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Title | Hemostatic and Tissue Regeneration Performance of Novel Electrospun Chitosan-Based Materials |
Authors |
Deineka, Volodymyr Mykolaiovych
Sulaieva, O. Pernakov, Mykola Stanislavovych Korniienko, Viktoriia Volodymyrivna Korniienko, Viktoriia Volodymyrivna Husak, Yevheniia Volodymyrivna Yanovska, Hanna Oleksandrivna Yusupova, Aziza Farkhodivna Tkachenko, Yuliia Anatoliivna Kalinkevich, O. Zlatska, A. Pohorielov, Maksym Volodymyrovych |
ORCID |
http://orcid.org/0000-0002-7048-7446 http://orcid.org/0000-0002-5144-2138 http://orcid.org/0000-0002-2217-3717 http://orcid.org/0000-0001-8040-7457 http://orcid.org/0000-0002-0699-5585 http://orcid.org/0000-0001-9372-7791 |
Keywords |
chitosan electrospinning hemostasis regeneration |
Type | Article |
Date of Issue | 2021 |
URI | https://essuir.sumdu.edu.ua/handle/123456789/84691 |
Publisher | MDPI |
License | Creative Commons Attribution 4.0 International License |
Citation | Deineka, V.; Sulaieva, O.; Pernakov, M.; Korniienko, V.; Husak, Y.; Yanovska, A.; Yusupova, A.; Tkachenko, Y.; Kalinkevich, O.; Zlatska, A.; et al. Hemostatic andTissue Regeneration Performance of Novel Electrospun Chitosan-Based Materials. Biomedicines 2021, 9, 588. https://doi.org/10.3390/biomedicines9060588 |
Abstract |
The application of chitosan (Ch) as a promising biopolymer with hemostatic properties
and high biocompatibility is limited due to its prolonged degradation time, which, in turn, slows
the repair process. In the present research, we aimed to develop new technologies to reduce the
biodegradation time of Ch-based materials for hemostatic application. This study was undertaken
to assess the biocompatibility and hemostatic and tissue-regeneration performance of Ch-PEOcopolymer prepared by electrospinning technique. Chitosan electrospinning membranes (ChEsM)
were made from Ch and polyethylene oxide (PEO) powders for rich high-porous material with
sufficient hemostatic parameters. The structure, porosity, density, antibacterial properties, in vitro
degradation and biocompatibility of ChEsM were evaluated and compared to the conventional
Ch sponge (ChSp). In addition, the hemostatic and bioactive performance of both materials were
examined in vivo, using the liver-bleeding model in rats. A penetrating punch biopsy of the left liver
lobe was performed to simulate bleeding from a non-compressible irregular wound. Appropriately
shaped ChSp or ChEsM were applied to tissue lesions. Electrospinning allows us to produce
high-porous membranes with relevant ChSp degradation and swelling properties. Both materials
demonstrated high biocompatibility and hemostatic effectiveness in vitro. However, the antibacterial
properties of ChEsM were not as good when compared to the ChSp. In vivo studies confirmed
superior ChEsM biocompatibility and sufficient hemostatic performance, with tight interplay with
host cells and tissues. The in vivo model showed a higher biodegradation rate of ChEsM and
advanced liver repair. |
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File | Size | Format | Downloads |
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Deineka_et.al_Hemostatic_biomedicines.pdf | 5.53 MB | Adobe PDF | 1992880107 |
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