Longitudinal computational fluid dynamics study of aneurysmal dilatation in a chronic DeBakey type III aortic dissection
Computational fluid dynamics, which uses numeric methods and algorithms for the simulation of blood flow by solving the Navier-Stokes equations on computational meshes, is enhancing the understanding of disease progression in type III aortic dissections. To illustrate this, we examined the changes i...
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| Published in | Journal of vascular surgery Vol. 56; no. 1; pp. 260 - 263.e1 |
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| Main Authors | , , , , , , , , , |
| Format | Journal Article |
| Language | English |
| Published |
New York, NY
Mosby, Inc
01.07.2012
Elsevier |
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| Abstract | Computational fluid dynamics, which uses numeric methods and algorithms for the simulation of blood flow by solving the Navier-Stokes equations on computational meshes, is enhancing the understanding of disease progression in type III aortic dissections. To illustrate this, we examined the changes in patient-derived geometries of aortic dissections, which showed progressive false lumen aneurysmal dilatation (26% diameter increase) during follow-up. Total pressure was decreased by 29% during systole and by 34% during retrograde flow. At the site of the highest false lumen dilatation, the temporal average of total pressure decreased from 45 to 22 Pa, and maximal average wall shear stress decreased from 0.9 to 0.4 Pa. These first results in the study of disease progression of type III DeBakey aortic dissection with computational fluid dynamics are encouraging. |
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| AbstractList | Computational fluid dynamics, which uses numeric methods and algorithms for the simulation of blood flow by solving the Navier-Stokes equations on computational meshes, is enhancing the understanding of disease progression in type III aortic dissections. To illustrate this, we examined the changes in patient-derived geometries of aortic dissections, which showed progressive false lumen aneurysmal dilatation (26% diameter increase) during follow-up. Total pressure was decreased by 29% during systole and by 34% during retrograde flow. At the site of the highest false lumen dilatation, the temporal average of total pressure decreased from 45 to 22 Pa, and maximal average wall shear stress decreased from 0.9 to 0.4 Pa. These first results in the study of disease progression of type III DeBakey aortic dissection with computational fluid dynamics are encouraging. Computational fluid dynamics, which uses numeric methods and algorithms for the simulation of blood flow by solving the Navier-Stokes equations on computational meshes, is enhancing the understanding of disease progression in type III aortic dissections. To illustrate this, we examined the changes in patient-derived geometries of aortic dissections, which showed progressive false lumen aneurysmal dilatation (26% diameter increase) during follow-up. Total pressure was decreased by 29% during systole and by 34% during retrograde flow. At the site of the highest false lumen dilatation, the temporal average of total pressure decreased from 45 to 22 Pa, and maximal average wall shear stress decreased from 0.9 to 0.4 Pa. These first results in the study of disease progression of type III DeBakey aortic dissection with computational fluid dynamics are encouraging.Computational fluid dynamics, which uses numeric methods and algorithms for the simulation of blood flow by solving the Navier-Stokes equations on computational meshes, is enhancing the understanding of disease progression in type III aortic dissections. To illustrate this, we examined the changes in patient-derived geometries of aortic dissections, which showed progressive false lumen aneurysmal dilatation (26% diameter increase) during follow-up. Total pressure was decreased by 29% during systole and by 34% during retrograde flow. At the site of the highest false lumen dilatation, the temporal average of total pressure decreased from 45 to 22 Pa, and maximal average wall shear stress decreased from 0.9 to 0.4 Pa. These first results in the study of disease progression of type III DeBakey aortic dissection with computational fluid dynamics are encouraging. |
| Author | Müller-Eschner, Matthias Lumsden, Alan B. von Tengg-Kobligk, Hendrik Partovi, Sasan Shah, Dipan J. Loebe, Matthias Davies, Mark G. Karmonik, Christof Böckler, Dittmar Bismuth, Jean |
| Author_xml | – sequence: 1 givenname: Christof surname: Karmonik fullname: Karmonik, Christof email: ckarmonik@tmhs.org organization: Methodist DeBakey Heart & Vascular Center, Houston, Tex – sequence: 2 givenname: Sasan surname: Partovi fullname: Partovi, Sasan organization: Methodist DeBakey Heart & Vascular Center, Houston, Tex – sequence: 3 givenname: Matthias surname: Müller-Eschner fullname: Müller-Eschner, Matthias organization: Department of Diagnostic and Interventional Radiology, University Hospital Heidelberg, Heidelberg, Germany – sequence: 4 givenname: Jean surname: Bismuth fullname: Bismuth, Jean organization: Methodist DeBakey Heart & Vascular Center, Houston, Tex – sequence: 5 givenname: Mark G. surname: Davies fullname: Davies, Mark G. organization: Methodist DeBakey Heart & Vascular Center, Houston, Tex – sequence: 6 givenname: Dipan J. surname: Shah fullname: Shah, Dipan J. organization: Methodist DeBakey Heart & Vascular Center, Houston, Tex – sequence: 7 givenname: Matthias surname: Loebe fullname: Loebe, Matthias organization: Methodist DeBakey Heart & Vascular Center, Houston, Tex – sequence: 8 givenname: Dittmar surname: Böckler fullname: Böckler, Dittmar organization: Department of Vascular Surgery, University Hospital Heidelberg, Heidelberg, Germany – sequence: 9 givenname: Alan B. surname: Lumsden fullname: Lumsden, Alan B. organization: Methodist DeBakey Heart & Vascular Center, Houston, Tex – sequence: 10 givenname: Hendrik surname: von Tengg-Kobligk fullname: von Tengg-Kobligk, Hendrik organization: Department of Diagnostic and Interventional Radiology, University Hospital Heidelberg, Heidelberg, Germany |
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| Keywords | Arterial disease Vascular disease Chronic Computational fluid dynamics Dilatation Surgery Aortic dissection Cardiovascular disease Aortic disease |
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| SubjectTerms | Algorithms Aneurysm, Dissecting - physiopathology Aortic Aneurysm - physiopathology Biological and medical sciences Blood and lymphatic vessels Cardiology. Vascular system Chronic Disease Disease Progression Diseases of the aorta Humans Hydrodynamics Imaging, Three-Dimensional Magnetic Resonance Imaging Male Medical sciences Middle Aged Retrospective Studies Surgery Surgery (general aspects). Transplantations, organ and tissue grafts. Graft diseases Tomography, X-Ray Computed Vascular surgery: aorta, extremities, vena cava. Surgery of the lymphatic vessels |
| Title | Longitudinal computational fluid dynamics study of aneurysmal dilatation in a chronic DeBakey type III aortic dissection |
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