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Medical and health sciences
- Laboratory medicine
- Palliative care and end-of-life care
- Regenerative medicine
- Other basic sciences
- Laboratory medicine
- Palliative care and end-of-life care
- Regenerative medicine
- Other clinical sciences
- Other health sciences
- Nursing
- Other paramedical sciences
- Laboratory medicine
- Palliative care and end-of-life care
- Regenerative medicine
- Other translational sciences
- Other medical and health sciences
The project starts with the in depth characterization of Cx43 hemichannels as channels commanded by
voltage, intracellular Ca2+ and mechanical forces (WP1). These data will be incorporated into an existing and
well acknowledged multi-scale model of the heart aiming to predict the effects of hemichannel opening on three
well chosen arrhythmia conditions described in WP2, WP3 & WP4. In these WPs, we test the computational
predictions in experimental work.
WP2 focuses on the effect of hemichannels on arrhythmia initiation via the mechanisms of early
afterdepolarization (EAD), delayed afterdepolarization (DAD) and re-entry.
WP3 focuses on the effect of hemichannels on beat-to-beat variation of repolarization, which is one of the
most promising biomarkers allowing to predict the onset of an immenent arrhythmia.
WP4 focuses on the influence of hemichannels on the success of a defibrillation intervention.