Your search keyword '"Marija Petrusevska"' showing total 4 results

1. Hydroxypropyl Methylcellulose Mediated Precipitation Inhibition of Sirolimus: From a Screening Campaign to a Proof-of-Concept Human Study

Author

Uroš Urleb, Marija Petrusevska, Miha Homar, Darko Kocjan, Luka Peternel, Boštjan Petek, and Aleksander Resman

Subjects

Sirolimus, Supersaturation, Chromatography, Calorimetry, Differential Scanning, Spectrophotometry, Infrared, Chemistry, Precipitation (chemistry), Chemistry, Pharmaceutical, Cmax, Pharmaceutical Science, Absorption (skin), Methylcellulose, equipment and supplies, Hypromellose Derivatives, Pharmacokinetics, Drug Discovery, Poloxamer 407, medicine, Humans, Molecular Medicine, cardiovascular diseases, medicine.drug

Abstract

The aim of this study was to develop a sirolimus (BCS class II drug substance) solid oral dosage form containing a precipitation inhibitor, which would result in an improved sirolimus absorption in humans compared to the formulation containing nanosized sirolimus without a precipitation inhibitor, i.e., Rapamune. The selection of the precipitation inhibitor was based on the results of a screening campaign that identified two "hit" excipients: HPMC 603 (i.e., Pharmacoat 603) and Poloxamer 407. However, in a confirmatory precipitation inhibitor study using biorelevant media (Fa/FeSSIF) HPMC 603 more effectively inhibited sirolimus precipitation than Poloxamer 407. In the PAMPA assay, HPMC 603, but not Poloxamer 407, significantly increased the flux of the sirolimus across the membrane lipid layer. Additionally, a differential scanning calorimetry (DSC) and an infrared (IR) spectroscopy study revealed that interactions between the sirolimus and HPMC 603 were developed that could lead to the observed precipitation inhibition effect. Based on the above data, two formulations with HPMC 603-coated sirolimus particles were developed, namely, formulation A (d (0.5) = 0.21 μm) and formulation B (d (0.5) = 1.7 μm). A human pharmacokinetic study outlined that significantly higher AUC and Cmax were obtained for formulations A and B in comparison to Rapamune. This result could be attributed to the HPMC 603 (Pharmacoat 603) mediated sirolimus precipitation inhibition resulting in improved sirolimus absorption from the gastrointestinal tract in humans.

Published

2013

2. Formulation and characterization of ORMOSIL particles loaded with budesonide for local colonic delivery

Author

Marina Chachorovska, Ana Poceva-Panovska, Gjorgji Petruševski, Marija Glavas-Dodov, Kristina Mladenovska, Oya Memed, Nikola Geskovski, Maja Simonoska Crcarevska, Marija Petrusevska, Sonja Ugarkovic, and Vesna Petrovska-Jovanovska

Subjects

Budesonide, Siloxanes, Colon, Chemistry, Pharmaceutical, Pharmaceutical Science, engineering.material, Ormosil, chemistry.chemical_compound, Drug Delivery Systems, Coating, medicine, Organic chemistry, Animals, Small particles, Surface charge, Particle Size, Rats, Wistar, Mean diameter, Tetraethyl orthosilicate, Rats, chemistry, engineering, Ph range, Female, Nuclear chemistry, medicine.drug

Abstract

In this study, hybrid silica xerogel particles were developed as carriers of budesonide (BDS) for efficient local treatment of inflammatory bowel diseases (IBD). Organically modified silica particles (ORMOSILs) were prepared by co-condensation of 3-aminopropyltriethoxysilane (APTES) and tetraethyl orthosilicate (TEOS) by an ambient temperature acid catalysed sol-gel process followed by spray-drying. Formulation for preparation of BDS-loaded particles was optimized and their physicochemical parameters and drug release profiles were evaluated in vitro. Optimal formulation had a small particle size (mean diameter of 1.45±0.02μm) with unimodal narrow size distribution and high encapsulation efficiency (98.0 ± 1.85%). Due to the positive surface charge originated from amino group of APTES, ORMOSILs showed excessive mucoadhesiveness in comparison to native TEOS particles. The drug release decreased with increasing pH from 2.0 to 7.4. In order to avoid undesirable erroneous performance in the upper GI tract, particles were additionally coated with Eudragit(®) FS 30D, as a barrier to the drug release at pH range from 2.0 to 7.0. After Eudragit(®) FS 30D coating, the release of BDS in acidic media was sustained, while no significant differences in drug release were observed at pH 7.4. In conclusion, pH-responsive ORMOSILs showed great potential for efficient BDS delivery to the colon region.

