FRINK Linked Data Fragments server

Matches in SemOpenAlex for { <https://semopenalex.org/work/W4366209413> ?p ?o ?g. }

• W4366209413 abstract "Computational fluid dynamics (CFD) has proven useful in the planning of upper airway surgery in humans, where it is used to anticipate the influence of the surgical procedures on post-operative airflow. This technology has only been reported twice in an equine model, with a limited scope of airflow mechanics situations examined. The reported study sought to widen this application to the variety of procedures used to treat equine recurrent laryngeal neuropathy (RLN). The first objective of this study was to generate a CFD model of an ex-vivo box model of ten different equine larynges replicating RLN and four therapeutic surgeries to compare the calculated impedance between these procedures for each larynx. The second objective was to determine the accuracy between a CFD model and measured airflow characteristics in equine larynges. The last objective was to explore the anatomic distribution of changes in pressure, velocity, and turbulent kinetic energy associated with the disease (RLN) and each surgical procedure performed.Ten equine cadaveric larynges underwent inhalation airflow testing in an instrumented box while undergoing a concurrent computed tomographic (CT) exam. The pressure upstream and downstream (outlet) were measured simultaneously. CT image segmentation was performed to generate stereolithography files, which underwent CFD analysis using the experimentally measured outlet pressure. The ranked procedural order and calculated laryngeal impedance were compared to the experimentally obtained values.The CFD model agreed with the measured results in predicting the procedure resulting in the lowest post-operative impedance in 9/10 larynges. Numerically, the CFD calculated laryngeal impedance was approximately 0.7 times that of the measured calculation. Low pressure and high velocity were observed around regions of tissue protrusion within the lumen of the larynx. RLN, the corniculectomy and partial arytenoidectomy surgical procedures exhibited low pressure troughs and high velocity peaks compared to the laryngoplasty and combined laryngoplasty/corniculectomy procedures. CFD modeling of the equine larynx reliably calculated the lowest impedance of the different surgical procedures. Future development of the CFD technique to this application may improve numerical accuracy and is recommended prior to consideration for use in patients." @default.
• W4366209413 created "2023-04-19" @default.
• W4366209413 creator A5000814723 @default.
• W4366209413 creator A5030578881 @default.
• W4366209413 creator A5065023798 @default.
• W4366209413 creator A5085959230 @default.
• W4366209413 date "2023-04-17" @default.
• W4366209413 modified "2023-09-27" @default.
• W4366209413 title "Computational fluid dynamic analysis of upper airway procedures in equine larynges" @default.
• W4366209413 cites W1539982545 @default.
• W4366209413 cites W1568454036 @default.
• W4366209413 cites W1747093610 @default.
• W4366209413 cites W1981401379 @default.
• W4366209413 cites W1981634371 @default.
• W4366209413 cites W2005938784 @default.
• W4366209413 cites W2028203509 @default.
• W4366209413 cites W2040165449 @default.
• W4366209413 cites W2042253137 @default.
• W4366209413 cites W2072083041 @default.
• W4366209413 cites W2077613897 @default.
• W4366209413 cites W2088428311 @default.
• W4366209413 cites W2099491214 @default.
• W4366209413 cites W2110913410 @default.
• W4366209413 cites W2114034451 @default.
• W4366209413 cites W2143607173 @default.
• W4366209413 cites W2144586100 @default.
• W4366209413 cites W2145386730 @default.
• W4366209413 cites W2148557452 @default.
• W4366209413 cites W2151161154 @default.
• W4366209413 cites W2157848344 @default.
• W4366209413 cites W2163514204 @default.
• W4366209413 cites W2488975710 @default.
• W4366209413 cites W2766269214 @default.
• W4366209413 cites W2905712795 @default.
• W4366209413 cites W2925055578 @default.
• W4366209413 cites W2990594628 @default.
• W4366209413 cites W3004727333 @default.
• W4366209413 cites W3168589469 @default.
• W4366209413 cites W3184145638 @default.
• W4366209413 cites W4200333348 @default.
• W4366209413 cites W4211207412 @default.
• W4366209413 cites W4282938889 @default.
• W4366209413 cites W4285019169 @default.
• W4366209413 cites W1166449829 @default.
• W4366209413 doi "https://doi.org/10.3389/fvets.2023.1139398" @default.
• W4366209413 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/37138910" @default.
• W4366209413 hasPublicationYear "2023" @default.
• W4366209413 type Work @default.
• W4366209413 citedByCount "0" @default.
• W4366209413 crossrefType "journal-article" @default.
• W4366209413 hasAuthorship W4366209413A5000814723 @default.
• W4366209413 hasAuthorship W4366209413A5030578881 @default.
• W4366209413 hasAuthorship W4366209413A5065023798 @default.
• W4366209413 hasAuthorship W4366209413A5085959230 @default.
• W4366209413 hasBestOaLocation W43662094131 @default.
• W4366209413 hasConcept C105922876 @default.
• W4366209413 hasConcept C116067010 @default.
• W4366209413 hasConcept C121332964 @default.
• W4366209413 hasConcept C127413603 @default.
• W4366209413 hasConcept C136229726 @default.
• W4366209413 hasConcept C141071460 @default.
• W4366209413 hasConcept C1633027 @default.
• W4366209413 hasConcept C175696284 @default.
• W4366209413 hasConcept C2780474809 @default.
• W4366209413 hasConcept C57879066 @default.
• W4366209413 hasConcept C71924100 @default.
• W4366209413 hasConcept C78519656 @default.
• W4366209413 hasConceptScore W4366209413C105922876 @default.
• W4366209413 hasConceptScore W4366209413C116067010 @default.
• W4366209413 hasConceptScore W4366209413C121332964 @default.
• W4366209413 hasConceptScore W4366209413C127413603 @default.
• W4366209413 hasConceptScore W4366209413C136229726 @default.
• W4366209413 hasConceptScore W4366209413C141071460 @default.
• W4366209413 hasConceptScore W4366209413C1633027 @default.
• W4366209413 hasConceptScore W4366209413C175696284 @default.
• W4366209413 hasConceptScore W4366209413C2780474809 @default.
• W4366209413 hasConceptScore W4366209413C57879066 @default.
• W4366209413 hasConceptScore W4366209413C71924100 @default.
• W4366209413 hasConceptScore W4366209413C78519656 @default.
• W4366209413 hasLocation W43662094131 @default.
• W4366209413 hasLocation W43662094132 @default.
• W4366209413 hasLocation W43662094133 @default.
• W4366209413 hasOpenAccess W4366209413 @default.
• W4366209413 hasPrimaryLocation W43662094131 @default.
• W4366209413 hasRelatedWork W1995412879 @default.
• W4366209413 hasRelatedWork W2003938723 @default.
• W4366209413 hasRelatedWork W2022687681 @default.
• W4366209413 hasRelatedWork W2047967234 @default.
• W4366209413 hasRelatedWork W2118496982 @default.
• W4366209413 hasRelatedWork W2123863762 @default.
• W4366209413 hasRelatedWork W2350032425 @default.
• W4366209413 hasRelatedWork W2357888771 @default.
• W4366209413 hasRelatedWork W2439875401 @default.
• W4366209413 hasRelatedWork W4285135362 @default.
• W4366209413 hasVolume "10" @default.
• W4366209413 isParatext "false" @default.
• W4366209413 isRetracted "false" @default.
• W4366209413 workType "article" @default.