Your search keyword '"Bartos, Csilla"' showing total 7 results

1. Formulation and investigation of differently charged β-cyclodextrin-based meloxicam potassium containing nasal powders.

Author

Varga P, Németh A, Zeiringer S, Roblegg E, Budai-Szűcs M, Balla-Bartos C, and Ambrus R

Subjects

Humans, Anti-Inflammatory Agents, Non-Steroidal chemistry, Anti-Inflammatory Agents, Non-Steroidal administration & dosage, Anti-Inflammatory Agents, Non-Steroidal pharmacokinetics, Nasal Mucosa metabolism, Cell Line, Drug Compounding methods, Polyvinyl Alcohol chemistry, Permeability, Thiazines chemistry, Thiazines administration & dosage, Thiazines pharmacokinetics, Chemistry, Pharmaceutical methods, Particle Size, Meloxicam chemistry, Meloxicam administration & dosage, beta-Cyclodextrins chemistry, Administration, Intranasal, Powders, Drug Liberation, Excipients chemistry

Abstract

Nasal systemic drug delivery may provide an easy way to substitute parenteral or oral dosing, however, the excipients have an important role in nasal formulations to increase the permeability of the mucosa and prolong the residence time of the drug. In this work, we aimed to produce meloxicam potassium monohydrate (MXP) containing nasal powders by a nano spray drier with the use of a neutral, an anionic and a cationic β-cyclodextrin as permeation enhancers, and (polyvinyl)alcohol (PVA) as a water soluble polymer. The following examinations were performed in order to study the effect of the applied excipients on the nasal applicability of the formulations: laser scattering, scanning electron microscope measurement, XRPD, DSC and FTIR measurements, adhesivity, in vitro drug release and permeability tests through an artificial membrane and RPMI 2650 cells. Based on our results, spherical particles were prepared with a size of 1.89-2.21 µm in which MXP was present in an amorphous state. Secondary interactions were formed between the excipients and the drug. The charged cyclodextrin-based formulations showed significantly higher adhesive force values regardless of the presence of PVA. The drug release was fast and complete. The passive diffusion of MXP was influenced not only by the charge of the cyclodextrin, but the presence of PVA, too. The permeation of the drug was enhanced in the presence of the anionic cyclodextrin testing it on RPMI 2650 cell model., (Copyright © 2024. Published by Elsevier B.V.)

Published

2024

2. Study of sodium hyaluronate-based intranasal formulations containing micro- or nanosized meloxicam particles.

Author

Bartos, Csilla, Ambrus, Rita, Sipos, Péter, Budai-Szűcs, Mária, Csányi, Erzsébet, Gáspár, Róbert, Márki, Árpád, Seres, Adrienn B., Sztojkov-Ivanov, Anita, Horváth, Tamás, and Szabó-Révész, Piroska

Subjects

*INTRANASAL medication, *NANOPARTICLES, *ADHESIVES, *HYALURONIC acid, *DRUG synthesis, *DISPERSION (Chemistry)

Abstract

This article reports on the micro- and nanonization of meloxicam (MEL) with the aim of developing pre-dispersions as intermediates for the design of intranasal formulations. As a new approach, combined wet milling technology was developed in order to reduce the particle size of the MEL. Different milling times resulted in micro- or nanosized MEL in the pre-dispersions with polyvinyl alcohol as stabilizer agent, which were directly used for preparing intranasal liquid formulations with the addition of sodium hyaluronate as mucoadhesive agent. Reduction of the MEL particle size into the nano range led to increased saturation solubility and dissolution velocities, and increased adhesiveness to surfaces as compared with microsized MEL particles. A linear correlation was demonstrated between the specific surface area of MEL and the AUC. The in vitro and in vivo studies indicated that the longer residence time and the uniform distribution of nano MEL spray throughout an artificial membrane and the nasal mucosa resulted in better diffusion and a higher AUC. Nanosized MEL may be suggested for the development of an innovative dosage form with a different dose of the drug, as a possible administration route for pain management. [ABSTRACT FROM AUTHOR]

Published

2015

3. Smartcrystals for Efficient Dissolution of Poorly Water-Soluble Meloxicam.

Author

Ambrus, Rita, Alshweiat, Areen, Szabó-Révész, Piroska, Bartos, Csilla, and Csóka, Ildikó

