Doctor Matthijs Cluitmans

Doctor Matthijs Cluitmans

Cardiovascular Research Institute Maastricht (CARIM), Maastricht (Netherlands (The))

Matthijs Cluitmans is passionate about translating scientific insights and technology developments into healthcare impact. He is driven to further our understanding of cardiac arrhythmias, and to improve the diagnosis and therapy of patients with heart rhythm disorders. As an assistant professor at Maastricht University Medical Centre and a senior scientist at Philips Research, he combines his scientific curiosity with the clinical need for valorization. Ultimately, he hopes to use his dual background as a biomedical engineer and medical doctor to bring the fields of industrial engineering, academic science, and clinical medicine closer together.

Presentations

Interplay between scar and functional alterations for arrhythmia risk stratification

Event: EHRA 2023

Topic: Ventricular Arrhythmias and Sudden Cardiac Death (SCD)

Session: Basic Science 2 - Finding novel targets for ventricular arrhythmias and SCD

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A novel trigger-substrate mechanism based on clinically concealed repolarization abnormalities underlies idiopathic ventricular fibrillation

Event: ESC Congress 2020

Topic: Arrhythmias

Session: New Insights into Arrhythmogenesis

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Large repolarization gradients increase susceptibility to trigger-induced arrhythmias and are not reflected by QT time

Event: EHRA 2019

Topic: Pathophysiology and Mechanisms

Session: Moderated ePosters 8: channelopathies & cardiomyopathies

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Follow-up electrocardiographic imaging does not require repeat imaging of body-surface electrodes

Event: EHRA 2018

Topic: Arrhythmias, General: Non-invasive Diagnostic Methods

Session: Atrial fibrillation - Clinical

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Noninvasive localization of premature ventricular complexes: a research-community-based approach

Event: EHRA 2018

Topic: Arrhythmias, General: Non-invasive Diagnostic Methods

Session: Ventricular tachycardia

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Combining noninvasive imaging of repolarization with whole-heart computational modelling for personalized medicine in primary ventricular fibrillation

Event: EHRA 2018

Topic: Arrhythmias, General – Pathophysiology and Mechanisms

Session: Ventricular tachycardia

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Integration of noninvasive imaging of repolarization and cellular modelling for personalized medicine in primary ventricular fibrillation

Event: EHRA EUROPACE - CARDIOSTIM 2017

Topic: Mechanism (Basic Science in Arrhythmias)

Session: Young Investigator Award: Basic and Translational Science

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Doctor Matthijs Cluitmans

Biography

Contributor content

Interplay between scar and functional alterations for arrhythmia risk stratification

A novel trigger-substrate mechanism based on clinically concealed repolarization abnormalities underlies idiopathic ventricular fibrillation

Large repolarization gradients increase susceptibility to trigger-induced arrhythmias and are not reflected by QT time

Follow-up electrocardiographic imaging does not require repeat imaging of body-surface electrodes

Noninvasive localization of premature ventricular complexes: a research-community-based approach

Combining noninvasive imaging of repolarization with whole-heart computational modelling for personalized medicine in primary ventricular fibrillation

Integration of noninvasive imaging of repolarization and cellular modelling for personalized medicine in primary ventricular fibrillation

ESC 365 is supported by

Doctor Matthijs Cluitmans Follow

Biography

Contributor content

Interplay between scar and functional alterations for arrhythmia risk stratification

A novel trigger-substrate mechanism based on clinically concealed repolarization abnormalities underlies idiopathic ventricular fibrillation

Large repolarization gradients increase susceptibility to trigger-induced arrhythmias and are not reflected by QT time

Follow-up electrocardiographic imaging does not require repeat imaging of body-surface electrodes

Noninvasive localization of premature ventricular complexes: a research-community-based approach

Combining noninvasive imaging of repolarization with whole-heart computational modelling for personalized medicine in primary ventricular fibrillation

Integration of noninvasive imaging of repolarization and cellular modelling for personalized medicine in primary ventricular fibrillation

ESC 365 is supported by

Doctor Matthijs Cluitmans