FRINK Linked Data Fragments server

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2968447673> ?p ?o ?g. }

• W2968447673 endingPage "547" @default.
• W2968447673 startingPage "538" @default.
• W2968447673 abstract "ObjectivesThe implication of haemodynamics in the occurrence of complications after endovascular aneurysm repair (EVAR) has been raised in the literature. Different aortic stent graft configurations may lead to different haemodynamic properties. The current study deals with the post-operative haemodynamic variability between four stent graft systems with different structure, material, and type of fixation.MethodsComputed tomography data of 32 patients were used, equally distributed among the four endograft groups, namely the AFX, Endurant, Excluder, and Nellix. Velocity, wall shear stress (WSS), and helicity statistics were calculated, in regions around the flow division where disturbances are expected. The haemodynamic data were compared between and within the groups.ResultsThe morphology of AAAs pre-operatively did not vary significantly among the four groups. Before the flow division, lowest velocity was observed in Endurant cases and highest in Nellix cases. Endurant induced the lowest peak WSS and Nellix the highest (p = .03). The helicity levels were low in AFX and Nellix cases and high in Endurant and Excluder cases. After the flow division, the trend in the results was preserved. Nellix induced the highest velocity and WSS, followed closely by Excluder and AFX. There was a significant increase of helicity before and after flow division in AFX (p <0.001, R2 = 0.09) and Nellix (p <0.001) cases.ConclusionsIt has been shown that different types of endografts induce variable haemodynamic conditions around the flow division. The parallel limb structure, featured by Nellix, seems to induce favourable flow conditions in terms of velocity and WSS, while helical flow before the flow division is suppressed. High WSS is generally considered to be a desirable flow characteristic in endovascular devices, whereas helicity extremes (very low or high) are potentially a negative sign. Endurant, with the stiffer material and the short neck structure, was associated with the lowest blood velocity and WSS values but preserved high helicity levels. The AFX and Excluder, which include the same material, induced similar haemodynamic conditions. The implication of haemodynamics in the occurrence of complications after endovascular aneurysm repair (EVAR) has been raised in the literature. Different aortic stent graft configurations may lead to different haemodynamic properties. The current study deals with the post-operative haemodynamic variability between four stent graft systems with different structure, material, and type of fixation. Computed tomography data of 32 patients were used, equally distributed among the four endograft groups, namely the AFX, Endurant, Excluder, and Nellix. Velocity, wall shear stress (WSS), and helicity statistics were calculated, in regions around the flow division where disturbances are expected. The haemodynamic data were compared between and within the groups. The morphology of AAAs pre-operatively did not vary significantly among the four groups. Before the flow division, lowest velocity was observed in Endurant cases and highest in Nellix cases. Endurant induced the lowest peak WSS and Nellix the highest (p = .03). The helicity levels were low in AFX and Nellix cases and high in Endurant and Excluder cases. After the flow division, the trend in the results was preserved. Nellix induced the highest velocity and WSS, followed closely by Excluder and AFX. There was a significant increase of helicity before and after flow division in AFX (p <0.001, R2 = 0.09) and Nellix (p <0.001) cases. It has been shown that different types of endografts induce variable haemodynamic conditions around the flow division. The parallel limb structure, featured by Nellix, seems to induce favourable flow conditions in terms of velocity and WSS, while helical flow before the flow division is suppressed. High WSS is generally considered to be a desirable flow characteristic in endovascular devices, whereas helicity extremes (very low or high) are potentially a negative sign. Endurant, with the stiffer material and the short neck structure, was associated with the lowest blood velocity and WSS values but preserved high helicity levels. The AFX and Excluder, which include the same material, induced similar haemodynamic conditions." @default.
• W2968447673 created "2019-08-22" @default.
• W2968447673 creator A5008146640 @default.
