Research Explorer

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Mathias Peirlinck

19 Resultaten

2019

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

Mathias PeirlinckPatrick SegersMatthieu De BeuleBenedict Verhegghe

Kinematic boundary conditions substantially impact in silico ventricular function

Mathias PeirlinckKevin L. SackPieter De BackerPedro MoraisPatrick SegersThomas FranzMatthieu De Beule

A1 Artikel in een tijdschrift in INTERNATIONAL JOURNAL FOR NUMERICAL METHODS IN BIOMEDICAL ENGINEERING

Using machine learning to characterize heart failure across the scales

Mathias PeirlinckF. Sahli CostabalK. L. SackJ. S. ChoyG. S. KassabJ. M. GuccioneM. De BeulePatrick SegersE. Kuhl

A1 Artikel in een tijdschrift in BIOMECHANICS AND MODELING IN MECHANOBIOLOGY

2018

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

Mathias PeirlinckMatthieu De BeulePatrick SegersNuno Rebelo

A1 Artikel in een tijdschrift in JOURNAL OF THE MECHANICAL BEHAVIOR OF BIOMEDICAL MATERIALS

An in silico biomechanical analysis of the stent–esophagus interaction

Mathias PeirlinckNic DebusschereFrancesco IannacconePeter D. SiersemaBenedict VerhegghePatrick SegersMatthieu De Beule

A1 Artikel in een tijdschrift in BIOMECHANICS AND MODELING IN MECHANOBIOLOGY

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

Annette CaenenMathieu PernotMathias PeirlinckLuc MertensAbigail SwillensPatrick Segers

A1 Artikel in een tijdschrift in PHYSICS IN MEDICINE AND BIOLOGY

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

Annette CaenenMathieu PemotMathias PeirlinckLuc MertensPatrick Segers

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

Mathias PeirlinckNic DebusschereFrancesco IannacconePeter SiersemaBenedict VerhegghePatrick SegersMatthieu De Beule

The in vivo stress state of human cardiovascular tissue

Mathias PeirlinckMatthieu De BeulePatrick SegersNuno Rebelo

2017

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

Mathias PeirlinckNic DebusschereFrancesco IannacconePeter D. SiersemaBenedict VerheggheMatthieu De BeulePatrick Segers

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

Mathias PeirlinckNic DebusschereFrancesco IannacconePeter D. SiersemaBenedict VerhegghePatrick SegersMatthieu De Beule

2016

Flow optimization in the reconstructed hypoplastic aortic arch

Mathias PeirlinckBjörn ButzKarl D'SouzaBrian BaillargeonLuc MertensKatrien FrancoisPatrick SegersAlison L MarsdenMatthieu De BeuleSteven Levine

2015

An in silico biomechanical analysis of the stent-esophagus interaction

Mathias PeirlinckBenedict VerhegghePatrick SegersMatthieu De Beule

Computer simulations of esophageal stent implantation

Mathias PeirlinckNic DebusschereBenedict VerhegghePatrick SegersMatthieu De Beule

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

Mathias PeirlinckBenedict VerhegghePatrick SegersMatthieu De Beule

2014

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

Mathias PeirlinckNic DebusschereMatthieu De BeulePeter DubruelPatrick SegersBenedict Verhegghe

Biodegradable stents for pediatric applications: a virtual simulation framework

Mathias PeirlinckNic DebusschereMatthieu De BeulePatrick SegersBenedict Verhegghe

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

Meike HirdesMathias PeirlinckMatthieu De BeulePeter D. Siersema

A1 Artikel in een tijdschrift in ENDOSCOPY

Virtual stent implantation of a pediatric biodegradable stent

Mathias PeirlinckNic DebusschereMatthieu De BeulePatrick SegersBenedict Verhegghe