FRINK Linked Data Fragments server

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2016752404> ?p ?o ?g. }

• W2016752404 endingPage "561" @default.
• W2016752404 startingPage "557" @default.
• W2016752404 abstract "BackgroundPulmonary artery size is a crucial determinant of hemodynamic energy loss in total cavopulmonary connections. We investigated the effect of aortic arch reconstruction on left pulmonary artery size based on their anatomic proximity.MethodsThirty-two patients undergoing the Fontan operation, 16 with hypoplastic left heart syndrome and 16 with non–hypoplastic left heart syndrome, were selected from the multicenter Fontan magnetic resonance imaging database at the Georgia Institute of Technology. The 16 datasets were consecutive with full anatomic reconstructions of the total cavopulmonary connection and aortic arch with no artifacts. The size of the aorta along the transverse arch and left pulmonary artery size in the region below the aortic arch was quantified by using a previously validated skeletonization technique.ResultsThe transverse aortic and left pulmonary artery measurements (median, maximum, and minimum, respectively) for non–hypoplastic left heart syndrome were 2.2, 3.1, and 1.5 cm/m and 1.2, 1.6, and 0.2 cm/m, respectively, compared with 2.5, 4.1, and 2.0 cm/m and 0.9, 1.5, and 0.4 cm/m for patients with hypoplastic left heart syndrome. Thus the transverse aortic diameter of patients with hypoplastic left heart syndrome was, on average, 24% greater than that for patients with non–hypoplastic left heart syndrome (P < .05), whereas the left pulmonary artery diameter of patients with hypoplastic left heart syndrome was smaller than that of patients with non–hypoplastic left heart syndrome (P < .05). Regression analysis showed a significant negative correlation (P < .05) between aortic and left pulmonary artery diameters in both the hypoplastic left heart syndrome and non–hypoplastic left heart syndrome groups. However, when the study population was regrouped into reconstructed aorta and nonreconstructed aorta groups, the negative correlation was only significant for patients with reconstructed aortas, regardless of ventricular pathology (P < .02).ConclusionsStage 1 aortic reconstruction procedures that result in a large aorta limit left pulmonary artery size in patients undergoing the Fontan operation. Pulmonary artery size is a crucial determinant of hemodynamic energy loss in total cavopulmonary connections. We investigated the effect of aortic arch reconstruction on left pulmonary artery size based on their anatomic proximity. Thirty-two patients undergoing the Fontan operation, 16 with hypoplastic left heart syndrome and 16 with non–hypoplastic left heart syndrome, were selected from the multicenter Fontan magnetic resonance imaging database at the Georgia Institute of Technology. The 16 datasets were consecutive with full anatomic reconstructions of the total cavopulmonary connection and aortic arch with no artifacts. The size of the aorta along the transverse arch and left pulmonary artery size in the region below the aortic arch was quantified by using a previously validated skeletonization technique. The transverse aortic and left pulmonary artery measurements (median, maximum, and minimum, respectively) for non–hypoplastic left heart syndrome were 2.2, 3.1, and 1.5 cm/m and 1.2, 1.6, and 0.2 cm/m, respectively, compared with 2.5, 4.1, and 2.0 cm/m and 0.9, 1.5, and 0.4 cm/m for patients with hypoplastic left heart syndrome. Thus the transverse aortic diameter of patients with hypoplastic left heart syndrome was, on average, 24% greater than that for patients with non–hypoplastic left heart syndrome (P < .05), whereas the left pulmonary artery diameter of patients with hypoplastic left heart syndrome was smaller than that of patients with non–hypoplastic left heart syndrome (P < .05). Regression analysis showed a significant negative correlation (P < .05) between aortic and left pulmonary artery diameters in both the hypoplastic left heart syndrome and non–hypoplastic left heart syndrome groups. However, when the study population was regrouped into reconstructed aorta and nonreconstructed aorta groups, the negative correlation was only significant for patients with reconstructed aortas, regardless of ventricular pathology (P < .02). Stage 1 aortic reconstruction procedures that result in a large aorta limit left pulmonary artery size in patients undergoing the Fontan operation." @default.
• W2016752404 created "2016-06-24" @default.
• W2016752404 creator A5013397653 @default.
• W2016752404 creator A5025592863 @default.
• W2016752404 creator A5042777838 @default.
• W2016752404 creator A5047914537 @default.
• W2016752404 creator A5068594160 @default.
• W2016752404 creator A5087746871 @default.
• W2016752404 creator A5087767646 @default.
• W2016752404 date "2010-03-01" @default.
• W2016752404 modified "2023-09-25" @default.
• W2016752404 title "Larger aortic reconstruction corresponds to diminished left pulmonary artery size in patients with single-ventricle physiology" @default.
• W2016752404 cites W1965280104 @default.
• W2016752404 cites W1984511301 @default.
