SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2788141863> ?p ?o ?g. }

Showing items 1 to 100 of ±138 with 100 items per page.

W2788141863 endingPage "1166" @default.
W2788141863 startingPage "1157" @default.
W2788141863 abstract "Incomplete endothelialization of intracoronary stents has been associated with stent thrombosis and recurrent symptoms, whereas prolonged use of dual antiplatelet therapy increases bleeding-related adverse events. Facilitated endothelialization has the potential to improve clinical outcomes in patients who are unable to tolerate dual antiplatelet therapy. The objective of this study was to demonstrate the feasibility of magnetic cell capture to rapidly endothelialize intracoronary stents in a large animal model. A novel stent was developed from a magnetizable duplex stainless steel (2205 SS). Polylactic-co-glycolic acid and magnetite (Fe3O4) were used to synthesize biodegradable superparamagnetic iron oxide nanoparticles, and these were used to label autologous blood outgrowth endothelial cells. Magnetic 2205 SS and nonmagnetic 316L SS control stents were implanted in the coronary arteries of pigs (n = 11), followed by intracoronary delivery of magnetically labeled cells to 2205 SS stents. In this study, we show extensive endothelialization of magnetic 2205 SS stents (median 98.4% cell coverage) within 3 days, whereas the control 316L SS stents exhibited significantly less coverage (median 48.9% cell coverage, p < 0.0001). This demonstrates the ability of intracoronary delivery of magnetic nanoparticle labeled autologous endothelial cells to improve endothelialization of magnetized coronary stents within 3 days of implantation." @default.
W2788141863 created "2018-03-06" @default.
W2788141863 creator A5005228563 @default.
W2788141863 creator A5018891379 @default.
W2788141863 creator A5025770952 @default.
W2788141863 creator A5030247773 @default.
W2788141863 creator A5043238176 @default.
W2788141863 creator A5051526386 @default.
W2788141863 creator A5058335372 @default.
W2788141863 creator A5062156561 @default.
W2788141863 creator A5065282951 @default.
W2788141863 creator A5066161627 @default.
W2788141863 creator A5080363839 @default.
W2788141863 creator A5080672977 @default.
W2788141863 creator A5086811295 @default.
W2788141863 date "2018-07-01" @default.
W2788141863 modified "2023-10-10" @default.
W2788141863 title "Nanoparticle-Mediated Cell Capture Enables Rapid Endothelialization of a Novel Bare Metal Stent" @default.
W2788141863 cites W146673325 @default.
W2788141863 cites W1509144955 @default.
W2788141863 cites W1548440309 @default.
W2788141863 cites W1639710654 @default.
W2788141863 cites W1777889535 @default.
W2788141863 cites W194894827 @default.
W2788141863 cites W1968423420 @default.
W2788141863 cites W1973809917 @default.
W2788141863 cites W1983136949 @default.
W2788141863 cites W1984232298 @default.
W2788141863 cites W1987029887 @default.
W2788141863 cites W1989974576 @default.
W2788141863 cites W1993775659 @default.
W2788141863 cites W1999691659 @default.
W2788141863 cites W2000997817 @default.
W2788141863 cites W2002616692 @default.
W2788141863 cites W2020398834 @default.
W2788141863 cites W2025215537 @default.
W2788141863 cites W2025401801 @default.
W2788141863 cites W2031795159 @default.
W2788141863 cites W2039736645 @default.
W2788141863 cites W2042643965 @default.
W2788141863 cites W2049466721 @default.
W2788141863 cites W2056032465 @default.
W2788141863 cites W2057924225 @default.
W2788141863 cites W2060589763 @default.
W2788141863 cites W2063973040 @default.
W2788141863 cites W2066685510 @default.
W2788141863 cites W2068046255 @default.
W2788141863 cites W2079040635 @default.
W2788141863 cites W2087082116 @default.
W2788141863 cites W2091345683 @default.
W2788141863 cites W2098922547 @default.
W2788141863 cites W2105581501 @default.
W2788141863 cites W2111105734 @default.
W2788141863 cites W2112991184 @default.
W2788141863 cites W2117161686 @default.
W2788141863 cites W2120143538 @default.
W2788141863 cites W2121496050 @default.
W2788141863 cites W2125173296 @default.
W2788141863 cites W2129377640 @default.
W2788141863 cites W2132562948 @default.
W2788141863 cites W2145524503 @default.
W2788141863 cites W2152696551 @default.
W2788141863 cites W2154302219 @default.
W2788141863 cites W2154590970 @default.
W2788141863 cites W2154636200 @default.
W2788141863 cites W2157731337 @default.
W2788141863 cites W2168938802 @default.
W2788141863 cites W2169410023 @default.
W2788141863 cites W2185535763 @default.
W2788141863 cites W2197006860 @default.
W2788141863 cites W2319862216 @default.
W2788141863 cites W2519216087 @default.
W2788141863 doi "https://doi.org/10.1089/ten.tea.2017.0404" @default.
W2788141863 hasPubMedCentralId "https://www.ncbi.nlm.nih.gov/pmc/articles/6033300" @default.
W2788141863 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/29431053" @default.
W2788141863 hasPublicationYear "2018" @default.
W2788141863 type Work @default.
W2788141863 sameAs 2788141863 @default.
W2788141863 citedByCount "14" @default.
W2788141863 countsByYear W27881418632019 @default.
W2788141863 countsByYear W27881418632020 @default.
W2788141863 countsByYear W27881418632021 @default.
W2788141863 countsByYear W27881418632022 @default.
W2788141863 countsByYear W27881418632023 @default.
W2788141863 crossrefType "journal-article" @default.
W2788141863 hasAuthorship W2788141863A5005228563 @default.
W2788141863 hasAuthorship W2788141863A5018891379 @default.
W2788141863 hasAuthorship W2788141863A5025770952 @default.
W2788141863 hasAuthorship W2788141863A5030247773 @default.
W2788141863 hasAuthorship W2788141863A5043238176 @default.
W2788141863 hasAuthorship W2788141863A5051526386 @default.
W2788141863 hasAuthorship W2788141863A5058335372 @default.
W2788141863 hasAuthorship W2788141863A5062156561 @default.
W2788141863 hasAuthorship W2788141863A5065282951 @default.
W2788141863 hasAuthorship W2788141863A5066161627 @default.
W2788141863 hasAuthorship W2788141863A5080363839 @default.
W2788141863 hasAuthorship W2788141863A5080672977 @default.
W2788141863 hasAuthorship W2788141863A5086811295 @default.