Browsing by Author "Pelcl Martin"
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- ItemClassification Nanofibrous Wound Dressings by Using Textile Technique(TANGER Ltd., 2016) Pelcl Martin; Kovář Marek; Samková Alžběta; Novák Patrik
- ItemCombination of electrospun nanofibers and surface modified 3D printing for knee cartilage tissue engineering(Technická univerzita v Liberci, 2015) Pelcl Martin; Košťáková Eva; Chvojka Jiří; Horáková Jana; Šafka Jiří; Kříž Kristián; Rampichova Michala; Lachman Martin
- ItemCombination of Patterned Electrospun Nanofibers and 3D Printing for Knee Cartilage Tissue Engineering(2014) Chvojka Jiří; Šafka Jiří; Pelcl Martin; Kříž Kristián; Pilařová Kateřina; Rampichova Michala; Lachman Martin; Filová Eva; Jenčová Věra; Košťáková Eva
- ItemComparison of the Well Known Spinning And Electrospinning Methods for Polyvinyl Alcohol(FOART, s.r.o., 2016) Blažková Lenka; Horáková Jana; Kalous Tomáš; Pelcl Martin; Strnadová Kateřina; Šaman Aleš; Chvojka Jiří; Novák Patrik; Hlavatá Jana
- ItemComposite 3D printed scaffold with structured electrospun nanofibers promotes chondrocyte adhesion and infiltration(Informa UK Limited, 2018) Rampichova Michala; Kuželová Košťáková Eva; Filová Eva; Chvojka Jiří; Šafka Jiří; Pelcl Martin; Dankova J; Prosecka Eva; Buzgo Matej; Plencner Martin; Lukáš David; Amler Evžen
- ItemComposite 3D printed scaffold with structured electrospun nanofibers promotes chondrocyte adhesion and infiltration(Taylor&Francis Online, 2018) Rampichova Michala; Kuželová Košťáková Eva; Filová Eva; Chvojka Jiří; Šafka Jiří; Pelcl Martin; Daňková, J.; Prosecka Eva; Buzgo Matej; Plencner Martin; Lukáš David; Amler EvženAdditive manufacturing, also called 3D printing, is an effective method for preparing scaffolds with defined structure and porosity. The disadvantage of the technique is the excessive smoothness of the printed fibers, which does not support cell adhesion. In the present study, a 3D printed scaffold was combined with electrospun classic or structured nanofibers to promote cell adhesion. Structured nanofibers were used to improve the infiltration of cells into the scaffold. Electrospun layers were connected to 3D printed fibers by gluing, thus enabling the fabrication of scaffolds with unlimited thickness. The composite 3D printed/nanofibrous scaffolds were seeded with primary chondrocytes and tested in vitro for cell adhesion, proliferation and differentiation. The experiment showed excellent cell infiltration, viability, and good cell proliferation. On the other hand, partial chondrocyte dedifferentiation was shown. Other materials supporting chondrogenic differentiation will be investigated in future studies.
- ItemScaffolds Produced by Combination of 3d Printing and Electrospinning(2014) Chvojka Jiří; Valapková Barbora; Filová Eva; Košťáková Eva; Lachman Martin; Pelcl Martin; Šafka Jiří; Kříž Kristián; Rampichova Michala
- ItemThe combination of 3D printing and nanofibers for tissue engineering of articular cartilage(TANGER spol. s r.o., 2014) Pelcl Martin; Chvojka Jiří; Košťáková Eva; Šafka Jiří; Kříž Kristián; Strnadová Kateřina; Jenčová Věra; Filová Eva
- ItemThe Combination of Three - Dimensional Biodegradable Fiber Scaffolds with Bioprinting(TANGER Ltd., 2016) Erben Jakub; Jirkovec Radek; Novák Patrik; Pelcl Martin; Pavlíková Tereza; Chvojka Jiří