Subjects

NANOCRYSTALS, TREHALOSE, MANNITOL, AMORPHIZATION, CRYSTALLINITY, FREEZE-drying

Abstract

Nanocrystal is widely applied to improve the dissolution of poorly water-soluble drugs. We aimed to prepare meloxicam (MLX) nanocrystals using the bead mill method, followed by high-pressure homogenization (HPH). Simple drying at room temperature (RD), vacuum-drying (VD), and freeze-drying (FD) using mannitol or trehalose as a cryoprotectant were applied to obtain dry nanocrystals. The nanocrystals were fully characterized. The MLX nanosuspension containing 5% w/v MLX and 1% w/v of Pluronic F68 showing a mean particle size (MPS) of 242 nm and a polydispersity index (PDI) of 0.36 was prepared after 40 min of premilling and 30 min of HPH. The dried nanocrystals were spherical within the nano range. DSC and XRPD confirmed the absence of MLX amorphization. The smartcrystals showed enhanced MLX release. Approximately 100% release was achieved with phosphate buffer (PB), pH 5.6, and 80% was released with PB, pH 7.4, from the freeze-dried samples. The results revealed the effects of the drying method and cryoprotectant type on the properties of dry nanocrystals. The freeze-dried samples showed the smallest particle size, in particular trehalose-based samples. On the other hand, mannitol-based dried samples showed the highest crystallinity index among all nanocrystals (77.8%), whereas trehalose showed the lowest (59.2%). These factors explained the dissolution differences among the samples. [ABSTRACT FROM AUTHOR]

Published

2022

4. Physico-Chemical and In Vitro Characterization of Chitosan-Based Microspheres Intended for Nasal Administration.

Author

Bartos, Csilla, Varga, Patrícia, Szabó-Révész, Piroska, Ambrus, Rita, and Song, Im-Sook

Subjects

*INTRANASAL administration, *DRUG delivery systems, *NASAL mucosa, *MICROSPHERES, *DRUG bioavailability, *SKIN permeability, *DRUG infusion pumps, *CONTROLLED release drugs

Abstract

The absorption of non-steroidal anti-inflammatory drugs (NSAIDs) through the nasal epithelium offers an innovative opportunity in the field of pain therapy. Thanks to the bonding of chitosan to the nasal mucosa and its permeability-enhancing effect, it is an excellent choice to formulate microspheres for the increase of drug bioavailability. The aim of our work includes the preparation of spray-dried cross-linked and non-cross-linked chitosan-based drug delivery systems for intranasal application, the optimization of spray-drying process parameters (inlet air temperature, pump rate), and the composition of samples. Cross-linked products were prepared by using different amounts of sodium tripolyphosphate. On top of these, the micrometric properties, the structural characteristics, the in vitro drug release, and the in vitro permeability of the products were studied. Spray-drying resulted in micronized chitosan particles (2–4 μm) regardless of the process parameters. The meloxicam (MEL)-containing microspheres showed nearly spherical habit, while MEL was present in a molecularly dispersed state. The highest dissolved (>90%) and permeated (~45 µg/cm2) MEL amount was detected from the non-cross-linked sample. Our results indicate that spray-dried MEL-containing chitosan microparticles may be recommended for the development of a novel drug delivery system to decrease acute pain or enhance analgesia by intranasal application. [ABSTRACT FROM AUTHOR]

Published

2021

5. Formulation and In Vitro and In Silico Characterization of "Nano-in-Micro" Dry Powder Inhalers Containing Meloxicam.

Author

Party, Petra, Bartos, Csilla, Farkas, Árpád, Szabó-Révész, Piroska, Ambrus, Rita, and Sonvico, Fabio

Subjects

*INHALERS, *OBSTRUCTIVE lung diseases, *NANOCAPSULES, *NON-small-cell lung carcinoma, *POWDERS, *CYSTIC fibrosis, *PARTICULATE matter

