volume = "50",
doi = "10.1180/claymin.2015.050.1.02",
url = "conv_740"
}

Krajišnik, D., Daković, A., Malenović, A., Kragović, M.,& Milić, J.. (2015). Ibuprofen sorption and release by modified natural zeolites as prospective drug carriers. in Clay Minerals
Mineralogical Soc, Twickenham., 50(1), 11-22.
https://doi.org/10.1180/claymin.2015.050.1.02
conv_740

Krajišnik D, Daković A, Malenović A, Kragović M, Milić J. Ibuprofen sorption and release by modified natural zeolites as prospective drug carriers. in Clay Minerals. 2015;50(1):11-22.
doi:10.1180/claymin.2015.050.1.02
conv_740 .

Krajišnik, Danina, Daković, Aleksandra, Malenović, Anđelija, Kragović, Milan, Milić, Jela, "Ibuprofen sorption and release by modified natural zeolites as prospective drug carriers" in Clay Minerals, 50, no. 1 (2015):11-22,
https://doi.org/10.1180/claymin.2015.050.1.02 .,
conv_740 .

TY  - JOUR
AU  - Janićijević, Jelena
AU  - Krajišnik, Danina
AU  - Calija, Bojan
AU  - Nedić-Vasiljević, Bojana
AU  - Dobričić, Vladimir
AU  - Daković, Aleksandra
AU  - Antonijević, Milan D.
AU  - Milić, Jela
PY  - 2015
UR  - https://ritnms.itnms.ac.rs/handle/123456789/341
AB  - Diatomite makes a promising candidate for a drug carrier because of its high porosity, large surface area, modifiable surface chemistry and biocompatibility. Herein, refined diatomite from Kolubara coal basin, which complied with the pharmacopoeial requirements for heavy metals content and microbiological quality, was used as a starting material. Inorganic modification of the starting material was performed through a simple, one-step procedure. Significant increase in adsorbent loading with diclofenac sodium (DS) was achieved after the modification process (similar to 373 mg/g) which enabled the preparation of comprimates containing therapeutic dose of the adsorbed drug. Adsorption of DS onto modified diatomite resulted in the alteration of the drug's XRD pattern and FTIR spectrum. In vitro drug release studies in phosphate buffer pH 7.5 demonstrated prolonged DS release over 8 h from comprimates containing DS adsorbed on modified diatomite (up to 37% after 8 h) and those containing physical mixture of the same composition (up to 45% after 8 h). The results of in vivo toxicity testing on mice pointed on potential safety of both unmodified (starting) and modified diatomite. All these findings favor the application of diatomite as a potential functional drug carrier.
PB  - Elsevier, Amsterdam
T2  - International Journal of Pharmaceutics
T1  - Modified local diatomite as potential functional drug carrier-A model study for diclofenac sodium
EP  - 474
IS  - 2
SP  - 466
VL  - 496
DO  - 10.1016/j.ijpharm.2015.10.047
UR  - conv_747
ER  - 

@article{
author = "Janićijević, Jelena and Krajišnik, Danina and Calija, Bojan and Nedić-Vasiljević, Bojana and Dobričić, Vladimir and Daković, Aleksandra and Antonijević, Milan D. and Milić, Jela",
year = "2015",
abstract = "Diatomite makes a promising candidate for a drug carrier because of its high porosity, large surface area, modifiable surface chemistry and biocompatibility. Herein, refined diatomite from Kolubara coal basin, which complied with the pharmacopoeial requirements for heavy metals content and microbiological quality, was used as a starting material. Inorganic modification of the starting material was performed through a simple, one-step procedure. Significant increase in adsorbent loading with diclofenac sodium (DS) was achieved after the modification process (similar to 373 mg/g) which enabled the preparation of comprimates containing therapeutic dose of the adsorbed drug. Adsorption of DS onto modified diatomite resulted in the alteration of the drug's XRD pattern and FTIR spectrum. In vitro drug release studies in phosphate buffer pH 7.5 demonstrated prolonged DS release over 8 h from comprimates containing DS adsorbed on modified diatomite (up to 37% after 8 h) and those containing physical mixture of the same composition (up to 45% after 8 h). The results of in vivo toxicity testing on mice pointed on potential safety of both unmodified (starting) and modified diatomite. All these findings favor the application of diatomite as a potential functional drug carrier.",
publisher = "Elsevier, Amsterdam",
journal = "International Journal of Pharmaceutics",
title = "Modified local diatomite as potential functional drug carrier-A model study for diclofenac sodium",
pages = "474-466",
number = "2",
volume = "496",
doi = "10.1016/j.ijpharm.2015.10.047",
url = "conv_747"
}