• W2016752404 cites W1986137717 @default.
• W2016752404 cites W1988197637 @default.
• W2016752404 cites W2025582583 @default.
• W2016752404 cites W2042240022 @default.
• W2016752404 cites W2086279598 @default.
• W2016752404 cites W2088539596 @default.
• W2016752404 cites W2103147065 @default.
• W2016752404 cites W2104937718 @default.
• W2016752404 cites W2120495926 @default.
• W2016752404 cites W2128703565 @default.
• W2016752404 cites W2139537565 @default.
• W2016752404 cites W4296261271 @default.
• W2016752404 doi "https://doi.org/10.1016/j.jtcvs.2009.08.023" @default.
• W2016752404 hasPubMedCentralId "https://www.ncbi.nlm.nih.gov/pmc/articles/2827635" @default.
• W2016752404 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/19880146" @default.
• W2016752404 hasPublicationYear "2010" @default.
• W2016752404 type Work @default.
• W2016752404 sameAs 2016752404 @default.
• W2016752404 citedByCount "18" @default.
• W2016752404 countsByYear W20167524042012 @default.
• W2016752404 countsByYear W20167524042013 @default.
• W2016752404 countsByYear W20167524042015 @default.
• W2016752404 countsByYear W20167524042016 @default.
• W2016752404 countsByYear W20167524042017 @default.
• W2016752404 countsByYear W20167524042018 @default.
• W2016752404 countsByYear W20167524042019 @default.
• W2016752404 countsByYear W20167524042021 @default.
• W2016752404 countsByYear W20167524042023 @default.
• W2016752404 crossrefType "journal-article" @default.
• W2016752404 hasAuthorship W2016752404A5013397653 @default.
• W2016752404 hasAuthorship W2016752404A5025592863 @default.
• W2016752404 hasAuthorship W2016752404A5042777838 @default.
• W2016752404 hasAuthorship W2016752404A5047914537 @default.
• W2016752404 hasAuthorship W2016752404A5068594160 @default.
• W2016752404 hasAuthorship W2016752404A5087746871 @default.
• W2016752404 hasAuthorship W2016752404A5087767646 @default.
• W2016752404 hasBestOaLocation W20167524041 @default.
• W2016752404 hasConcept C126322002 @default.
• W2016752404 hasConcept C164705383 @default.
• W2016752404 hasConcept C2776053971 @default.
• W2016752404 hasConcept C2778435157 @default.
• W2016752404 hasConcept C2778921608 @default.
• W2016752404 hasConcept C2779545397 @default.
• W2016752404 hasConcept C2779980429 @default.
• W2016752404 hasConcept C2780074459 @default.
• W2016752404 hasConcept C2780940725 @default.
• W2016752404 hasConcept C2781285907 @default.
• W2016752404 hasConcept C71924100 @default.
• W2016752404 hasConceptScore W2016752404C126322002 @default.
• W2016752404 hasConceptScore W2016752404C164705383 @default.
• W2016752404 hasConceptScore W2016752404C2776053971 @default.
• W2016752404 hasConceptScore W2016752404C2778435157 @default.
• W2016752404 hasConceptScore W2016752404C2778921608 @default.
• W2016752404 hasConceptScore W2016752404C2779545397 @default.
• W2016752404 hasConceptScore W2016752404C2779980429 @default.
• W2016752404 hasConceptScore W2016752404C2780074459 @default.
• W2016752404 hasConceptScore W2016752404C2780940725 @default.
• W2016752404 hasConceptScore W2016752404C2781285907 @default.
• W2016752404 hasConceptScore W2016752404C71924100 @default.
• W2016752404 hasIssue "3" @default.
• W2016752404 hasLocation W20167524041 @default.
• W2016752404 hasLocation W20167524042 @default.
• W2016752404 hasLocation W20167524043 @default.
• W2016752404 hasLocation W20167524044 @default.
• W2016752404 hasOpenAccess W2016752404 @default.
• W2016752404 hasPrimaryLocation W20167524041 @default.
• W2016752404 hasRelatedWork W1984474032 @default.
• W2016752404 hasRelatedWork W1987695498 @default.
• W2016752404 hasRelatedWork W1995086822 @default.
• W2016752404 hasRelatedWork W2016752404 @default.
• W2016752404 hasRelatedWork W2151084097 @default.
• W2016752404 hasRelatedWork W2165439221 @default.
• W2016752404 hasRelatedWork W2294056512 @default.
• W2016752404 hasRelatedWork W2472809766 @default.
• W2016752404 hasRelatedWork W4221125060 @default.
• W2016752404 hasRelatedWork W2463202030 @default.
• W2016752404 hasVolume "139" @default.
• W2016752404 isParatext "false" @default.
• W2016752404 isRetracted "false" @default.
• W2016752404 magId "2016752404" @default.
• W2016752404 workType "article" @default.