• W2968447673 creator A5020620074 @default.
• W2968447673 creator A5032617720 @default.
• W2968447673 creator A5045685331 @default.
• W2968447673 creator A5055912249 @default.
• W2968447673 creator A5063762942 @default.
• W2968447673 date "2019-10-01" @default.
• W2968447673 modified "2023-10-16" @default.
• W2968447673 title "Endograft Specific Haemodynamics After Endovascular Aneurysm Repair: Flow Characteristics of Four Stent Graft Systems" @default.
• W2968447673 cites W1952671029 @default.
• W2968447673 cites W1970321175 @default.
• W2968447673 cites W1971218177 @default.
• W2968447673 cites W1972650536 @default.
• W2968447673 cites W1979516727 @default.
• W2968447673 cites W1980673621 @default.
• W2968447673 cites W1985145920 @default.
• W2968447673 cites W1986002844 @default.
• W2968447673 cites W1986864077 @default.
• W2968447673 cites W1987177783 @default.
• W2968447673 cites W1989402109 @default.
• W2968447673 cites W1994696318 @default.
• W2968447673 cites W2009577974 @default.
• W2968447673 cites W2016007215 @default.
• W2968447673 cites W2017981408 @default.
• W2968447673 cites W2025841137 @default.
• W2968447673 cites W2026878254 @default.
• W2968447673 cites W2037028592 @default.
• W2968447673 cites W2064713117 @default.
• W2968447673 cites W2066019002 @default.
• W2968447673 cites W2066945340 @default.
• W2968447673 cites W2067045670 @default.
• W2968447673 cites W2084403606 @default.
• W2968447673 cites W2097663931 @default.
• W2968447673 cites W2103591590 @default.
• W2968447673 cites W2106539375 @default.
• W2968447673 cites W2112500668 @default.
• W2968447673 cites W2113165264 @default.
• W2968447673 cites W2117213724 @default.
• W2968447673 cites W2122602151 @default.
• W2968447673 cites W2141258088 @default.
• W2968447673 cites W2151840933 @default.
• W2968447673 cites W2168662356 @default.
• W2968447673 cites W2212416747 @default.
• W2968447673 cites W2337037999 @default.
• W2968447673 cites W2345582834 @default.
• W2968447673 cites W2524584405 @default.
• W2968447673 cites W2539162221 @default.
• W2968447673 cites W2592834696 @default.
• W2968447673 cites W2726545698 @default.
• W2968447673 cites W2744451299 @default.
• W2968447673 cites W2772548436 @default.
• W2968447673 cites W2776247479 @default.
• W2968447673 cites W2783328482 @default.
• W2968447673 cites W2790801979 @default.
• W2968447673 cites W2804650847 @default.
• W2968447673 cites W91113326 @default.
• W2968447673 doi "https://doi.org/10.1016/j.ejvs.2019.04.017" @default.
• W2968447673 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/31431336" @default.
• W2968447673 hasPublicationYear "2019" @default.
• W2968447673 type Work @default.
• W2968447673 sameAs 2968447673 @default.
• W2968447673 citedByCount "6" @default.
• W2968447673 countsByYear W29684476732021 @default.
• W2968447673 countsByYear W29684476732022 @default.
• W2968447673 crossrefType "journal-article" @default.
• W2968447673 hasAuthorship W2968447673A5008146640 @default.
• W2968447673 hasAuthorship W2968447673A5020620074 @default.
• W2968447673 hasAuthorship W2968447673A5032617720 @default.
• W2968447673 hasAuthorship W2968447673A5045685331 @default.
• W2968447673 hasAuthorship W2968447673A5055912249 @default.
• W2968447673 hasAuthorship W2968447673A5063762942 @default.
• W2968447673 hasBestOaLocation W29684476731 @default.
• W2968447673 hasConcept C126838900 @default.
• W2968447673 hasConcept C158846371 @default.
• W2968447673 hasConcept C164705383 @default.
• W2968447673 hasConcept C178853913 @default.
• W2968447673 hasConcept C2776098176 @default.
• W2968447673 hasConcept C2778583881 @default.
• W2968447673 hasConcept C71924100 @default.
• W2968447673 hasConceptScore W2968447673C126838900 @default.
• W2968447673 hasConceptScore W2968447673C158846371 @default.
• W2968447673 hasConceptScore W2968447673C164705383 @default.
• W2968447673 hasConceptScore W2968447673C178853913 @default.
• W2968447673 hasConceptScore W2968447673C2776098176 @default.
• W2968447673 hasConceptScore W2968447673C2778583881 @default.
• W2968447673 hasConceptScore W2968447673C71924100 @default.
• W2968447673 hasIssue "4" @default.
• W2968447673 hasLocation W29684476731 @default.
• W2968447673 hasLocation W29684476732 @default.
• W2968447673 hasOpenAccess W2968447673 @default.
• W2968447673 hasPrimaryLocation W29684476731 @default.
• W2968447673 hasRelatedWork W1855773473 @default.
• W2968447673 hasRelatedWork W2050452439 @default.
• W2968447673 hasRelatedWork W2100025192 @default.
• W2968447673 hasRelatedWork W2794719640 @default.
• W2968447673 hasRelatedWork W3215076384 @default.

• next