FRINK Linked Data Fragments server

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2092092185> ?p ?o ?g. }

• W2092092185 endingPage "1271.e2" @default.
• W2092092185 startingPage "1264" @default.
• W2092092185 abstract "ObjectiveThe objective of this study was to investigate the association of vein harvesting technique (VHT) with surgical site infection (SSI) and graft patency after infrainguinal arterial bypass.MethodsThe Vascular Quality Initiative database was used to review VHT of all patients undergoing single-segment great saphenous vein graft infrainguinal arterial bypass from 2003 to 2013. Patients were divided into three groups according to the VHT used (continuous incision, skip incision, and endoscopic). Multinomial logistic regression was performed to estimate propensity scores for each treatment group. Propensity score adjustment was included in multivariable analysis of the primary outcomes: SSI and graft primary patency.ResultsFrom 2003 to 2013, 5066 patients underwent single-segment great saphenous vein graft infrainguinal bypass. The VHT was continuous incision in 48.6%, skip incision in 39.7%, and endoscopic in 12.7%. SSI rates did not differ significantly among the groups (continuous, 4.7%; skip, 4.0%; endoscopic, 3.4%; P = .278). On multivariable analysis, there was no difference in discharge primary patency between the three groups. At 1 year, primary patency rates were 69.5% for continuous, 73.0% for skip, and 58.6% for endoscopic (P < .001). After multivariable analysis, endoscopic vein harvest was independently associated with higher 1-year primary patency loss compared with both continuous (hazard ratio [HR], 1.35; 95% confidence interval [CI], 1.05-1.74; P = .020) and skip (HR, 1.53; 95% CI, 1.18-2.00; P = .002). There was no significant difference in 1-year primary patency loss between continuous and skip techniques (HR, 0.88; 95% CI, 0.73-1.05; P = .170).ConclusionsNo association between the choice of VHT and the development of SSI after infrainguinal arterial bypass was identified in the Vascular Quality Initiative population. Endoscopic VHT was associated with significantly reduced 1-year primary patency rate compared with both continuous and skip techniques. The objective of this study was to investigate the association of vein harvesting technique (VHT) with surgical site infection (SSI) and graft patency after infrainguinal arterial bypass. The Vascular Quality Initiative database was used to review VHT of all patients undergoing single-segment great saphenous vein graft infrainguinal arterial bypass from 2003 to 2013. Patients were divided into three groups according to the VHT used (continuous incision, skip incision, and endoscopic). Multinomial logistic regression was performed to estimate propensity scores for each treatment group. Propensity score adjustment was included in multivariable analysis of the primary outcomes: SSI and graft primary patency. From 2003 to 2013, 5066 patients underwent single-segment great saphenous vein graft infrainguinal bypass. The VHT was continuous incision in 48.6%, skip incision in 39.7%, and endoscopic in 12.7%. SSI rates did not differ significantly among the groups (continuous, 4.7%; skip, 4.0%; endoscopic, 3.4%; P = .278). On multivariable analysis, there was no difference in discharge primary patency between the three groups. At 1 year, primary patency rates were 69.5% for continuous, 73.0% for skip, and 58.6% for endoscopic (P < .001). After multivariable analysis, endoscopic vein harvest was independently associated with higher 1-year primary patency loss compared with both continuous (hazard ratio [HR], 1.35; 95% confidence interval [CI], 1.05-1.74; P = .020) and skip (HR, 1.53; 95% CI, 1.18-2.00; P = .002). There was no significant difference in 1-year primary patency loss between continuous and skip techniques (HR, 0.88; 95% CI, 0.73-1.05; P = .170). No association between the choice of VHT and the development of SSI after infrainguinal arterial bypass was identified in the Vascular Quality Initiative population. Endoscopic VHT was associated with significantly reduced 1-year primary patency rate compared with both continuous and skip techniques." @default.
• W2092092185 created "2016-06-24" @default.
• W2092092185 creator A5030059581 @default.
• W2092092185 creator A5055237829 @default.
• W2092092185 creator A5072245985 @default.
• W2092092185 creator A5073435349 @default.
• W2092092185 date "2015-05-01" @default.
• W2092092185 modified "2023-10-16" @default.
