Description

The presence of myocardial ischemia is the most important prognostic indicator in patients with coronary artery disease. Pressure-based functional assessment has been recommended to assess the presence of myocardial ischemia due to low accuracy of image-based assessment in intermediate coronary artery disease. Selective revascularization for only ischemia-producing lesion with fractinal flow reserve(FFR) guidance proved to decrease adverse cardiac events and avoid unnecessary coronary stenting, compared to angiography-guided revascularization. Therefore, Current guidelines strongly recommend FFR measurement for the assessment of the functional severity of moderate stenosis of a culprit lesion in stable coronary artery disease, and non-culprit lesion in acute coronary syndrome. However, it's clinical adaption in a real world was still very low, because of the need of pressure wire and hyperemic agent. Instantaneous flow ratio (iFR), which the ratio of distal coronary artery pressure to aortic pressure during wave-free period at rest, had a high diagnostic accuracy to define functional significance without need of adenosine. According to two large randomized trials, iFR-guided coronary revascularization proved to be non-inferior to FFR-guided revascularization with respect to one-year risk of major adverse cardiac events. Recently, new adenosine-free index, called as a resting full-cycle ratio (RFR), which is completely independent of the ECG and irrespective of systole or diastole has been validated to detect myocardial ischemia. RFR is not limited by sensitive land marking of components of the pressure waveform unlike iFR, and is diagnostically equivalent to iFR.

This novel physiologic index without need of adenosine have a potential to widely spread of functional assessment for coronary artery stenosis in daily clinical practice, and simplify procedure in complex coronary artery disease. Therefore, we sought to investigate diagnostic performance of this novel physiologic index to define myocardial ischemia in coronary bifurcation lesion, which is one of complex lesion subset.