Ghent University Academic Bibliography

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- Conference Paper
- C3
Fluid-structure interaction simulation of simplified Ross procedure for assessment of in-vivo wall-shear stress dynamics

Amith Balasubramanya (UGent) , Julie Vastmans, Lauranne Maes, Mathias Peirlinck (UGent) , Piet Claus, Filip Rega, Joris Degroote (UGent) , Nele Famaey (UGent) and Patrick Segers (UGent)

(2022) 17th International symposium on Biomechanics in Vascular Biology and Cardiovascular Disease, Abstracts.
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- Journal Article
- A1
Growth and remodeling in the pulmonary autograft : computational evaluation using kinematic growth models and constrained mixture theory

Julie Vastmans, Lauranne Maes, Mathias Peirlinck (UGent) , Emma Vanderveken, Filip Rega, Ellen Kuhl and Nele Famaey

(2022) INTERNATIONAL JOURNAL FOR NUMERICAL METHODS IN BIOMEDICAL ENGINEERING. 38(1).
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- Journal Article
- A1
Kinematic boundary conditions substantially impact in silico ventricular function

Mathias Peirlinck (UGent) , Kevin L. Sack, Pieter De Backer (UGent) , Pedro Morais, Patrick Segers (UGent) , Thomas Franz and Matthieu De Beule (UGent)

(2019) INTERNATIONAL JOURNAL FOR NUMERICAL METHODS IN BIOMEDICAL ENGINEERING. 35(1).
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- Journal Article
- A1
- open access
Using machine learning to characterize heart failure across the scales

Mathias Peirlinck (UGent) , F. Sahli Costabal, K. L. Sack, J. S. Choy, G. S. Kassab, J. M. Guccione, M. De Beule, Patrick Segers (UGent) and E. Kuhl

(2019) BIOMECHANICS AND MODELING IN MECHANOBIOLOGY. 18(6). p.1987-2001
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- PhD Thesis
- open access
Bridging spatiotemporal scales in biomechanical models for living tissues : from the contracting Esophagus to cardiac growth

Mathias Peirlinck (UGent)

(2019)
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- Conference Paper
- C3
The in vivo stress state of human cardiovascular tissue

Mathias Peirlinck (UGent) , Matthieu De Beule (UGent) , Patrick Segers (UGent) and Nuno Rebelo

(2018)
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- Conference Paper
- C3
Patient-specific biomechanical analysis of the stented and actively contracting esophagus

Mathias Peirlinck (UGent) , Nic Debusschere (UGent) , Francesco Iannaccone (UGent) , Peter Siersema, Benedict Verhegghe (UGent) , Patrick Segers (UGent) and Matthieu De Beule (UGent)

(2018)
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- Conference Paper
- P1
Analyzing the shear wave mechanics in cardiac shear wave elastography using finite element simulations

Annette Caenen (UGent) , Mathieu Pemot, Mathias Peirlinck (UGent) , Luc Mertens and Patrick Segers (UGent)

(2018) 2018 IEEE INTERNATIONAL ULTRASONICS SYMPOSIUM (IUS). In IEEE International Ultrasonics Symposium p.1-4
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- Journal Article
- A1
An in silico biomechanical analysis of the stent–esophagus interaction

Mathias Peirlinck (UGent) , Nic Debusschere (UGent) , Francesco Iannaccone (UGent) , Peter D. Siersema, Benedict Verhegghe (UGent) , Patrick Segers (UGent) and Matthieu De Beule (UGent)

(2018) BIOMECHANICS AND MODELING IN MECHANOBIOLOGY. 17(1). p.111-131
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- Journal Article
- A1
A modular inverse elastostatics approach to resolve the pressure-induced stress state for in vivo imaging based cardiovascular modeling

Mathias Peirlinck (UGent) , Matthieu De Beule (UGent) , Patrick Segers (UGent) and Nuno Rebelo

(2018) JOURNAL OF THE MECHANICAL BEHAVIOR OF BIOMEDICAL MATERIALS. 85. p.124-133
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- Journal Article
- A1
An in silico framework to analyze the anisotropic shear wave mechanics in cardiac shear wave elastography

Annette Caenen (UGent) , Mathieu Pernot, Mathias Peirlinck (UGent) , Luc Mertens, Abigail Swillens and Patrick Segers (UGent)

(2018) PHYSICS IN MEDICINE AND BIOLOGY. 63(7).
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- Conference Paper
- C3
- open access
Patient-specific biomechanical analysis of the actively contracting and buckling (stented) esophagus

Mathias Peirlinck (UGent) , Nic Debusschere (UGent) , Francesco Iannaccone (UGent) , Peter D. Siersema, Benedict Verhegghe (UGent) , Matthieu De Beule (UGent) and Patrick Segers (UGent)

(2017) p.1-2
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- Conference Paper
- C3
- open access
Stenting the patient-specific, actively contacting and buckling esophagus: a finite element analysis

Mathias Peirlinck (UGent) , Nic Debusschere (UGent) , Francesco Iannaccone (UGent) , Peter D. Siersema, Benedict Verhegghe (UGent) , Patrick Segers (UGent) and Matthieu De Beule (UGent)

