Researcher
Bram Trachet
- Disciplines:Scientific computing, Computer theory, Computer hardware, Other computer engineering, information technology and mathematical engineering, Electronics
Affiliations
- Department of Electronics and information systems (Department)
Member
From1 Oct 2013 → 30 Sep 2021 - Department of Civil engineering (Department)
Member
From1 Jan 2009 → 30 Sep 2013 - Department of Pediatrics and medical genetics (Department)
Member
From1 Dec 2007 → 31 Dec 2008 - Department of Information technology (Department)
Member
From1 Oct 2007 → 30 Nov 2007
Projects
1 - 3 of 3
- Aortic side branch biomechanics in aortic dissection and rupture - an experimental and computational study in miceFrom1 Jan 2017 → 31 Dec 2020Funding: FWO research project (including WEAVE projects)
- The role of aortic side branches in the initiation and evolution of ascending aortic aneurysm and dissecting abdominal aortic aneurysm in ApoE -/- miceFrom1 Oct 2015 → 30 Sep 2019Funding: FWO fellowships
- Characterizing a rupture-prone mouse model of aortic aneurysm: the road to post-mortem validation of AAA rupture risk predicted by biomechanical computational modelsFrom1 Oct 2013 → 30 Sep 2017Funding: BOF - Other initiatives
Publications
1 - 10 of 135
- The effect of the elongation of the proximal aorta on the estimation of the aortic wall distensibility(2021)
Authors: Stamatia Z. Pagoulatou, Mauro Ferraro, Bram Trachet, Vasiliki Bikia, Georgios Rovas, Lindsey A. Crowe, Jean-Paul Vallee, Dionysios Adamopoulos, Nikolaos Stergiopulos
Pages: 107 - 119 - Outflow through aortic side branches drives false lumen patency in type B aortic dissection(2021)
Authors: Gerlinde Logghe, Bram Trachet, Patrick Segers, Julie De Backer, Joscha Mulorz, Philip Dueppers, Frank Vermassen, Hubert Schelzig, Isabelle Van Herzeele, Markus U. Wagenhäuser
- Co-localization of microstructural damage and excessive mechanical strain at aortic branches in angiotensin-II-infused mice(2020)
Authors: Lydia Aslanidou, Mauro Ferraro, Goran Lovric, Matthew R. Bersi, Jay D. Humphrey, Patrick Segers, Bram Trachet, Nikos Stergiopulos
Pages: 81 - 97 - Noninvasive cardiac output and central systolic pressure from cuff-pressure and pulse wave velocity(2020)
Authors: Vasiliki Bikia, Stamatia Pagoulatou, Bram Trachet, Dimitrios Soulis, Athanase Protogerou, Theodore Papaioannou, Nikos Stergiopulos
Pages: 1968 - 1981 - Can we neglect the effect of the elongation of the aorta during systole when estimating aortic wall stiffness(2019)
Authors: Stamatia Pagoulatou, Mauro Ferraro, Bram Trachet, Vasiliki Bikia, Dionysios Adamopoulos, Nikos Stergiopulos
Pages: 72 - 72 - On the importance of the nonuniform aortic stiffening in the hemodynamics of physiological aging(2019)
Authors: Stamatia Z. Pagoulatou, Vasiliki Bikia, Bram Trachet, Theodore G. Papaioannou, Athanase D. Protogerou, Nikolaos Stergiopulos
Pages: H1125 - H1133 - Synchrotron-based pressure inflation experiments to model the mouse carotid artery microstructure in 3D(2019)
Authors: Bram Trachet, Mauro Ferraro, Goran Lovric, Lydia Aslanidou, Gerlinde Logghe, Nikolaos Stergiopulos, Patrick Segers
Pages: 84 - 84 - Synchrotron-based phase contrast imaging of cardiovascular tissue in mice-grating interferometry or phase propagation?(2019)
Authors: Bram Trachet, Goran Lovric, Pablo Villanueva-Perez, Lydia Aslanidou, Mauro Ferraro, Gerlinde Logghe, Nikolaos Stergiopulos, Patrick Segers
Pages: 1 - 11 - Estimation of patient-specific central hemodynamic indices from brachial pressure and pulse wave velocity(2019)
Authors: Vasiliki Bikia, Stamatia Pagoulatou, Bram Trachet, Dimitrios Soulis, Athanase Protogerou, Theodore Papaioannou, Nikolaos Stergiopulos
Pages: 198 - 198 - Synchrotron-based quasi-static pressure inflation of the mouse carotid artery(2019)
Authors: Bram Trachet, Mauro Ferraro, Goran Lovric, Lydia Aslanidou, Gerlinde Logghe, Patrick Segers, Nikolaos Stergiopulos
Number of pages: 1