Szilvia Berkó scite author profile

Dermal and transdermal drug therapy is increasing in importance nowadays in drug development. To completely utilize the potential of this administration route, it is necessary to optimize the drug release and skin penetration measurements. This review covers the most well-known and up-to-date methods for evaluating the cutaneous penetration of drugs in vitro as a supporting tool for pharmaceutical research scientists in the early stage of drug development. The aim of this article is to present various experimental models used in dermal/transdermal research and summarize the novel knowledge about the main in vitro methods available to study skin penetration. These techniques are: Diffusion cell, skin-PAMPA, tape stripping, two-photon microscopy, confocal laser scanning microscopy, and confocal Raman microscopic method.

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Thiolated poly(aspartic acid) as potential in situ gelling, ocular mucoadhesive drug delivery system

Horvát

Gyarmati

Berkó

et al. 2015

European Journal of Pharmaceutical Sciences

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Development of nanostructured lipid carriers containing salicyclic acid for dermal use based on the Quality by Design method

Kovács

Berkó

Csányi

et al. 2017

European Journal of Pharmaceutical Sciences

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The aim of our present work was to evaluate the applicability of the Quality by Design (QbD) methodology in the development and optimalization of nanostructured lipid carriers containing salicyclic acid (NLC SA). Within the Quality by Design methology, special emphasis is layed on the adaptation of the initial risk assessment step in order to properly identify the critical material attributes and critical process parameters in formulation development. NLC SA products were formulated by the ultrasonication method using Compritol 888 ATO as solid lipid, Miglyol 812 as liquid lipid and Cremophor RH 60® as surfactant. LeanQbD Software and StatSoft. Inc. Statistica for Windows 11 were employed to indentify the risks. Three highly critical quality attributes (CQAs) for NLC SA were identified, namely particle size, particle size distribution and aggregation. Five attributes of medium influence were identified, including dissolution rate, dissolution efficiency, pH, lipid solubility of the active pharmaceutical ingredient (API) and entrapment efficiency. Three critical material attributes (CMA) and critical process parameters (CPP) were identified: surfactant concentration, solid lipid/liquid lipid ratio and ultrasonication time. The CMAs and CPPs are considered as independent variables and the CQAs are defined as dependent variables. The 2 factorial design was used to evaluate the role of the independent and dependent variables. Based on our experiments, an optimal formulation can be obtained when the surfactant concentration is set to 5%, the solid lipid/liquid lipid ratio is 7:3 and ultrasonication time is 20min. The optimal NLC SA showed narrow size distribution (0.857±0.014) with a mean particle size of 114±2.64nm. The NLC SA product showed a significantly higher in vitro drug release compared to the micro-particle reference preparation containing salicylic acid (MP SA).

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Investigation of Silicone-Containing Semisolid in Situ Film-Forming Systems Using QbD Tools

et al. 2019

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The aim of our research work was to develop dermally applicable, semisolid film-forming systems (FFSs) containing silicones, which form a film on the skin in situ, with suitable mechanical properties for skin application. FFSs were developed and investigated by means of the Quality by Design (QbD) methodology. With this QbD approach, the initial risk assessment defines the critical quality attributes (CQAs), the critical material attributes (CMAs) and the critical process parameters (CPPs) to ensure the required quality. Different semisolid systems were formed with or without silicones. During the initial risk assessment, three CQAs, namely skin adhesion, film flexibility and burst strength, were found to be critical attributes, while film appearance, film integrity and the drying time of the semisolid system, were found to be medium attributes. These parameters were investigated. The initial risk assessment also showed that there are three high CMAs: the type of silicones, film-forming excipients, drying excipients, and that there was one medium CMA: viscosity-enhancing excipients. Based on our results, the silicone content had a great effect on the film-forming systems. Different silicones affected the mechanical properties of the films in varying ways, decreased the drying time and showed promising results regarding the drying mechanism.

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Comparative study of nanosized cross-linked sodium-, linear sodium- and zinc-hyaluronate as potential ocular mucoadhesive drug delivery systems

Horvát¹,

Budai-Szűcs²,

Berkó³

et al. 2015

International Journal of Pharmaceutics

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Advantages of cross-linked versus linear hyaluronic acid for semisolid skin delivery systems

Berkó

Maroda

Bodnár³

et al. 2013

European Polymer Journal

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Ibuprofen penetration enhance by sucrose ester examined by ATR-FTIR in vivo

Csizmazia

Erős

Berkesi

et al. 2010

Pharmaceutical Development and Technology

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The aim of this work was to investigate the skin penetration enhancer effect of a sucrose ester (SE) in an Ibuprofen (IBU) containing hydrogel and to examine its influence on the special lipid bilayer of the stratum corneum (SC). ATR-FTIR spectroscopic measurements were performed combined with tape stripping method on hairless mice in vivo. A SE containing gel was compared to another gel without SE. It was found that the preparations caused only minimal modifications in the lipid and the protein structure, promoting the skin hydration and therefore also the penetration of IBU. Although the degree of moisturization and penetration were more intense in the case of the SE containing gel treatment, it did not cause greater alterations in the SC structure than the gel without SE. It has been proven that SE acts as an effective and non-irritating hydration and penetration enhancer for IBU through skin.

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Following-up skin penetration of lidocaine from different vehicles by Raman spectroscopic mapping

Bakonyi

Gácsi

Kovács

et al. 2018

Journal of Pharmaceutical and Biomedical Analysis

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Szilvia Berkó

Methods to Evaluate Skin Penetration In Vitro

Thiolated poly(aspartic acid) as potential in situ gelling, ocular mucoadhesive drug delivery system

Development of nanostructured lipid carriers containing salicyclic acid for dermal use based on the Quality by Design method

Investigation of Silicone-Containing Semisolid in Situ Film-Forming Systems Using QbD Tools

Comparative study of nanosized cross-linked sodium-, linear sodium- and zinc-hyaluronate as potential ocular mucoadhesive drug delivery systems

Advantages of cross-linked versus linear hyaluronic acid for semisolid skin delivery systems

Ibuprofen penetration enhance by sucrose ester examined by ATR-FTIR in vivo

Following-up skin penetration of lidocaine from different vehicles by Raman spectroscopic mapping

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