(2017) p.58-58
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- Conference Paper
- C3
Flow optimization in the reconstructed hypoplastic aortic arch

Mathias Peirlinck (UGent) , Björn Butz, Karl D'Souza, Brian Baillargeon, Luc Mertens, Katrien Francois (UGent) , Patrick Segers (UGent) , Alison L Marsden, Matthieu De Beule (UGent) and Steven Levine

(2016) Proceedings of the 5th international conference on engineering  frontiers   in  pediatric  and  congenital  heart  disease. p.76-78
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- Conference Paper
- C1
Computer simulations of esophageal stent implantation

Mathias Peirlinck (UGent) , Nic Debusschere (UGent) , Benedict Verhegghe (UGent) , Patrick Segers (UGent) and Matthieu De Beule (UGent)

(2015) 4th International Conference on Computational & Mathematical Biomedical Engineering; Proceedings. p.530-533
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- Conference Paper
- C3
An in silico biomechanical analysis of the stent-esophagus interaction

Mathias Peirlinck (UGent) , Benedict Verhegghe (UGent) , Patrick Segers (UGent) and Matthieu De Beule (UGent)

(2015) Proceedings of the 2015 Summer Biomechanics, Bioengineering and Biotransport Conference. p.514-515
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- Conference Paper
- C3
Towards a full understanding of the link between oesophageal stent design and its clinical outcome

Mathias Peirlinck (UGent) , Benedict Verhegghe (UGent) , Patrick Segers (UGent) and Matthieu De Beule (UGent)

(2015) 21st Congress of the European Society of Biomechanics; Abstracts.
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- Conference Paper
- C1
A numerical framework to model the mechanical behavior of bioresorbable polymeric braided wire stents

Mathias Peirlinck (UGent) , Nic Debusschere (UGent) , Matthieu De Beule (UGent) , Peter Dubruel (UGent) , Patrick Segers (UGent) and Benedict Verhegghe (UGent)

(2014) Proceedings of the jointly organized 11th World congress on Computational Mechanics - WCCM XI ; 5th European conference on Computational Mechanics - ECCM V ; 6th European conference on Computational Fluid Dynamics - ECFD VI.
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- Conference Paper
- C3
Virtual stent implantation of a pediatric biodegradable stent

Mathias Peirlinck (UGent) , Nic Debusschere (UGent) , Matthieu De Beule (UGent) , Patrick Segers (UGent) and Benedict Verhegghe (UGent)

(2014) INTERNATIONAL JOURNAL OF ARTIFICIAL ORGANS. 37(8). p.624-625
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- Journal Article
- A1
Can we develop self-expandable metallic stents without consideration of mechanical properties?: reply

Meike Hirdes, Mathias Peirlinck (UGent) , Matthieu De Beule (UGent) and Peter D. Siersema

(2014) ENDOSCOPY. 46(8). p.716-716
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- Conference Paper
- C3
Biodegradable stents for pediatric applications: a virtual simulation framework

Mathias Peirlinck (UGent) , Nic Debusschere (UGent) , Matthieu De Beule (UGent) , Patrick Segers (UGent) and Benedict Verhegghe (UGent)

(2014) Engineering  Frontiers   in  Pediatric  and  Congenital  Heart  Disease, 4th  International  conference, Abstracts. p.19-19

Academic Bibliography

Fluid-structure interaction simulation of simplified Ross procedure for assessment of in-vivo wall-shear stress dynamics

Growth and remodeling in the pulmonary autograft : computational evaluation using kinematic growth models and constrained mixture theory

Kinematic boundary conditions substantially impact in silico ventricular function

Using machine learning to characterize heart failure across the scales

Bridging spatiotemporal scales in biomechanical models for living tissues : from the contracting Esophagus to cardiac growth

The in vivo stress state of human cardiovascular tissue

Patient-specific biomechanical analysis of the stented and actively contracting esophagus

Analyzing the shear wave mechanics in cardiac shear wave elastography using finite element simulations

An in silico biomechanical analysis of the stent–esophagus interaction

A modular inverse elastostatics approach to resolve the pressure-induced stress state for in vivo imaging based cardiovascular modeling

An in silico framework to analyze the anisotropic shear wave mechanics in cardiac shear wave elastography

Patient-specific biomechanical analysis of the actively contracting and buckling (stented) esophagus

Stenting the patient-specific, actively contacting and buckling esophagus: a finite element analysis

Flow optimization in the reconstructed hypoplastic aortic arch

Computer simulations of esophageal stent implantation

An in silico biomechanical analysis of the stent-esophagus interaction

Towards a full understanding of the link between oesophageal stent design and its clinical outcome

A numerical framework to model the mechanical behavior of bioresorbable polymeric braided wire stents

Virtual stent implantation of a pediatric biodegradable stent

Can we develop self-expandable metallic stents without consideration of mechanical properties?: reply

Biodegradable stents for pediatric applications: a virtual simulation framework

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