Janićijević, J., Krajišnik, D., Calija, B., Nedić-Vasiljević, B., Dobričić, V., Daković, A., Antonijević, M. D.,& Milić, J.. (2015). Modified local diatomite as potential functional drug carrier-A model study for diclofenac sodium. in International Journal of Pharmaceutics
Elsevier, Amsterdam., 496(2), 466-474.
https://doi.org/10.1016/j.ijpharm.2015.10.047
conv_747

Janićijević J, Krajišnik D, Calija B, Nedić-Vasiljević B, Dobričić V, Daković A, Antonijević MD, Milić J. Modified local diatomite as potential functional drug carrier-A model study for diclofenac sodium. in International Journal of Pharmaceutics. 2015;496(2):466-474.
doi:10.1016/j.ijpharm.2015.10.047
conv_747 .

Janićijević, Jelena, Krajišnik, Danina, Calija, Bojan, Nedić-Vasiljević, Bojana, Dobričić, Vladimir, Daković, Aleksandra, Antonijević, Milan D., Milić, Jela, "Modified local diatomite as potential functional drug carrier-A model study for diclofenac sodium" in International Journal of Pharmaceutics, 496, no. 2 (2015):466-474,
https://doi.org/10.1016/j.ijpharm.2015.10.047 .,
conv_747 .

TY  - JOUR
AU  - Janićijević, Jelena
AU  - Krajišnik, Danina
AU  - Calija, Bojan
AU  - Dobričić, Vladimir
AU  - Daković, Aleksandra
AU  - Krstić, Jugoslav
AU  - Marković, Marija
AU  - Milić, Jela
PY  - 2014
UR  - https://ritnms.itnms.ac.rs/handle/123456789/321
AB  - Inorganic modification of diatomite was performed with the precipitation product of partially neutralized aluminum sulfate solution at three different mass ratios. The starting and the modified diatomites were characterized by SEM-EDS, FTIR, thermal analysis and zeta potential measurements and evaluated for drug loading capacity in adsorption batch experiments using diclofenac sodium (DS) as a model drug. In vitro drug release studies were performed in phosphate buffer pH 6.8 from comprimates containing: the drug adsorbed onto the selected modified diatomite sample (DAMD), physical mixture of the drug with the selected modified diatomite sample (PMDMD) and physical mixture of the drug with the starting diatomite (PMDD). In vivo acute toxicity testing of the modified diatomite samples was performed on mice. High adsorbent loading of the selected modified diatomite sample (similar to 250 mg/g in 2 h) enabled the preparation of comprimates containing adsorbed DS in the amount near to its therapeutic dose. Drug release studies demonstrated prolonged release of DS over a period of 8 h from both DAMD comprimates (18% after 8 h) and PMDMD comprimates (45% after 8 h). The release kinetics for DAMD and PMDMD comprimates fitted well with Korsmeyer-Peppas and Bhaskar models, indicating that the release mechanism was a combination of non-Fickian diffusion and ion exchange process.
PB  - Elsevier, Amsterdam
T2  - Materials Science & Engineering C-Materials for Biological Applications
T1  - Inorganically modified diatomite as a potential prolonged-release drug carrier
EP  - 420
SP  - 412
VL  - 42
DO  - 10.1016/j.msec.2014.05.052
UR  - conv_701
ER  - 

