"I, P(2B06130), P(GA202/09/1151), P(GAP304/10/1307), P(GP106/09/P226), P(IAA500390702), P(ME10145), S, V, Z(AV0Z50390512), Z(AV0Z50390703)" . "ID 428503" . "10"^^ . "Rampichov\u00E1, Michala" . "Kocourek, Tom\u00E1\u0161" . . "23520" . "US - Spojen\u00E9 st\u00E1ty americk\u00E9" . . . "1"^^ . "000301378600001" . . "10.1155/2012/428503" . . . "Vyslou\u017Eilov\u00E1, Lucie" . "10"^^ . "RIV/49777513:23520/12:43915509" . "hydroxyapatit, poly-epsilon-aprolactone/polyvinylalcohol, scaffold, mechanick\u00E9 vlastnosti, mesenchym\u00E1ln\u00ED kmenov\u00E9 bu\u0148ky"@en . . . . . . . . . "Buzgo, Matej" . . "Luk\u00E1\u0161, David" . . . . . "Tvrd\u00EDk, Daniel" . "Pulsed laser deposition was proved as a suitable method for hydroxyapatite (HA) coating of coaxial poly-epsilon-aprolactone/polyvinylalcohol (PCL/PVA) nanofibers. The fibrous morphology of PCL/PVA nanofibers was preserved, if the nanofiber scaffold was coated with thin layers of HA (200nm and 400 nm). Increasing thickness of HA, however, resulted in a gradual loss of fibrous character. In addition, biomechanical properties were improved after HA deposition on PCL/PVA nanofibers as the value of Young's moduli of elasticity significantly increased. Clearly, thin-layer hydroxyapatite deposition on a nanofiber surface stimulated mesenchymal stem cell viability and their differentiation into osteoblasts. The optimal depth of HA was 800 nm." . . "Thin-Layer Hydroxyapatite Deposition on a Nanofiber Surface Stimulates Mesenchymal Stem Cell Proliferation and Their Differentiation into Osteoblasts" . . . . "Thin-Layer Hydroxyapatite Deposition on a Nanofiber Surface Stimulates Mesenchymal Stem Cell Proliferation and Their Differentiation into Osteoblasts" . "2012" . "Jel\u00EDnek, Miroslav" . "Proseck\u00E1, Eva" . "1110-7243" . "Pulsed laser deposition was proved as a suitable method for hydroxyapatite (HA) coating of coaxial poly-epsilon-aprolactone/polyvinylalcohol (PCL/PVA) nanofibers. The fibrous morphology of PCL/PVA nanofibers was preserved, if the nanofiber scaffold was coated with thin layers of HA (200nm and 400 nm). Increasing thickness of HA, however, resulted in a gradual loss of fibrous character. In addition, biomechanical properties were improved after HA deposition on PCL/PVA nanofibers as the value of Young's moduli of elasticity significantly increased. Clearly, thin-layer hydroxyapatite deposition on a nanofiber surface stimulated mesenchymal stem cell viability and their differentiation into osteoblasts. The optimal depth of HA was 800 nm."@en . "Amler, Ev\u017Een" . "Thin-Layer Hydroxyapatite Deposition on a Nanofiber Surface Stimulates Mesenchymal Stem Cell Proliferation and Their Differentiation into Osteoblasts"@en . "174354" . "Kochov\u00E1, Petra" . . "Thin-Layer Hydroxyapatite Deposition on a Nanofiber Surface Stimulates Mesenchymal Stem Cell Proliferation and Their Differentiation into Osteoblasts"@en . . "RIV/49777513:23520/12:43915509!RIV13-GA0-23520___" . . "Journal of Biomedicine and Biotechnology" . . "[924EB3DE59E4]" . . .