RT Journal Article
SR Electronic
T1 30 Head-to-Head Comparison of Two Novel Indices of Microcirculatory Resistance at Predicting Microvascular Dysfunction. Use of the Best Index to Explore the Effect of Cold Air Inhalation During Exercise in Coronary Artery Disease Patients
JF Heart
JO Heart
FD BMJ Publishing Group Ltd and British Cardiovascular Society
SP A20
OP A21
DO 10.1136/heartjnl-2016-309890.30
VO 102
IS Suppl 6
A1 Rupert Williams
A1 Kaleab Asrress
A1 Matthew Lumley
A1 Guus de Waard
A1 Kalpa De Silva
A1 Satpal Arri
A1 Howard Ellis
A1 Tiffany Patterson
A1 Vasiliki Manou-Stathopoulou
A1 Zeeshan Khawaja
A1 Natalia Briceno
A1 Brian Clapp
A1 Sven Plein
A1 Niels van Royen
A1 Divaka Perera
A1 Mike Marber
A1 Simon Redwood
YR 2016
UL http://heart.bmj.com/content/102/Suppl_6/A20.abstract
AB Introduction Highest rates of exertion related cardiac death occur during cold air inhalation (CAI): e.g. shovelling snow, but the pathophysiology is unclear. Novel intracoronary wires that simultaneously measure arterial pressure (Pd) and blood flow (CBF) allow quantification of coronary micro-vascular resistance (MVR). A. We compared the accuracy of Doppler-derived hyperemic micro-vascular resistance (hMR) and thermodilution-derived index of microcirculatory resistance (IMR) at predicting micro-vascular dysfunction, as there is no current invasive gold-standard measurement of MVR. B. In coronary artery disease (CAD) patients we explored the effects of exercise with and without CAI on MVR (using the most accurate measure from A.) and CBF.Methods A. 56 patients (61+/-10 years) undergoing cardiac catheterization for stable CAD or acute myocardial infarction (AMI) were recruited. Simultaneous intracoronary pressure, Doppler flow velocity and thermodilution were carried out in 74 unobstructed vessels, at rest and during hyperemia. Three independent measures of micro-vascular function were assessed, using predefined dichotomous thresholds: 1) CFRmean, the average value of Doppler- and thermodilution-derived coronary flow reserve (CFR), and cardiovascular magnetic resonance derived 2) Myocardial Perfusion Reserve Index (MPRI) and 3) Micro-vascular Obstruction (MVO). B. 35 CAD patients (61+/-9 years) undertook 5 min of either:CAI (-15oC)Exercise (Incremental supine ergometry)Exercise with CAI.We measured baseline and peak MVR (Pd/CBF) and CBF, and calculated the proportional contribution of waves that accelerate versus decelerate CBF as a coronary perfusion efficiency index.Results A. hMR had better diagnostic accuracy than IMR to predict CFRmean (area under curve, (AUC) 0.82 vs. 0.58, p &lt; 0.001, sensitivity/specificity 77/77% vs. 51/71%) and MPRI (AUC 0.85 vs. 0.72, p = 0.19, sensitivity/specificity 82/80% vs. 64/75%). In AMI patients, the AUCs of hMR and IMR at predicting MVO were 0.83 and 0.72 respectively (p = 0.22, sensitivity/specificity 78/74% vs. 44/91%).Abstract 30 Figure 1 Defining best measure of microvascular resistance B. 47 datasets were obtained:n = 10n = 24n = 13. (12 patients did both conditions 2 and 3, in randomized order).MVR increased during CAI alone (p = 0.04), and decreased during exercise (p &lt; 0.0001). Exercise with CAI was associated with less decrease in MVR (NS). The increase in CBF was similarly 34% less during exercise with CAI (p = 0.04) versus without (p &lt; 0.0001). Coronary perfusion efficiency increased during exercise (p &lt; 0.05), but CAI during exercise abolished this.Abstract 30 Figure 2 Simultaneous measurement of microvascular resistance during cold air inhalation and exerciseConclusions A. Doppler-derived hMR may have superior diagnostic accuracy than IMR at predicting invasive and non-invasive measures of micro-vascular function. B. CAI attenuates the reduction in MVR and the increases in CBF and coronary perfusion efficiency that normally occur during exercise. These suggest impedance of coronary vasodilatation and ventricular relaxation, rendering the heart more susceptible to ischaemia.