@article{
author = "Janićijević, Jelena and Krajišnik, Danina and Calija, Bojan and Dobričić, Vladimir and Daković, Aleksandra and Krstić, Jugoslav and Marković, Marija and Milić, Jela",
year = "2014",
abstract = "Inorganic modification of diatomite was performed with the precipitation product of partially neutralized aluminum sulfate solution at three different mass ratios. The starting and the modified diatomites were characterized by SEM-EDS, FTIR, thermal analysis and zeta potential measurements and evaluated for drug loading capacity in adsorption batch experiments using diclofenac sodium (DS) as a model drug. In vitro drug release studies were performed in phosphate buffer pH 6.8 from comprimates containing: the drug adsorbed onto the selected modified diatomite sample (DAMD), physical mixture of the drug with the selected modified diatomite sample (PMDMD) and physical mixture of the drug with the starting diatomite (PMDD). In vivo acute toxicity testing of the modified diatomite samples was performed on mice. High adsorbent loading of the selected modified diatomite sample (similar to 250 mg/g in 2 h) enabled the preparation of comprimates containing adsorbed DS in the amount near to its therapeutic dose. Drug release studies demonstrated prolonged release of DS over a period of 8 h from both DAMD comprimates (18% after 8 h) and PMDMD comprimates (45% after 8 h). The release kinetics for DAMD and PMDMD comprimates fitted well with Korsmeyer-Peppas and Bhaskar models, indicating that the release mechanism was a combination of non-Fickian diffusion and ion exchange process.",
publisher = "Elsevier, Amsterdam",
journal = "Materials Science & Engineering C-Materials for Biological Applications",
title = "Inorganically modified diatomite as a potential prolonged-release drug carrier",
pages = "420-412",
volume = "42",
doi = "10.1016/j.msec.2014.05.052",
url = "conv_701"
}

Janićijević, J., Krajišnik, D., Calija, B., Dobričić, V., Daković, A., Krstić, J., Marković, M.,& Milić, J.. (2014). Inorganically modified diatomite as a potential prolonged-release drug carrier. in Materials Science & Engineering C-Materials for Biological Applications
Elsevier, Amsterdam., 42, 412-420.
https://doi.org/10.1016/j.msec.2014.05.052
conv_701

Janićijević J, Krajišnik D, Calija B, Dobričić V, Daković A, Krstić J, Marković M, Milić J. Inorganically modified diatomite as a potential prolonged-release drug carrier. in Materials Science & Engineering C-Materials for Biological Applications. 2014;42:412-420.
doi:10.1016/j.msec.2014.05.052
conv_701 .

Janićijević, Jelena, Krajišnik, Danina, Calija, Bojan, Dobričić, Vladimir, Daković, Aleksandra, Krstić, Jugoslav, Marković, Marija, Milić, Jela, "Inorganically modified diatomite as a potential prolonged-release drug carrier" in Materials Science & Engineering C-Materials for Biological Applications, 42 (2014):412-420,
https://doi.org/10.1016/j.msec.2014.05.052 .,
conv_701 .

TY  - JOUR
AU  - Krajišnik, Danina
AU  - Daković, Aleksandra
AU  - Malenović, Anđelija
AU  - Đekić, Ljiljana
AU  - Kragović, Milan
AU  - Dobričić, Vladimir
AU  - Milić, Jela
PY  - 2013
UR  - https://ritnms.itnms.ac.rs/handle/123456789/253
AB  - In this paper, investigations of zeolite - cationic surfactant - drug composites as drug carriers were performed. For that purpose, after adsorption of the model drug - diclofenac sodium (DS) onto composites obtained by the modification of natural zeolite (NZ) with cetylpyridinium chloride (CPC) at the three different levels, i.e., 10, 20 and 30 mmol/100 g (ZCPC-10, ZCPC-20 and ZCPC-30, respectively), the release of the drug, at pH 6.8, was studied. The results of DS release from ZCPC-10 composite (DS/ZCPC-10) were compared with the DS release from corresponding physical mixture, as well as from physical mixture of NZ and DS. Characterization of the composites after adsorption of DS and the physical mixtures was realized by zeta potential measurements and by thermal analysis. Results showed that the prolonged release of DS from all the three composites, as well as from physical mixture containing ZCPC-10 and DS was achieved over a period of 8 h. The drug release from both DS/ZCPC-10 (max 55%) and corresponding physical mixture (max 38%) was remarkably lower than that from the physical mixture of NZ and DS (max 85%). The kinetic analysis for all the three composites, as well as for the physical mixture of ZCPC-10 and DS, showed that drug release profiles were best fitted with the Korsmeyer-Peppas and Bhaskar release models, indicating a combination of drug diffusion and ion exchange as the predominant release mechanisms in the dissolution medium.
PB  - Elsevier Science Bv, Amsterdam
T2  - Microporous and Mesoporous Materials
T1  - An investigation of diclofenac sodium release from cetylpyridinium chloride-modified natural zeolite as a pharmaceutical excipient
EP  - 101
SP  - 94
VL  - 167
DO  - 10.1016/j.micromeso.2012.03.033
UR  - conv_645
ER  - 

