FRINK Linked Data Fragments server

Matches in SemOpenAlex for { <https://semopenalex.org/work/W3011181504> ?p ?o ?g. }

• W3011181504 endingPage "107" @default.
• W3011181504 startingPage "102" @default.
• W3011181504 abstract "Objective: To evaluate the diagnostic performance of automated quantitative analysis by coronary computed tomography angiography (CCTA) in identifying lesion-specific hemodynamic abnormality. Methods: A total of 132 patients (mean age, 61 y; 86 men) with 169 vessels (with 30% to 90% diameter stenosis), who successively underwent invasive coronary angiography with evaluation of fractional flow reserve (values ≤0.8 were defined as lesion-specific hemodynamic abnormalities), were analyzed by CCTA. CCTA images were quantitatively analyzed using automated software to obtain the following index: maximum diameter stenosis (MDS%); maximum area stenosis (MAS%); lesion length (LL); volume and burden (plaque volume×100 per vessel volume) of total plaque (total plaque volume [TPV], total plaque burden [TPB]), calcified plaque (calcified plaque volume [CPV], calcified plaque volume burden [CPB]), noncalcified plaque (noncalcified plaque volume [NCPV], noncalcified plaque volume burden [NCPB]), lipid plaque (lipid plaque volume [LPV], lipid plaque burden [LPB]), and fibrous plaque (fibrotic plaque volume [FPV], fibrotic plaque burden [FPB]); napkin-ring sign (NRS); remodeling index (RI); and eccentric index (EI). Logistic regression and area under the receiver operating characteristics (AUC) were used for statistical analysis. Results: Fractional flow reserve ≤0.80 was found in 57 (33.73%) of the 169 vessels. Vessels with hemodynamic significance had greater MDS% (64.43%±8.69% vs. 57.33%±9.95%, P <0.001), MAS% (73.18%±8.56% vs. 64.66%±8.95%, P <0.001), and lipid plaque burden (12.75% [9.73%, 19.56%] vs. 9.41% [4.10%, 15.70%], P =0.01) compared with vessels with normal hemodynamics. In multivariable logistic regression analysis, MAS% >68% (odds ratio: 7.20, 95% confidence interval [CI]=2.89-17.91, P <0.001) and LPB >10.03% (odds ratio=4.32, 95% CI=1.36-13.66, P =0.01) were significant predictors of hemodynamic abnormalities. In predicting lesion-specific hemodynamic abnormalities, the AUC was 0.77 (95% CI=0.70-0.85) for MAS% versus 0.71 (95% CI=0.63-0.79) for MDS% ( P <0.05), 0.66 (95% CI=0.58-0.74) for LPV ( P <0.05), 0.66 (95% CI=0.58-0.74) for LPB ( P <0.05), and 0.63 (95% CI=0.54-0.71) for TPB ( P <0.05). The AUC of MAS%+LPB (0.83, 95% CI=0.76-0.89) was significantly improved compared with that of MAS% (0.77, 95% CI=0.70-0.85, P <0.05). Conclusions: Compared with MDS% and the volume burdens of plaque compositions, MAS% has a higher diagnostic accuracy for coronary hemodynamic abnormalities in the precise quantitative analysis of coronary plaques on the basis of CT. Furthermore, MAS%+LPB might improve the diagnostic accuracy beyond MAS% alone." @default.
• W3011181504 created "2020-03-23" @default.
• W3011181504 creator A5004396301 @default.
• W3011181504 creator A5020079804 @default.
• W3011181504 creator A5024624248 @default.
• W3011181504 creator A5050875699 @default.
• W3011181504 creator A5059685048 @default.
• W3011181504 creator A5060848162 @default.
• W3011181504 creator A5074307579 @default.
• W3011181504 creator A5077068949 @default.
• W3011181504 creator A5083605444 @default.
• W3011181504 creator A5084136821 @default.
• W3011181504 date "2020-03-11" @default.
• W3011181504 modified "2023-10-01" @default.
• W3011181504 title "Noninvasive Quantitative Plaque Analysis Identifies Hemodynamically Significant Coronary Arteries Disease" @default.
• W3011181504 cites W113768872 @default.
• W3011181504 cites W127494906 @default.
• W3011181504 cites W1585597767 @default.
• W3011181504 cites W1969678022 @default.
• W3011181504 cites W1970635711 @default.
• W3011181504 cites W1972268271 @default.
• W3011181504 cites W2001069587 @default.
