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2nd Faculty of Medicine 1 Academy of Science of the Czech Republic 1 Academy of Sciences of the Czech Republic 1 Advanced technologies and Innovation 1 Charles University Prague 1 Czech Technical University Prague 1 Department of Nonwoven Textiles 1 Faculty of Biomedical Engineering 1 Faculty of Textile Engineering 1 Institute for Nanomaterials 1 Institute of Biophysics 1 Institute of Experimental Medicine 1 Institute of Microbiology 1 Kladno Czech Republic 1 Laboratory of Molecular Structure Characteri... 1 Laboratory of Tissue Engineering 1 Liberec Czech Republic 1 Prague Czech Republic 1 Technical University of Liberec 1 The Czech Technical University Prague 1
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- Rampichová, Michala
- Buzgo, Matej
- Chvojka, Jiří
- Prosecká, Eva
- Kofroňová, Olga
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Amler, Evžen, 1958-
Author Authority ORCID Laboratory of Tissue Engineering Institute of Experimental Medicine Academy of Science of the Czech Republic Prague, Czech Republic University Center for Energy Efficient Buildings (UCEEB) The Czech Technical University in Prague Kladno, Czech Republic Institute of Biophysics 2nd Faculty of Medicine Charles University in Prague Prague, Czech Republic Czech Technical University in Prague Faculty of Biomedical Engineering Kladno, Czech Republic
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Free Medical Journals
from 2008 to 1 year ago
PubMed Central
from 2007
Europe PubMed Central
from 2007 to 1 year ago
Taylor & Francis Open Access
from 2007-01-01
Medline Complete (EBSCOhost)
from 2011-01-01
PubMed
24429388
DOI
10.4161/cam.27477
Knihovny.cz E-resources
Cell infiltration is a critical parameter for the successful development of 3D matrices for tissue engineering. Application of electrospun nanofibers in tissue engineering has recently attracted much attention. Notwithstanding several of their advantages, small pore size and small thickness of the electrospun layer limit their application for development of 3D scaffolds. Several methods for the pore size and/or electrospun layer thickness increase have been recently developed. Nevertheless, tissue engineering still needs emerging of either novel nanofiber-enriched composites or new techniques for 3D nanofiber fabrication. Forcespinning(®) seems to be a promising alternative. The potential of the Forcespinning(®) method is illustrated in preliminary experiment with mesenchymal stem cells.
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