Browsing by Author "Jenčová Věra"
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- Item3d Micro-nano Fibrous Scaffold Prepared by Meltblow N in Combination with Electrospinning for the Bone Tissue Engineering(TANGER Ltd, 2014-01-01) Erben Jakub; Blažková Lenka; Košťáková Eva; Lukáš David; Prosecká Eva; Novák Ondřej; Mikeš Petr; Havlíček Jiří; Jenčová Věra; Pilařová Kateřina; Sanetrník Filip; Chvojka Jiří
- ItemAligned Drawn Fibers Improve the Axon Infiltration into the Spinal Cord Bridges(2017-01-01) Strnadová Kateřina; Lukášek Jan; Krabicová Ilona; Řezanka Michal; Lukáš David; Jenčová Věra
- ItemAnalysis of HeLa Cell Migration Using in vitro Scratch Assay(2018-01-01) Madheswaran Divyabharathi; Sivan Manikandan; Jenčová Věra; Horáková Jana; Mikeš Petr
- ItemAnalysis of HeLa Cell Migration using in vitro Scratch Assay by Image J(Technical University of Liberec, 2018-01-01) Madheswaran Divyabharathi; Sivan Manikandan; Jenčová Věra; Horáková Jana; Mikeš Petr; Lukáš David
- ItemAssessment of cell adhesion on electrospun polycaprolactone scaffold sterilized by ethylene oxide(2017-01-01) Horáková Jana; Pavlíková Tereza; Šaman Aleš; Klápšťová Andrea; Mikeš Petr; Jenčová Věra
- ItemThe assessment of electrospun scaffolds fabricated from polycaprolactone with the addition of L-arginine(IOP Publishing, 2020-01-01) Horáková Jana; Oulehlová Zuzana; Novotný Vít; Jenčová Věra; Mikeš Petr; Havlíčková Kristýna; Procházková Renata; Heczková Bohdana; Hadinec Pavel; Sehr Silvia; Wendel Hans-Peter; Bell Carl Martin; Krajewski Stefanie
- ItemBacterial Biofilms on Polyamide Nanofibers: Factors Influencing Biofilm Formation and Evaluation(2021-01-01) Jenčová Věra
- ItemBenefits of Polyamide Nanofibrous Materials: Antibacterial Activity and Retention Ability for Staphylococcus Aureus(MDPI, 2021-01-01) Jenčová Věra
- ItemCombination of nanofibres and microfibres in 3D scaffold for bone or cartilage regeneration.(2015-01-01) Košťáková Eva; Erben Jakub; Jenčová Věra; Pilařová Kateřina; Rampichova Michala; Sanetrník Filip; Blažková Lenka; Havlíček Jiří; Novák Ondřej; Mikeš Petr; Chvojka Jiří; Lukáš David
- ItemCombination of Patterned Electrospun Nanofibers and 3D Printing for Knee Cartilage Tissue Engineering(2014-01-01) Chvojka Jiří; Šafka Jiří; Pelcl Martin; Kříž Kristián; Pilařová Kateřina; Rampichova Michala; Lachman Martin; Filová Eva; Jenčová Věra; Košťáková Eva
- ItemComparison and characterization of different polyester nano/micro fibres for use in tissue engineering applications(2021-01-01) Mikeš Petr; Horáková Jana; Šaman Aleš; Vejsadová Lucie; Jenčová Věra
- ItemComparison and characterization of different polyester nano/micro fibres for use in tissue engineering applications(2019-01-01) Mikeš Petr; Horáková Jana; Šaman Aleš; Vejsadová Lucie; Topham Paul; Jenčová Věra
- ItemComparison of electrospun fibrous materials made from polycaprolactone (pcl) and polylactide-polycaprolactone copolymer (plc) for small diameter blood vessel tissue engineering(2015-01-01) Klápšťová Andrea; Šaman Aleš; Jenčová Věra; Horáková Jana; Blažková Lenka; Mikeš Petr; Ackermann Michal
- ItemComprehensive assessment of electrospun scaffolds hemocompatibility(Elsevier BV, 2018-01-01) Horáková Jana; Mikeš Petr; Šaman Aleš; Pavlíková Tereza; Jenčová Věra; Suchý Tomáš; Heczková Bohdana; Jakůbková Šárka; Jiroušová Jaroslava; Procházková RenataBiodegradable polyesters, namely polycaprolactone (PCL) and copolymer of polylactide and polycaprolactone (PLCL) were electrospun into various fibrous structures and their hemocompatibility was evaluated in vitro. Firstly, hemolytic effect was evaluated upon incubation with diluted whole blood. The results showed that the degree of hemolysis depended on chemical composition and fibrous morphology. Electrospun polycaprolactone induced slight degree of hemolysis depending on its molecular weight and fibrous morphology; copolymer PLCL did not cause detectable hemolysis. The influence of coagulation pathways was examined by measurement of coagulation times. It was showed that intrinsic coagulation pathway assessed by activated partial thromboplastin time (APTT) was moderately accelerated after incubation with PCL and prolonged after incubation with copolymer PLCL. Extrinsic activation of coagulation tested by prothrombin time (PT) was slightly accelerated after incubation with all tested electrospun samples. Thrombogenicity assessment of fibrous samples revealed high thrombogenic properties of fibrous materials that was comparable to high degree of collagen thrombogenicity. The level of platelet activation was dependent on chemical composition and surface morphology of tested materials.
- ItemCopolymer PLCL - spinnability and influence of sterilization method on degradation behavior(České vysoké učení technické v Praze, 2021-01-01) Havlíčková Kristýna; Hauzerová Šárka; Novotný Vít; Müllerová Jana; Kuželová Košťáková Eva; Jenčová Věra
- ItemA cover of an acute or chronic wound(2018-01-01) Chvojka Jiří; Mikeš Petr; Lukáš David; Jenčová Věra; Horáková Jana; Havlíčková Kristýna; Jirkovec Radek; Nevyhoštěný Stanislav; Hlavatá Jana; Erben Jakub; Klápšťová Andrea
- ItemCyclodextrin-polypyrrole coatings of scaffolds for tissue engineering(2019-01-01) Lukášek Jan; Hauzerová Šárka; Havlíčková Kristýna; Strnadová Kateřina; Mašek Karel; Stuchlík Martin; Stibor Ivan; Jenčová Věra; Řezanka Michal
- ItemDegradation behavior of electrospun resorbable polyester nano/micro fibrous materials(2017-01-01) Jenčová Věra; Mikeš Petr; Horáková Jana; Chvojka Jiří; Klápšťová Andrea; Šaman Aleš; Lukáš David; Novotný Vít
- ItemDegradation behavior of polyester micro / nano fibrous materials(2017-01-01) Jenčová Věra; Mikeš Petr; Horáková Jana; Klápšťová Andrea; Novotný Vít; Běhálek Luboš; Šaman Aleš
- ItemDegradation behavior of polyester nano / micro fibrous materials(2017-01-01) Jenčová Věra; Chvojka Jiří; Mikeš Petr; Novotný Vít; Lukáš David