LONG-TERM COMPARATIVE STUDY OF THE STABILITY OF NANOFIBROUS MATERIALS FROM BIODEGRADABLE POLYCAPROLACTONE FOR SKIN WOUND DRESSING

1 HAVLÍČKOVÁ Kristýna
Co-authors:
1 HAUZEROVÁ Šárka 2 KOPŘIVOVÁ Barbora 3 CHVOJKA Jiří 3 ERBEN Jakub 4 BĚHÁLEK Luboš 5 NOVOTNÝ Vít 1 LUKÁŠ David 1 JENČOVÁ Věra
Institutions:
1 Technical University of Liberec, Faculty of Science, Humanities and Education, Department of Chemistry, Liberec, Czech Republic, EU, kristyna.havlickova@tul.cz
2 Technical University of Liberec, Faculty of Science, Humanities and Education, Department of Physics, Liberec, Czech Republic, EU, barbora.koprivova@tul.cz
3 Technical University of Liberec, Faculty of Textiles, Departemtn of nonwouvens and nanomaterials, Liberec, Czech Republic, EU, jiri.chvojka@tul.cz
4 Technical University of Liberec, Faculty of Mechanical Engineering, Department of Engineering Technology, Liberec, Czech Republic, EU, lubos.behalek@tul.cz
5 Technical University of Liberec, Institute for Nanomaterials, Advanced Technology and Innovation, Department of Department of Environmental Chemistry, Liberec, Czech Republic, EU, vit.novotny@tul.cz
Conference:
15th International Conference on Nanomaterials - Research & Application, OREA Congress Hotel Brno, Czech Republic, EU, October 18 - 20, 2023
Proceedings:
Proceedings 15th International Conference on Nanomaterials - Research & Application
Pages:
303-312
ISBN:
978-80-88365-15-0
ISSN:
2694-930X
Published:
1st January 2024
Metrics:
221 views / 158 downloads
Abstract

This study deals with a long-term stability study of biodegradable polycaprolactone (PCL) nanofibrous dressings for skin applications, an important parameter for the storage of materials prior to actual application. Nanofibrous materials generally have suitable properties for regenerative medicine and tissue engineering, such as high porosity with small pore size, high areal density of fibers, large specific surface area, and these materials are able to mimic natural skin extracellular matrix with their fibrous structure. These properties allow nanofibrous dressings to provide the required protection to damaged tissues while promoting the wound-healing process. However, the issue of their long-term stability and degradation behaviour is still under investigation. The aim of this study was to observe and compare the long-term stability of electrospun PCL nanofibrous dressings exposed to different storage conditions. The study focused on the effect of nanofibrous material parameters, which included the surface weight; the solvent system used during the preparation of the polymeric spinning solutions and last but not least, the effect of ethylene oxide sterilization on the stability of the nanofibrous planar dressing over a period of 6-12 months.

Keywords: Electrospinning, polycaprolactone, long-term stability, degradation, wound dressing

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