Doctor Tim De Coster

Doctor Tim De Coster

Leiden University Medical Center, Leiden (Netherlands (The))

Member of:

Tim De Coster is specialized in mathematical modeling and computational methods, with a special interest in the biophysics underling cardiac arrhythmias. After obtaining his Master's degree in Theoretical Physics at KU Leuven (Belgium), he started his PhD training in the cardiac interdisciplinary field at the Physics department at UGent (Belgium) and the Biomedical Sciences department at KU Leuven (Belgium) under the supervision of Sasha Panfilov, Piet Claus and Karin Sipido. For his thesis, he investigated the influence of adipose tissue into the genesis of cardiac arrhythmias, both looking at structural and electrical changes to the heart. He joined the LUMC Laboratory of Experimental Cardiology in the fall of 2018 to delve deeper into the concept and realisation of biological cardiac defibrillation.

Presentations

Exploring translational approaches for fully biological cardiac rhythm restoration through ion channel gene therapy

Event: Frontiers in CardioVascular Biomedicine 2024

Topic: Ion Channels, Electrophysiology

Session: Pro-arrhythmic mechanisms and anti-arrhythmic strategies

Access

Translational exploration of fully biological restoration of cardiac rhythm via ion channel gene therapy

Event: EHRA 2024

Topic: Ion Channels, Electrophysiology

Session: Basic science: genetic

Access

Trapped re-entry challenges the binary view on cardiac arrhythmias

Event: ESC Congress 2023

Topic: Arrhythmias

Session: Novel mechanistic insights into arrhythmias

Access

Identification of electrical rotational activity in noisy cardiac tissue recordings using a deep neural network

Event: EHRA 2022

Topic: Arrhythmias

Session: ePosters Day 2

Access

Trapped re-entry: a dormant source of arrhythmia

Event: EHRA 2022

Topic: Arrhythmias

Session: Young Investigator Award - Basic and Translational Science

Access

Computational translational exploration of fully biological restoration of cardiac rhythm via ion channel gene therapy

Event: EHRA 2022

Topic: Ion Channels, Electrophysiology

Session: ePosters Day 1

Access

Realization of fully biological restoration of cardiac rhythm: a computational translational exploration

Event: ESC Congress 2021 - The Digital Experience

Topic: Ion Channels, Electrophysiology

Session: Basic science e-posters

Access

"Trapped reentry" as a dormant source of acute focal arrhythmia and fractionated atrial electrograms under sinus rhythm

Event: ESC Congress 2020

Topic: Arrhythmias

Session: Basic Science Cardiac ePosters

Access

Myocyte remodelling due to fibro-fatty infiltrations influences arrhythmogenicity

Event: Frontiers in CardioVascular Biology 2018

Topic: Arrhythmias

Session: Basic Science - Cardiac Diseases

Access

Doctor Tim De Coster

Biography

Contributor content

Exploring translational approaches for fully biological cardiac rhythm restoration through ion channel gene therapy

Translational exploration of fully biological restoration of cardiac rhythm via ion channel gene therapy

Trapped re-entry challenges the binary view on cardiac arrhythmias

Identification of electrical rotational activity in noisy cardiac tissue recordings using a deep neural network

Trapped re-entry: a dormant source of arrhythmia

Computational translational exploration of fully biological restoration of cardiac rhythm via ion channel gene therapy

Realization of fully biological restoration of cardiac rhythm: a computational translational exploration

"Trapped reentry" as a dormant source of acute focal arrhythmia and fractionated atrial electrograms under sinus rhythm

Myocyte remodelling due to fibro-fatty infiltrations influences arrhythmogenicity

ESC 365 is supported by