Nikolett Kis scite author profile

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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The effects of glycols on molecular mobility, structure, and permeability in stratum corneum

Kis

Gunnarsson

Berkó

et al. 2022

Journal of Controlled Release

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Application of quality by design principles in the development and evaluation of semisolid drug carrier systems for the transdermal delivery of lidocaine

Bakonyi

Berkó

Kovács

et al. 2018

Journal of Drug Delivery Science and Technology

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The effect of non-invasive dermal electroporation on skin barrier function and skin permeation in combination with different dermal formulations

Kis

Kovács

Budai-Szűcs

et al. 2022

Journal of Drug Delivery Science and Technology

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<p>QbD-Based Investigation of Dermal Semisolid in situ Film-Forming Systems for Local Anaesthesia</p>

Kovács¹,

Kis²,

Budai-Szűcs³

et al. 2020

DDDT

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Nikolett Kis

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

The effects of glycols on molecular mobility, structure, and permeability in stratum corneum

Application of quality by design principles in the development and evaluation of semisolid drug carrier systems for the transdermal delivery of lidocaine

The effect of non-invasive dermal electroporation on skin barrier function and skin permeation in combination with different dermal formulations

<p>QbD-Based Investigation of Dermal Semisolid in situ Film-Forming Systems for Local Anaesthesia</p>

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