The principal aim is to analyze total left and right ventricular activation time in different CRT device programming algorithms (SyncAV) measured by non-invasive electrophysiology
Patient specific anatomic parameters taken from the cardiac magnetic resonance examination will be the base for a semiautomatic model incorporating the conductivity of the heart, the lungs, blood and the torso. For this reason, a software package (AMIRA Developer, TGS Template Graphics Software, France) has been adapted to calculate a quasi static approximation of Maxwell equations. After fusion of the T1 CMR scan and the ECG electrodes a model-based bidomain FEM is used for a step-wise measurement of the local activation times (resting potential: 290 mV; plateau: 0 mV; acceleration time: 3 ms) both Ende- and epicardially.
Study Type
INTERVENTIONAL
Allocation
NA
Purpose
DIAGNOSTIC
Masking
NONE
Enrollment
25
Non-invasive electrophysiology with 65 ECG leads will be performed in 16 different device programming
Medical University Innsbruck
Innsbruck, Tyrol, Austria
RECRUITINGOptimal (shortest) activation time of the right and left ventricular in heart failure patients after CRT implantation
The activation time will be measured in 16 different device programming settings
Time frame: The measurements will be done at Day 1
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