FRINK Linked Data Fragments server

Matches in SemOpenAlex for { <https://semopenalex.org/work/W3147706435> ?p ?o ?g. }

• W3147706435 endingPage "499" @default.
• W3147706435 startingPage "488" @default.
• W3147706435 abstract "Background Visceral artery aneurysms (VAAs) are associated with a very high mortality rate when ruptured and may present as a surgical emergency. Due to their rarity and varying pathophysiology, literature concerning the optimal management of VAAs is limited. This review evaluates the evolving management options for VAAs with a focus on open and endovascular repair. Methods A combination of databases including OVID, PubMed and Medline were used to perform a literature search. Search terms employed include ‘visceral artery aneurysms’, ‘angiography’, ‘3D-volumetric rendering’, ‘management’, ‘open repair’ and ‘endovascular repair’, amongst others. Results 3D modelling in conjunction with existing diagnostic techniques, such as computed tomography and angiography, may improve diagnostic sensitivity. The literature surrounding operative management of VAAs highlights the effectiveness of endovascular repair for anatomically suitable aneurysms. Advances in endovascular technologies may expand the type and number of aneurysms amenable to catheter-based treatment approaches. For aneurysms not amenable to endovascular treatment, or those with an emergency indication, open repair remains an appropriate management choice. Conclusion Although rare, VAAs pose a high mortality risk, especially when ruptured. Practical limitations that restrict current operative approaches may be overcome by recent developments including novel neurointerventional techniques that have been applied in VAA management. Visceral artery aneurysms (VAAs) are associated with a very high mortality rate when ruptured and may present as a surgical emergency. Due to their rarity and varying pathophysiology, literature concerning the optimal management of VAAs is limited. This review evaluates the evolving management options for VAAs with a focus on open and endovascular repair. A combination of databases including OVID, PubMed and Medline were used to perform a literature search. Search terms employed include ‘visceral artery aneurysms’, ‘angiography’, ‘3D-volumetric rendering’, ‘management’, ‘open repair’ and ‘endovascular repair’, amongst others. 3D modelling in conjunction with existing diagnostic techniques, such as computed tomography and angiography, may improve diagnostic sensitivity. The literature surrounding operative management of VAAs highlights the effectiveness of endovascular repair for anatomically suitable aneurysms. Advances in endovascular technologies may expand the type and number of aneurysms amenable to catheter-based treatment approaches. For aneurysms not amenable to endovascular treatment, or those with an emergency indication, open repair remains an appropriate management choice. Although rare, VAAs pose a high mortality risk, especially when ruptured. Practical limitations that restrict current operative approaches may be overcome by recent developments including novel neurointerventional techniques that have been applied in VAA management." @default.
• W3147706435 created "2021-04-13" @default.
• W3147706435 creator A5023133940 @default.
• W3147706435 creator A5033190685 @default.
• W3147706435 creator A5056087157 @default.
• W3147706435 creator A5071979776 @default.
• W3147706435 creator A5073773281 @default.
• W3147706435 creator A5076118566 @default.
• W3147706435 creator A5077359878 @default.
• W3147706435 date "2021-10-01" @default.
• W3147706435 modified "2023-10-15" @default.
• W3147706435 title "Evolving Diagnostic and Therapeutic Options for Visceral Artery Aneurysms" @default.
• W3147706435 cites W1643031154 @default.
• W3147706435 cites W1964396371 @default.
• W3147706435 cites W1970360129 @default.
• W3147706435 cites W1972643141 @default.
• W3147706435 cites W1997573457 @default.
• W3147706435 cites W1998909575 @default.
• W3147706435 cites W2005378771 @default.
• W3147706435 cites W2017556444 @default.
• W3147706435 cites W2024490723 @default.
• W3147706435 cites W2025048415 @default.
• W3147706435 cites W2029061805 @default.
• W3147706435 cites W2034005329 @default.
• W3147706435 cites W203956772 @default.
• W3147706435 cites W2048301620 @default.
• W3147706435 cites W2049272376 @default.
• W3147706435 cites W2051205677 @default.
• W3147706435 cites W2061325265 @default.
• W3147706435 cites W2066137960 @default.
• W3147706435 cites W2066590031 @default.
• W3147706435 cites W2067169506 @default.
• W3147706435 cites W2080177750 @default.
• W3147706435 cites W2083340300 @default.
• W3147706435 cites W2088704951 @default.
• W3147706435 cites W2093385565 @default.
• W3147706435 cites W2107044812 @default.
• W3147706435 cites W2112645233 @default.
• W3147706435 cites W2114243915 @default.
• W3147706435 cites W2128879936 @default.
• W3147706435 cites W2131897392 @default.
• W3147706435 cites W2132155702 @default.
• W3147706435 cites W2137523236 @default.
• W3147706435 cites W2140347254 @default.
• W3147706435 cites W2145515780 @default.
• W3147706435 cites W2149867876 @default.
• W3147706435 cites W2156421234 @default.
• W3147706435 cites W2157089231 @default.
• W3147706435 cites W2170057938 @default.
• W3147706435 cites W2213199366 @default.
• W3147706435 cites W2246779659 @default.
• W3147706435 cites W2297050968 @default.
• W3147706435 cites W2322001225 @default.
• W3147706435 cites W2556666380 @default.
• W3147706435 cites W2569535738 @default.
• W3147706435 cites W2726997494 @default.
• W3147706435 cites W2737893124 @default.
• W3147706435 cites W2770840498 @default.
• W3147706435 cites W2802077028 @default.
• W3147706435 cites W2804850056 @default.
• W3147706435 cites W2884374842 @default.
• W3147706435 cites W2885017842 @default.
• W3147706435 cites W2888599731 @default.
• W3147706435 cites W2905588998 @default.
• W3147706435 cites W2938746379 @default.
• W3147706435 cites W2940355669 @default.
• W3147706435 cites W2942076833 @default.
• W3147706435 cites W2946003195 @default.
• W3147706435 cites W2978872716 @default.
• W3147706435 cites W2981194784 @default.
• W3147706435 cites W2981385863 @default.
• W3147706435 cites W2998523020 @default.
• W3147706435 cites W2999526434 @default.
• W3147706435 cites W3006033431 @default.
• W3147706435 cites W3010918768 @default.
• W3147706435 cites W3037903413 @default.
• W3147706435 cites W4250348401 @default.
• W3147706435 cites W603119091 @default.
• W3147706435 doi "https://doi.org/10.1016/j.avsg.2021.03.012" @default.
• W3147706435 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/33823252" @default.
• W3147706435 hasPublicationYear "2021" @default.
• W3147706435 type Work @default.
• W3147706435 sameAs 3147706435 @default.
• W3147706435 citedByCount "4" @default.
• W3147706435 countsByYear W31477064352022 @default.
• W3147706435 countsByYear W31477064352023 @default.
• W3147706435 crossrefType "journal-article" @default.
• W3147706435 hasAuthorship W3147706435A5023133940 @default.
• W3147706435 hasAuthorship W3147706435A5033190685 @default.
• W3147706435 hasAuthorship W3147706435A5056087157 @default.
• W3147706435 hasAuthorship W3147706435A5071979776 @default.
• W3147706435 hasAuthorship W3147706435A5073773281 @default.
• W3147706435 hasAuthorship W3147706435A5076118566 @default.
• W3147706435 hasAuthorship W3147706435A5077359878 @default.
• W3147706435 hasConcept C126838900 @default.
• W3147706435 hasConcept C141071460 @default.
• W3147706435 hasConcept C2776098176 @default.
• W3147706435 hasConcept C2777160999 @default.

• next