The Morphology of Fibrous Matrices for Medical Use from Poly-3-Oxybutyrate Obtained by Electrospinning

The application of nonwoven fibrous matrices made of biodegradable polymers for medicine and tissue engineering is a promising direction in bioengineering. The matrices based on poly-3-oxybutyrate biopolymer with the use of titanium dioxide and silicon nanoparticles have been produced via electrospi...

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Bibliographic Details
Published in:Polymer science. Series D, Glues and sealing materials Glues and sealing materials, 2019, Vol.12 (1), p.58-63
Main Authors: Ol’khov, A. A., Gorshenev, V. N., Staroverova, O. V., Bondarenko, L. V., Perov, V. I., Iordanskii, A. L.
Format: Article
Language:English
Subjects:
Biocompatibility
Biodegradability
Bioengineering
Biopolymers
Chemistry
Chemistry and Materials Science
Crystallization
Electrospinning
Filaments
Morphology
Nanoparticles
Polymer Sciences
Surgical implants
Tissue engineering
Titanium dioxide
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Summary:The application of nonwoven fibrous matrices made of biodegradable polymers for medicine and tissue engineering is a promising direction in bioengineering. The matrices based on poly-3-oxybutyrate biopolymer with the use of titanium dioxide and silicon nanoparticles have been produced via electrospinning. It is found that nanoscale particles accelerate crystallization and melting of polymer and improve the physicomechanical parameters of the fibrous materials. It has been shown that the most favorable foundation for growth of the living cells is matrices made of filaments of small diameter. Nonwoven fibrous matrices of poly-3-oxybutyrate can be proposed for tissue engineering and traumatology.
ISSN:1995-4212
1995-4220
DOI:10.1134/S1995421219010143