Diastolic Hyperemia Free Index for Assessment of Moderate Coronary Stenoses

Summary

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Description

With the release of DEFINE-FLAIR and iFR SWEDEHEART, coronary physiology and namely iFR, have robust clinical data supporting its routine use in the cardiac catheterization lab. Unfortunately, iFR is a proprietary algorithm owned by Phillips Volcano Corporation (San diego, California, USA) limiting ...

With the release of DEFINE-FLAIR and iFR SWEDEHEART, coronary physiology and namely iFR, have robust clinical data supporting its routine use in the cardiac catheterization lab. Unfortunately, iFR is a proprietary algorithm owned by Phillips Volcano Corporation (San diego, California, USA) limiting the use of iFR to those centers with Volcano hardware. Whole cardiac cycle Pd/Pa has been another resting measure that has been evaluated and generally performs poorly compared to FFR. Although iFR is measured during the wave free period in diastole, to date there has been no assessment of diastolic Pd/Pa measurements and its potential correlation with the severity of coronary stenoses. Most importantly, evaluating the pressure differential across the entirety of diastole must by definition contain the "iFR value" and therefore should correlate very close with the iFR assessment. Preliminary unpublished data analyzing physiologic data in benchtop modeling from the VERIFY and CONTRAST studies suggest a very high correlation between iFR and diastolic Pd/Pa. This relationship strengthens when measurements are limited to 65% of diastole, hereby named the Diastolic hyperemia-Free Ratio (DFR). These data strongly suggest that DFR could be used as surrogate for iFR when iFR is not available and thus leverage the large clinical outcomes data for iFR in a new measure that is widely available to all standard coronary pressure wires. Although this preliminary data is strong, none of these measures where made prospectively in actual patients and the iFR was measured off simulated benchtop pressure waveform modeling. This study aims to perform a real-time correlation and agreement between iFR and DFR in patients with moderate coronary stenoses and indications for physiologic assessment.

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