• W2092092185 title "Vein harvesting technique for infrainguinal arterial bypass with great saphenous vein and its association with surgical site infection and graft patency" @default.
• W2092092185 cites W162324709 @default.
• W2092092185 cites W1638068208 @default.
• W2092092185 cites W1966083434 @default.
• W2092092185 cites W1970265550 @default.
• W2092092185 cites W1978247148 @default.
• W2092092185 cites W1986771889 @default.
• W2092092185 cites W1988672282 @default.
• W2092092185 cites W1989334874 @default.
• W2092092185 cites W1996055079 @default.
• W2092092185 cites W1999497040 @default.
• W2092092185 cites W2005529288 @default.
• W2092092185 cites W2006879256 @default.
• W2092092185 cites W2024141041 @default.
• W2092092185 cites W2031753689 @default.
• W2092092185 cites W2032245068 @default.
• W2092092185 cites W2033325879 @default.
• W2092092185 cites W2043363204 @default.
• W2092092185 cites W2048470090 @default.
• W2092092185 cites W2054485155 @default.
• W2092092185 cites W2059012317 @default.
• W2092092185 cites W2062891069 @default.
• W2092092185 cites W2063599136 @default.
• W2092092185 cites W2068200901 @default.
• W2092092185 cites W2085488913 @default.
• W2092092185 cites W2093023960 @default.
• W2092092185 cites W2096303535 @default.
• W2092092185 cites W2109170118 @default.
• W2092092185 cites W2113657372 @default.
• W2092092185 cites W2118936457 @default.
• W2092092185 cites W2119674623 @default.
• W2092092185 cites W2133387262 @default.
• W2092092185 cites W2133438118 @default.
• W2092092185 cites W2147429735 @default.
• W2092092185 cites W2162194530 @default.
• W2092092185 cites W2328870579 @default.
• W2092092185 cites W2407190469 @default.
• W2092092185 cites W3123582712 @default.
• W2092092185 cites W4237525156 @default.
• W2092092185 doi "https://doi.org/10.1016/j.jvs.2014.12.049" @default.
• W2092092185 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/25659457" @default.
• W2092092185 hasPublicationYear "2015" @default.
• W2092092185 type Work @default.
• W2092092185 sameAs 2092092185 @default.
• W2092092185 citedByCount "20" @default.
• W2092092185 countsByYear W20920921852015 @default.
• W2092092185 countsByYear W20920921852016 @default.
• W2092092185 countsByYear W20920921852017 @default.
• W2092092185 countsByYear W20920921852018 @default.
• W2092092185 countsByYear W20920921852019 @default.
• W2092092185 countsByYear W20920921852020 @default.
• W2092092185 countsByYear W20920921852021 @default.
• W2092092185 countsByYear W20920921852022 @default.
• W2092092185 countsByYear W20920921852023 @default.
• W2092092185 crossrefType "journal-article" @default.
• W2092092185 hasAuthorship W2092092185A5030059581 @default.
• W2092092185 hasAuthorship W2092092185A5055237829 @default.
• W2092092185 hasAuthorship W2092092185A5072245985 @default.
• W2092092185 hasAuthorship W2092092185A5073435349 @default.
• W2092092185 hasBestOaLocation W20920921851 @default.
• W2092092185 hasConcept C126322002 @default.
• W2092092185 hasConcept C141071460 @default.
• W2092092185 hasConcept C17923572 @default.
• W2092092185 hasConcept C187960798 @default.
• W2092092185 hasConcept C207103383 @default.
• W2092092185 hasConcept C2777202286 @default.
• W2092092185 hasConcept C2779480337 @default.
• W2092092185 hasConcept C44249647 @default.
• W2092092185 hasConcept C71924100 @default.
• W2092092185 hasConceptScore W2092092185C126322002 @default.
• W2092092185 hasConceptScore W2092092185C141071460 @default.
• W2092092185 hasConceptScore W2092092185C17923572 @default.
• W2092092185 hasConceptScore W2092092185C187960798 @default.
• W2092092185 hasConceptScore W2092092185C207103383 @default.
• W2092092185 hasConceptScore W2092092185C2777202286 @default.
• W2092092185 hasConceptScore W2092092185C2779480337 @default.
• W2092092185 hasConceptScore W2092092185C44249647 @default.
• W2092092185 hasConceptScore W2092092185C71924100 @default.
• W2092092185 hasIssue "5" @default.
• W2092092185 hasLocation W20920921851 @default.
• W2092092185 hasLocation W20920921852 @default.
• W2092092185 hasOpenAccess W2092092185 @default.
• W2092092185 hasPrimaryLocation W20920921851 @default.
• W2092092185 hasRelatedWork W1987872986 @default.
• W2092092185 hasRelatedWork W2129866949 @default.
• W2092092185 hasRelatedWork W2240094448 @default.
• W2092092185 hasRelatedWork W2557595673 @default.
• W2092092185 hasRelatedWork W2942949171 @default.
• W2092092185 hasRelatedWork W3211023268 @default.
• W2092092185 hasRelatedWork W4210266202 @default.

• next