@article{
author = "Krajišnik, Danina and Daković, Aleksandra and Malenović, Anđelija and Đekić, Ljiljana and Kragović, Milan and Dobričić, Vladimir and Milić, Jela",
year = "2013",
abstract = "In this paper, investigations of zeolite - cationic surfactant - drug composites as drug carriers were performed. For that purpose, after adsorption of the model drug - diclofenac sodium (DS) onto composites obtained by the modification of natural zeolite (NZ) with cetylpyridinium chloride (CPC) at the three different levels, i.e., 10, 20 and 30 mmol/100 g (ZCPC-10, ZCPC-20 and ZCPC-30, respectively), the release of the drug, at pH 6.8, was studied. The results of DS release from ZCPC-10 composite (DS/ZCPC-10) were compared with the DS release from corresponding physical mixture, as well as from physical mixture of NZ and DS. Characterization of the composites after adsorption of DS and the physical mixtures was realized by zeta potential measurements and by thermal analysis. Results showed that the prolonged release of DS from all the three composites, as well as from physical mixture containing ZCPC-10 and DS was achieved over a period of 8 h. The drug release from both DS/ZCPC-10 (max 55%) and corresponding physical mixture (max 38%) was remarkably lower than that from the physical mixture of NZ and DS (max 85%). The kinetic analysis for all the three composites, as well as for the physical mixture of ZCPC-10 and DS, showed that drug release profiles were best fitted with the Korsmeyer-Peppas and Bhaskar release models, indicating a combination of drug diffusion and ion exchange as the predominant release mechanisms in the dissolution medium.",
publisher = "Elsevier Science Bv, Amsterdam",
journal = "Microporous and Mesoporous Materials",
title = "An investigation of diclofenac sodium release from cetylpyridinium chloride-modified natural zeolite as a pharmaceutical excipient",
pages = "101-94",
volume = "167",
doi = "10.1016/j.micromeso.2012.03.033",
url = "conv_645"
}

Krajišnik, D., Daković, A., Malenović, A., Đekić, L., Kragović, M., Dobričić, V.,& Milić, J.. (2013). An investigation of diclofenac sodium release from cetylpyridinium chloride-modified natural zeolite as a pharmaceutical excipient. in Microporous and Mesoporous Materials
Elsevier Science Bv, Amsterdam., 167, 94-101.
https://doi.org/10.1016/j.micromeso.2012.03.033
conv_645

Krajišnik D, Daković A, Malenović A, Đekić L, Kragović M, Dobričić V, Milić J. An investigation of diclofenac sodium release from cetylpyridinium chloride-modified natural zeolite as a pharmaceutical excipient. in Microporous and Mesoporous Materials. 2013;167:94-101.
doi:10.1016/j.micromeso.2012.03.033
conv_645 .

Krajišnik, Danina, Daković, Aleksandra, Malenović, Anđelija, Đekić, Ljiljana, Kragović, Milan, Dobričić, Vladimir, Milić, Jela, "An investigation of diclofenac sodium release from cetylpyridinium chloride-modified natural zeolite as a pharmaceutical excipient" in Microporous and Mesoporous Materials, 167 (2013):94-101,
https://doi.org/10.1016/j.micromeso.2012.03.033 .,
conv_645 .

