Keywords: Motion Correction, Cardiovascular, Pilot Tone, Cardiac Trigger
Motivation: This research aims to refine Pilot Tone (PT) cardiac triggering, which can be impacted by changes in signal amplitude caused by breath-holding.
Goal(s): Its primary goal is to develop and validate a real-time correction algorithm that improves the PT cardiac trigger stability during breath-holds without introducing additional variability during free breathing.
Approach: The algorithm analyzes PT data for respiratory patterns to adapt beat-by-beat amplitude correction of the cardiac signal. The methodology was tested with different breathing paradigms at 1.5T and 3T to assess robustness.
Results: The correction successfully adjusted PT cardiac signal amplitude, reducing missed triggers across respiratory patterns without increasing triggering variation.
Impact: The described real-time correction improves the reliability of cardiac PT triggers during inspiratory breath-hold maneuvers, increasing the opportunities to replace ECG triggering with PT triggering, and therefore to eliminate the need for ECG leads.
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