Abstract

Pulmonary delivery has high bioavailability, a large surface area for absorption, and limited drug degradation. Particle engineering is important to develop inhalable formulations to improve the therapeutic effect. In our work, the poorly water-soluble meloxicam (MX) was used as an active ingredient, which could be useful for the treatment of non-small cell lung cancer, cystic fibrosis, and chronic obstructive pulmonary disease. We aimed to produce inhalable "nano-in-micro" dry powder inhalers (DPIs) containing MX and additives (poly-vinyl-alcohol, leucine). We targeted the respiratory zone with the microcomposites and reached a higher drug concentration with the nanonized active ingredient. We did the following investigations: particle size analysis, morphology, density, interparticular interactions, crystallinity, in vitro dissolution, in vitro permeability, in vitro aerodynamics (Andersen cascade impactor), and in silico aerodynamics (stochastic lung model). We worked out a preparation method by combining wet milling and spray-drying. We produced spherical, 3–4 µm sized particles built up by MX nanoparticles. The increased surface area and amorphization improved the dissolution and diffusion of the MX. The formulations showed appropriate aerodynamical properties: 1.5–2.4 µm MMAD and 72–76% fine particle fraction (FPF) values. The in silico measurements proved the deposition in the deeper airways. The samples were suitable for the treatment of local lung diseases. [ABSTRACT FROM AUTHOR]

Published

2021

6. Effect of solubility enhancement on nasal absorption of meloxicam.

Author

Horváth, Tamás, Ambrus, Rita, Völgyi, Gergely, Budai-Szűcs, Mária, Márki, Árpád, Sipos, Péter, Bartos, Csilla, Seres, Adrienn B., Sztojkov-Ivanov, Anita, Takács-Novák, Krisztina, Csányi, Erzsébet, Gáspár, Róbert, and Szabó-Révész, Piroska

Subjects

*NONSTEROIDAL anti-inflammatory agents, *PHARMACODYNAMICS, *DRUG formularies, *PAIN management, *PHARMACEUTICAL technology, *IN vitro studies

Abstract

Besides the opioids the standard management of the World Health Organization suggests NSAIDs (non-steroidal anti-inflammatory drugs) alone or in combination to enhance analgesia in malignant and non-malignant pain therapy. The applicability of NSAIDs in a nasal formulation is a new approach in pharmaceutical technology. In order to enhance the nasal absorption of meloxicam (MX) as an NSAID, its salt form, meloxicam potassium monohydrate (MXP), registered by Egis Plc., was investigated in comparison with MX. The physico-chemical properties of the drugs (structural analysis, solubility and dissolution rate) and the mucoadhesivity of nasal formulations were controlled. In vitro and in vivo studies were carried out to determine the nasal applicability of MXP as a drug candidate in pain therapy. It can be concluded that MX and MXP demonstrated the same equilibrium solubility at the pH 5.60 of the nasal mucosa (0.017 mg/ml); nonetheless, MXP indicated faster dissolution and a higher permeability through the synthetic membrane. The animal studies justified the short T max value (15 min) and the high AUC of MXP, which is important in acute pain therapy. It can be assumed that the low mucoadhesivity of MXP spray did not increase the residence time in the nasal cavity, and the elimination from the nasal mucosa was therefore faster than in the case of MX. Further experiments are necessary to prove the therapeutic relevance of this MXP-containing innovative intranasal formulation. [ABSTRACT FROM AUTHOR]

Published

2016

7. In vitro and in vivo characterization of meloxicam nanoparticles designed for nasal administration.

Author

Kürti, Levente, Gáspár, Róbert, Márki, Árpád, Kápolna, Emese, Bocsik, Alexandra, Veszelka, Szilvia, Bartos, Csilla, Ambrus, Rita, Vastag, Monika, Deli, Mária A., and Szabó-Révész, Piroska

Subjects

*NANOMEDICINE, *NONSTEROIDAL anti-inflammatory agents, *IN vitro studies, *NASAL cavity, *DRUG administration, *DRUG design, *DRUG delivery systems

Abstract

Abstract: The nasal pathway represents a non-invasive route for delivery of drugs to the systemic circulation. Nanonization of poorly soluble drugs offers a possibility to increase dissolution properties, epithelial permeability or even bioavailability. The aim of the present study was to use in vitro methods to screen formulations which were intended for nasal application, and to perform animal experiments for recognizing the differences in plasmakinetics of intranasal- and oral-administered meloxicam nanoparticles. Due to nanonization the solubility of meloxicam elevated up to 1.2mg/mL, additionally the extent of dissolution also increased, complete dissolution was observed in 15min. Favorable in vitro diffusion profile of meloxicam nanoparticles was observed and their epithelial permeability through human RPMI2650 cells was elevated. The pharmacokinetic parameters were significantly increased when meloxicam was administered as nanoparticles to rats either nasally (increase of C max 2.7-fold, AUC 1.5-fold) or orally (increase of C max 2.4-fold, AUC 2-fold) as compared to physical mixture of the drug and the excipients. [Copyright &y& Elsevier]

Published

2013