Browsing by Author "Lukáš David"
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- Item3d Composite Material Intended Particularly as Biologically Degradable Replacement of Cartilage(2014) Chvojka Jiří; Košťáková Eva; Lukáš David; Šafka Jiří
- Item3d Micro-nano Fibrous Scaffold Prepared by Meltblow N in Combination with Electrospinning for the Bone Tissue Engineering(TANGER Ltd, 2014) Erben Jakub; Blažková Lenka; Košťáková Eva; Lukáš David; Prosecká Eva; Novák Ondřej; Mikeš Petr; Havlíček Jiří; Jenčová Věra; Pilařová Kateřina; Sanetrník Filip; Chvojka Jiří
- ItemA method for producing polymeric nanofibers by electrospinning a polymeric solution or melt, a spinning electrode for carrying out the method, and an apparatus for producing polymeric nanofibers with at least one such spinning electrode.(2021) Beran Jaroslav; Valtera Jan; Bílek Martin; Skřivánek Josef; Baťka Ondřej; Lukáš David; Pokorný Pavel; Kalous Tomáš; Soukupová Julie; Kuželová Košťáková Eva
- ItemAC production of melt nanomaterials(2017) Valtera Jan; Kalous Tomáš; Strnadová Kateřina; Sivan Manikandan; Pokorný Pavel; Beran Jaroslav; Lukáš David
- ItemAC production of melt nanomaterials (part 2.)(2018) Valtera Jan; Kalous Tomáš; Skřivánek Josef; Sivan Manikandan; Pokorný Pavel; Beran Jaroslav; Lukáš David
- ItemAligned Drawn Fibers Improve the Axon Infiltration into the Spinal Cord Bridges(2017) Strnadová Kateřina; Lukášek Jan; Krabicová Ilona; Řezanka Michal; Lukáš David; Jenčová Věra
- ItemAlternating Current Electrospinning Method for Preparation of Nanofibrous Materials(2014) Lukáš David; Chvojka Jiří; Pokorný Pavel; Bílek Martin; Kočiš Lubomír; Pejchar Karel; Beran Jaroslav
- ItemAlternating current electrospinning: The impacts of various high-voltage signal shapes and frequencies on the spinnability and productivity of polycaprolactone nanofibers(Elsevier, 2022) Sivan Manikandan; Madheswaran Divyabharathi; Valtera Jan; Kuželová Košťáková Eva; Lukáš David
- ItemAnalysis of HeLa Cell Migration using in vitro Scratch Assay by Image J(Technical University of Liberec, 2018) Madheswaran Divyabharathi; Sivan Manikandan; Jenčová Věra; Horáková Jana; Mikeš Petr; Lukáš David
- ItemApparatus for preparation of nanofibrous membrane with integrated granulate(2018) Beran Jaroslav; Valtera Jan; Skřivánek Josef; Diblík Martin; Baťka Ondřej; Lukáš David; Pokorný Pavel; Kalous Tomáš
- ItemApparatus for producing nanofibers and/or microfibers by polymer solution or melt centrifugal spinning(2016) Pokorný Pavel; Blažková Lenka; Skřivánek Josef; Kalous Tomáš; Košťáková Eva; Beran Jaroslav; Diblík Martin; Lukáš David
- ItemArtificial muscle(2015) Lukáš David; Šaman Aleš; Zálešáková Denisa; Chvojka Jiří; Klápšťová Andrea
- ItemAutomatic system for nanofibrous yarns production(Technická univerzita v Liberci, 2017) Shynkarenko Andrii; Klápšťová Andrea; Krotov Anton; Moučka Michal; Lukáš David
- ItemBall shaped electrode for production of nanofibres(2016) Baťka Ondřej; Beran Jaroslav; Skřivánek Josef; Strnad Michal; Pokorný Pavel; Lukáš David
- ItemBelt Electrode For Continuous Production of Planar Nanofiber Material Using AC Electrospinning Method(2017) Valtera Jan; Svobodová Jana; Bílek Martin; Kalous Tomáš; Baťka Ondřej; Skřivánek Josef; Beran Jaroslav; Lukáš David; Pokorný Pavel
- ItemCombination of nanofibres and microfibres in 3D scaffold for bone or cartilage regeneration.(2015) Košťáková Eva; Erben Jakub; Jenčová Věra; Pilařová Kateřina; Rampichova Michala; Sanetrník Filip; Blažková Lenka; Havlíček Jiří; Novák Ondřej; Mikeš Petr; Chvojka Jiří; Lukáš David
- ItemComparison of the Collecting Heads Efficacy Using Electrospinning Method(TANGER Ltd., 2016) Shynkarenko Andrii; Klápšťová Andrea; Lukáš David
- 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.
- ItemComposite Fibrous Drain for Glaucoma Drainage Implants(Technical University of Liberec, 2016) Klápšťová Andrea; Horáková Jana; Lukáš David