TY  - JOUR
AU  - Krajišnik, Danina
AU  - Daković, Aleksandra
AU  - Malenović, Anđelija
AU  - Milojević-Rakić, Maja
AU  - Dondur, Vera
AU  - Radulović, Željka
AU  - Millc, Jela
PY  - 2013
UR  - https://ritnms.itnms.ac.rs/handle/123456789/261
AB  - Results on adsorption of diclofenac sodium (DS) by modified natural zeolite composites at three levels (10,20 and 30 mmol/100 g) of cationic surfactant-hexadecyltrimethylammonium bromide (HB), in a buffer solution, were compared. Characterization of composites before and after drug adsorption was performed by determination of electrokinetic mobility, FTIR and thermal analysis. The results indicated interactions between drug and carriers. The pharmaceutical performance of cationic surfactant-modified zeolites as drug formulation excipients was evaluated by in vitro dissolution experiments. The results were compared with the drug release from corresponding physical mixtures. Prolonged drug release over a period of 8 h (up to 30%) was achieved with both groups of samples. Furthermore, DS release reached up to 85% from physical mixtures containing drug amount closer to a therapeutic dose.
PB  - Elsevier Science Bv, Amsterdam
T2  - Applied Clay Science
T1  - Investigation of adsorption and release of diclofenac sodium by modified zeolites composites
EP  - 326
SP  - 322
VL  - 83-84
DO  - 10.1016/j.clay.2013.08.011
UR  - conv_671
ER  - 

@article{
author = "Krajišnik, Danina and Daković, Aleksandra and Malenović, Anđelija and Milojević-Rakić, Maja and Dondur, Vera and Radulović, Željka and Millc, Jela",
year = "2013",
abstract = "Results on adsorption of diclofenac sodium (DS) by modified natural zeolite composites at three levels (10,20 and 30 mmol/100 g) of cationic surfactant-hexadecyltrimethylammonium bromide (HB), in a buffer solution, were compared. Characterization of composites before and after drug adsorption was performed by determination of electrokinetic mobility, FTIR and thermal analysis. The results indicated interactions between drug and carriers. The pharmaceutical performance of cationic surfactant-modified zeolites as drug formulation excipients was evaluated by in vitro dissolution experiments. The results were compared with the drug release from corresponding physical mixtures. Prolonged drug release over a period of 8 h (up to 30%) was achieved with both groups of samples. Furthermore, DS release reached up to 85% from physical mixtures containing drug amount closer to a therapeutic dose.",
publisher = "Elsevier Science Bv, Amsterdam",
journal = "Applied Clay Science",
title = "Investigation of adsorption and release of diclofenac sodium by modified zeolites composites",
pages = "326-322",
volume = "83-84",
doi = "10.1016/j.clay.2013.08.011",
url = "conv_671"
}

Krajišnik, D., Daković, A., Malenović, A., Milojević-Rakić, M., Dondur, V., Radulović, Ž.,& Millc, J.. (2013). Investigation of adsorption and release of diclofenac sodium by modified zeolites composites. in Applied Clay Science
Elsevier Science Bv, Amsterdam., 83-84, 322-326.
https://doi.org/10.1016/j.clay.2013.08.011
conv_671

Krajišnik D, Daković A, Malenović A, Milojević-Rakić M, Dondur V, Radulović Ž, Millc J. Investigation of adsorption and release of diclofenac sodium by modified zeolites composites. in Applied Clay Science. 2013;83-84:322-326.
doi:10.1016/j.clay.2013.08.011
conv_671 .

Krajišnik, Danina, Daković, Aleksandra, Malenović, Anđelija, Milojević-Rakić, Maja, Dondur, Vera, Radulović, Željka, Millc, Jela, "Investigation of adsorption and release of diclofenac sodium by modified zeolites composites" in Applied Clay Science, 83-84 (2013):322-326,
https://doi.org/10.1016/j.clay.2013.08.011 .,
conv_671 .