Published

2014

3. Biowaiver Monographs for Immediate Release Solid Oral Dosage Forms: Levetiracetam

Author

Igor Legen, Sabine Kopp, Bertil Abrahamsson, Luka Peternel, Klara Megušar, D.W. Groot, Igor Krisch, Rodrigo Cristofoletti, Mehul Mehta, Vinod P. Shah, Sandra Berglez, James E. Polli, Peter Langguth, Marija Petrusevska, and Jennifer B. Dressman

Subjects

Dosage Forms, Solid oral dosage form, Levetiracetam, Chemistry, Chemistry, Pharmaceutical, Pharmaceutical Science, Biological Availability, Pharmacology, Bioequivalence, Piracetam, Dosage form, Permeability, Biopharmaceutics, Reference product, Biopharmaceutical, Therapeutic Equivalency, medicine, Animals, Humans, Anticonvulsants, Immediate release, medicine.drug

Abstract

Literature and experimental data relevant for the decision to allow a waiver of in vivo bioequivalence (BE) testing for the approval of immediate release (IR) solid oral dosage forms containing levetiracetam are reviewed. Data on solubility and permeability suggest that levetiracetam belongs to class I of the biopharmaceutical classification system (BCS). Levetiracetam's therapeutic use, its wide therapeutic index, and its favorable pharmacokinetic properties make levetiracetam a valid candidate for the BCS-based biowaiver approach. Further, no BE studies with levetiracetam IR formulations in which the test formulation failed to show BE with the comparator have been reported in the open literature. On the basis of the overall evidence, it appears unlikely that a BCS-based biowaiver approach for levetiracetam IR solid oral dosage forms formulated with established excipients would expose patients to undue risks. Thus, the BCS-based biowaiver approach procedure is recommended for IR solid oral dosage form containing levetiracetam, provided the excipients in the formulation are also present in products that have been approved in countries belonging to or associated with the International Committee on Harmonization and are used in their usual quantities, and provided the dissolution profiles of the test and reference product comply with the current requirements for BCS-based biowaivers.

Published

2014

4. Evaluation of the light scattering and the turbidity microtiter plate-based methods for the detection of the excipient-mediated drug precipitation inhibition

Author

Uroš Urleb, Luka Peternel, and Marija Petrusevska

Subjects

Light, Chemistry, Pharmaceutical, Analytical chemistry, Pharmaceutical Science, Excipient, Administration, Oral, Biological Availability, Light scattering, Excipients, Microtiter plate, Fenofibrate, Nephelometry and Turbidimetry, False positive paradox, medicine, Chemical Precipitation, Scattering, Radiation, Technology, Pharmaceutical, False Positive Reactions, Turbidity, Chromatography, Nephelometer, Chemistry, Precipitation (chemistry), Lasers, Reproducibility of Results, General Medicine, Dipyridamole, Hydrogen-Ion Concentration, Solubility, Area Under Curve, Calibration, Plate reader, Biotechnology, medicine.drug

Abstract

The excipient-mediated precipitation inhibition is classically determined by the quantification of the dissolved compound in the solution. In this study, two alternative approaches were evaluated, one is the light scattering (nephelometer) and other is the turbidity (plate reader) microtiter plate-based methods which are based on the quantification of the compound precipitate. Following the optimization of the nephelometer settings (beam focus, laser gain) and the experimental conditions, the screening of 23 excipients on the precipitation inhibition of poorly soluble fenofibrate and dipyridamole was performed. The light scattering method resulted in excellent correlation (r>0.91) between the calculated precipitation inhibitor parameters (PIPs) and the precipitation inhibition index (PI(classical)) obtained by the classical approach for fenofibrate and dipyridamole. Among the evaluated PIPs AUC100 (nephelometer) resulted in only four false positives and lack of false negatives. In the case of the turbidity-based method a good correlation of the PI(classical) was obtained for the PIP maximal optical density (OD(max), r=0.91), however, only for fenofibrate. In the case of the OD(max) (plate reader) five false positives and two false negatives were identified. In conclusion, the light scattering-based method outperformed the turbidity-based one and could be reliably used for identification of novel precipitation inhibitors.

Published

2013