2011
Nanofibrous scaffolds for tissue engineering
PAVLIŇÁK, David, Veronika ŠVACHOVÁ, Eva KEDROŇOVÁ, Milan ALBERTI, Pavel HYRŠL et. al.Základní údaje
Originální název
Nanofibrous scaffolds for tissue engineering
Název česky
Nanomateriály pro tkáňové inženýrství
Název anglicky
Nanofibrous scaffolds for tissue engineering
Autoři
PAVLIŇÁK, David, Veronika ŠVACHOVÁ, Eva KEDROŇOVÁ, Milan ALBERTI, Pavel HYRŠL, Monika DUŠKOVÁ, Helena NEJEZCHLEBOVÁ a Libor VOJTEK
Vydání
Brno, Potencial and Applications of Surface Nanotreatment of Polymers and Glass, s. 39-104, 2011
Nakladatel
NANOcontact, Masaryk University
Další údaje
Typ výsledku
Stať ve sborníku
Utajení
není předmětem státního či obchodního tajemství
Organizační jednotka
Přírodovědecká fakulta
Klíčová slova česky
tkáňové inženýrství;nanomateriál;nanotechnologie;elektrospinning;plazmochemické reakce;baktericidita;bioaktivita;chemická luminisence
Klíčová slova anglicky
tissue engineering;nanomaterial;nanotechnology;electrospinning;plasma-chemical treatment;bactericidal efect;bioactivity;chemical luminiscence
Změněno: 20. 10. 2011 10:17, Mgr. David Pavliňák, Ph.D.
V originále
Tissue engineering aims to develop biologically functional scafolds for the repair, replacement, or regeneration of damaged tissues. The aim of this work was to find a new manufacturing process of a biologically functional scaffolds. Various synthetic biopolymers, like a gelatine, PVA, collagen have been electrospun to satisfy different clinical requirments. The main research idea was to develop a suitable bactericidal agent that could be sufficiently biocompatible and biodegradable. These requirements fulfilled an oxycellulose which was produced using plasma-chemical reaction. Chemical composition of treated cellulose samples was evaluated with ATR-FTIR and TGA. Biological activity was evaluated by CL - chemical luminiscence methods.
Česky
Tissue engineering aims to develop biologically functional scafolds for the repair, replacement, or regeneration of damaged tissues. The aim of this work was to find a new manufacturing process of a biologically functional scaffolds. Various synthetic biopolymers, like a gelatine, PVA, collagen have been electrospun to satisfy different clinical requirments. The main research idea was to develop a suitable bactericidal agent that could be sufficiently biocompatible and biodegradable. These requirements fulfilled an oxycellulose which was produced using plasma-chemical reaction. Chemical composition of treated cellulose samples was evaluated with ATR-FTIR and TGA. Biological activity was evaluated by CL - chemical luminiscence methods.
Anglicky
Tissue engineering aims to develop biologically functional scafolds for the repair, replacement, or regeneration of damaged tissues. The aim of this work was to find a new manufacturing process of a biologically functional scaffolds. Various synthetic biopolymers, like a gelatine, PVA, collagen have been electrospun to satisfy different clinical requirments. The main research idea was to develop a suitable bactericidal agent that could be sufficiently biocompatible and biodegradable. These requirements fulfilled an oxycellulose which was produced using plasma-chemical reaction. Chemical composition of treated cellulose samples was evaluated with ATR-FTIR and TGA. Biological activity was evaluated by CL - chemical luminiscence methods.
Návaznosti
| MSM0021622411, záměr |
|