• W3011181504 cites W2055537521 @default.
• W3011181504 cites W2099614119 @default.
• W3011181504 cites W2115431576 @default.
• W3011181504 cites W2118810625 @default.
• W3011181504 cites W2128890723 @default.
• W3011181504 cites W2129073471 @default.
• W3011181504 cites W2129996280 @default.
• W3011181504 cites W2132140123 @default.
• W3011181504 cites W2154634442 @default.
• W3011181504 cites W2200945723 @default.
• W3011181504 cites W2271658865 @default.
• W3011181504 cites W2506925819 @default.
• W3011181504 cites W2890452256 @default.
• W3011181504 cites W2900621847 @default.
• W3011181504 cites W2902881683 @default.
• W3011181504 doi "https://doi.org/10.1097/rti.0000000000000494" @default.
• W3011181504 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/32168164" @default.
• W3011181504 hasPublicationYear "2020" @default.
• W3011181504 type Work @default.
• W3011181504 sameAs 3011181504 @default.
• W3011181504 citedByCount "7" @default.
• W3011181504 countsByYear W30111815042021 @default.
• W3011181504 countsByYear W30111815042022 @default.
• W3011181504 countsByYear W30111815042023 @default.
• W3011181504 crossrefType "journal-article" @default.
• W3011181504 hasAuthorship W3011181504A5004396301 @default.
• W3011181504 hasAuthorship W3011181504A5020079804 @default.
• W3011181504 hasAuthorship W3011181504A5024624248 @default.
• W3011181504 hasAuthorship W3011181504A5050875699 @default.
• W3011181504 hasAuthorship W3011181504A5059685048 @default.
• W3011181504 hasAuthorship W3011181504A5060848162 @default.
• W3011181504 hasAuthorship W3011181504A5074307579 @default.
• W3011181504 hasAuthorship W3011181504A5077068949 @default.
• W3011181504 hasAuthorship W3011181504A5083605444 @default.
• W3011181504 hasAuthorship W3011181504A5084136821 @default.
• W3011181504 hasConcept C126322002 @default.
• W3011181504 hasConcept C126838900 @default.
• W3011181504 hasConcept C164705383 @default.
• W3011181504 hasConcept C178853913 @default.
• W3011181504 hasConcept C2777987666 @default.
• W3011181504 hasConcept C2778213512 @default.
• W3011181504 hasConcept C2778710248 @default.
• W3011181504 hasConcept C2780007028 @default.
• W3011181504 hasConcept C3019004856 @default.
• W3011181504 hasConcept C500558357 @default.
• W3011181504 hasConcept C71924100 @default.
• W3011181504 hasConceptScore W3011181504C126322002 @default.
• W3011181504 hasConceptScore W3011181504C126838900 @default.
• W3011181504 hasConceptScore W3011181504C164705383 @default.
• W3011181504 hasConceptScore W3011181504C178853913 @default.
• W3011181504 hasConceptScore W3011181504C2777987666 @default.
• W3011181504 hasConceptScore W3011181504C2778213512 @default.
• W3011181504 hasConceptScore W3011181504C2778710248 @default.
• W3011181504 hasConceptScore W3011181504C2780007028 @default.
• W3011181504 hasConceptScore W3011181504C3019004856 @default.
• W3011181504 hasConceptScore W3011181504C500558357 @default.
• W3011181504 hasConceptScore W3011181504C71924100 @default.
• W3011181504 hasIssue "2" @default.
• W3011181504 hasLocation W30111815041 @default.
• W3011181504 hasOpenAccess W3011181504 @default.
• W3011181504 hasPrimaryLocation W30111815041 @default.
• W3011181504 hasRelatedWork W1972569343 @default.
• W3011181504 hasRelatedWork W2550230312 @default.
• W3011181504 hasRelatedWork W2883321738 @default.
• W3011181504 hasRelatedWork W3011819463 @default.
• W3011181504 hasRelatedWork W3032522106 @default.
• W3011181504 hasRelatedWork W3092764439 @default.
• W3011181504 hasRelatedWork W3187558306 @default.
• W3011181504 hasRelatedWork W4211060234 @default.
• W3011181504 hasRelatedWork W4283745818 @default.
• W3011181504 hasRelatedWork W4313347031 @default.
• W3011181504 hasVolume "36" @default.
• W3011181504 isParatext "false" @default.
• W3011181504 isRetracted "false" @default.
• W3011181504 magId "3011181504" @default.
• W3011181504 workType "article" @default.