Invasive Assessment of the Coronary Microcirculation: Superior Reproducibility and Less Hemodynamic Dependence of Index of Microcirculatory Resistance Compared With Coronary Flow Reserve

doi:10.1161/CIRCULATIONAHA.105.603522

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Circulation. 2006;113:2054-2061
Published online before print April 24, 2006, doi: 10.1161/CIRCULATIONAHA.105.603522

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(Circulation. 2006;113:2054-2061.)
© 2006 American Heart Association, Inc.

Coronary Heart Disease

Invasive Assessment of the Coronary Microcirculation

Superior Reproducibility and Less Hemodynamic Dependence of Index of Microcirculatory Resistance Compared With Coronary Flow Reserve

Martin K.C. Ng, MBBS, PhD; Alan C. Yeung, MD; William F. Fearon, MD

From the Division of Cardiovascular Medicine (M.K.C.N., A.C.Y., W.F.F.), Stanford University Medical Center, Stanford, Calif, and the Department of Cardiology (M.K.C.N.), Royal Prince Alfred Hospital, Sydney, Australia.

Correspondence to William F. Fearon, Stanford University Medical Center, H3554, 300 Pasteur Dr, Stanford, CA 94305. E-mail wfearon{at}stanford.edu

Received November 23, 2005; revision received February 2, 2006; accepted March 2, 2006.

Background— A simple, reproducible invasive method forassessing the coronary microcirculation is lacking. A novelindex of microcirculatory resistance (IMR) has been shown inanimals to correlate with true microvascular resistance and,unlike coronary flow reserve (CFR), to be independent of theepicardial artery. We sought to compare the reproducibilityand hemodynamic dependence of IMR with CFR in humans.

Methods and Results— Using a pressure-temperature sensor-tippedcoronary wire, thermodilution-derived CFR and IMR were measured,along with fractional flow reserve (FFR), in 15 coronary arteries(15 patients) under the following hemodynamic conditions: (1)twice at baseline; (2) during right ventricular pacing at 110bpm; (3) during intravenous infusion of nitroprusside; and (4)during intravenous dobutamine infusion. Mean CFR did not changeduring baseline measurements or during nitroprusside infusionbut decreased during pacing (from 3.1±1.1 at baselineto 2.3±1.2 during pacing, P<0.05) and during dobutamineinfusion (from 3.0±1.0 to 1.7±0.6 with dobutamine,P<0.0001). By comparison, mean values for IMR and FFR remainedsimilar throughout all hemodynamic conditions. The mean coefficientof variation between 2 baseline measurements was significantlylower for IMR (6.9±6.5%) and FFR (1.6±1.6%) thanfor CFR (18.6±9.6%; P<0.01). Mean correlation betweenbaseline measurements and each hemodynamic intervention wassuperior for IMR (r=0.90±0.05) and FFR (r=0.86±0.12)compared with CFR (r=0.70±0.05; P<0.05).

Conclusions— Compared with CFR, IMR provides a more reproducibleassessment of the microcirculation, which is independent ofhemodynamic perturbations. Simultaneous measurement of FFR andIMR may provide a comprehensive and specific assessment of coronaryphysiology at both epicardial and microvascular levels, respectively.

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