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W2559799129 abstract "Abstract The deposition of thin titanium coatings using magnetron spattering on the surface of bioresorbable fibrous scaffolds produced by electrospinning was investigated. Parameters that allow the surface modification without damaging the “macro” structure of scaffolds were determined. Physicochemical properties of the modified scaffolds were described using SEM, EDS, DSC, optical goniometry, and mechanical testing. It was shown that plasma treatment has a significant influence on the scaffolds’ fiber surface relief. The modification process leads to a slight decrease of the scaffold mechanical performance mainly caused by polymer crystallization. Increasing the deposition time increases the amount of titanium on the surface. The biocompatibility of the modified scaffolds was studied using hybridoma of the endothelial cells of human umbilical vein and human lung carcinoma (EA.hy 926 cell line). Cell adhesion, viability, and secretion of interleukin-6 (IL6), interleukin-8 (IL8), and vascular endothelial growth factor (VEGF) were investigated. It was demonstrated that the deposition of thin titanium coatings on the fibrous scaffolds’ surface enhances cell adhesion. Additionally, it was determined that modified scaffolds have proangiogenic activity." @default.
W2559799129 created "2016-12-16" @default.
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W2559799129 date "2017-03-01" @default.
W2559799129 modified "2023-09-27" @default.
W2559799129 title "The use of magnetron sputtering for the deposition of thin titanium coatings on the surface of bioresorbable electrospun fibrous scaffolds for vascular tissue engineering: A pilot study" @default.
W2559799129 cites W1153655670 @default.
W2559799129 cites W1484777774 @default.
W2559799129 cites W1893534297 @default.
W2559799129 cites W1917885463 @default.
W2559799129 cites W1969637118 @default.
W2559799129 cites W1970398937 @default.
W2559799129 cites W1974930546 @default.
W2559799129 cites W1986152389 @default.
W2559799129 cites W1994375849 @default.
W2559799129 cites W1996215560 @default.
W2559799129 cites W2000292756 @default.
W2559799129 cites W2004304890 @default.
W2559799129 cites W2005981551 @default.
W2559799129 cites W2006177598 @default.
W2559799129 cites W2006749260 @default.
W2559799129 cites W2012929242 @default.
W2559799129 cites W2013069816 @default.
W2559799129 cites W2014250108 @default.
W2559799129 cites W2015749322 @default.
W2559799129 cites W2019968312 @default.
W2559799129 cites W2023166500 @default.
W2559799129 cites W2026480614 @default.
W2559799129 cites W2029790299 @default.
W2559799129 cites W2035444569 @default.
W2559799129 cites W2036506823 @default.
W2559799129 cites W2043268199 @default.
W2559799129 cites W2046509327 @default.
W2559799129 cites W2049163785 @default.
W2559799129 cites W2052609474 @default.
W2559799129 cites W2053333385 @default.
W2559799129 cites W2054310958 @default.
W2559799129 cites W2055463104 @default.
W2559799129 cites W2057924225 @default.
W2559799129 cites W2065744858 @default.
W2559799129 cites W2066583856 @default.
W2559799129 cites W2072625023 @default.
W2559799129 cites W2086134531 @default.
W2559799129 cites W2093072668 @default.
W2559799129 cites W2094491269 @default.
W2559799129 cites W2109369299 @default.
W2559799129 cites W2116210034 @default.
W2559799129 cites W2120608193 @default.
W2559799129 cites W2126125036 @default.
W2559799129 cites W2138514286 @default.
W2559799129 cites W2152123134 @default.
W2559799129 cites W2157976579 @default.
W2559799129 cites W2218626940 @default.
W2559799129 cites W2317064959 @default.
W2559799129 cites W2335363879 @default.
W2559799129 cites W2342082820 @default.
W2559799129 cites W2345618456 @default.
W2559799129 cites W2398517594 @default.
W2559799129 cites W2404577175 @default.
W2559799129 cites W2417080242 @default.
W2559799129 cites W2495382697 @default.
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W2559799129 doi "https://doi.org/10.1016/j.apsusc.2016.12.033" @default.
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