Computational Modeling of Rupture Risk in Abdominal Aortic Aneurysms

Maier, Andreas

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Andreas Maier

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Original title:: Computational Modeling of Rupture Risk in Abdominal Aortic Aneurysms
Translated title:: Computergestützte Modellierung des Rupturrisikos abdomineller Aortenaneurysmen
Author:: Maier, Andreas
Year:: 2012
Document type:: Dissertation
Faculty/School:: Fakultät für Maschinenwesen
Advisor:: Wall, Wolfgang A. (Prof. Dr.)
Referee:: Wall, Wolfgang A. (Prof. Dr.); Eckstein, Hans-Henning Georg Ulrich (Prof. Dr.); Figueroa, C. Alberto (Assoc. Prof., Ph.D.)
Language:: en
Subject group:: MAS Maschinenbau; MED Medizin
Keywords:: Abdominal Aortic Aneurysm, Finite Elements, Mechanobiology
Translated keywords:: Abdominelles Aortenaneurysma, Finite Elemente, Mechanobiologie
Controlled terms:: Bauchaorta; Aneurysma; Ruptur; Risiko; Biomechanik; Computersimulation
TUM classification:: MED 332d; MED 411d; PHY 840d; MTA 009dt:
Abstract:: An abdominal aortic aneurysm (AAA) is a frequently asymptomatic ballooning of the aorta, which in case of rupture is terminal for the patient. Experiments on mechanical properties of AAA wall, investigations on biological processes measured by PET images, as well as FE simulations to determine in vivo wall stress were combined to clarify the so far poorly understood mechanobiology during AAA development. Mechanics-based indices were developed, which provide a reliable AAA rupture risk prediction. «
An abdominal aortic aneurysm (AAA) is a frequently asymptomatic ballooning of the aorta, which in case of rupture is terminal for the patient. Experiments on mechanical properties of AAA wall, investigations on biological processes measured by PET images, as well as FE simulations to determine in vivo wall stress were combined to clarify the so far poorly understood mechanobiology during AAA development. Mechanics-based indices were developed, which provide a reliable AAA rupture risk predictio... »
Translated abstract:: Ein Aortenaneurysma (AAA) ist eine meist asymptomatische Aortenerweiterung, dessen Ruptur aber für den Patienten oft tödlich endet. Messungen der mechanischen Eigenschaften von AAA Gewebe wurden mit in vivo gemessenen Stoffwechselvorgängen (PET/CT) und FE-Analysen patienten-spezifischer AAA Geometrien kombiniert um mechanobiologische Wechselwirkungen bei der AAA-Entstehung besser zu verstehen. Auf dieser Basis wurden Indikatoren zur präzisen Identifizierung von Hochrisikopatienten entwickelt.
Series:: Technische Universität / Lehrstuhl für Numerische Mechanik
Series volume:: 16
WWW:: https://mediatum.ub.tum.de/?id=1109985
Date of submission:: 28.06.2012
Oral examination:: 11.10.2012
File size:: 7956723 bytes
Pages:: 202
Urn (citeable URL):: https://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:91-diss-20121011-1109985-0-2
Last change:: 02.10.2014
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