Fractional flow reserve after previous myocardial infarction

Abstract

Marques and colleagues have conducted an interesting study on microvascular resistance of viable tissue within an infarcted area.1 This study is important, not only from a conceptual point of view, but also because it has several relevant implications for the applicability of MIBI spect and fractional flow reserve (FFR) measurement in patients with previous myocardial infarction and a residual or recurrent stenosis in the infarct-related coronary artery. The use of these methods, one non-invasive and the other invasive, has been supported by theoretical and empirical data, but the present study corroborates their usefulness in patients with previous myocardial infarctions. To understand the clinical implications of the study by Marques et al. , it is paramount to understand microvascular resistance, which so far has been hard to assess in conscious humans. Microvascular resistance equals the ratio of distal coronary pressure divided by myocardial blood flow. As surrogates for the numerator and denominator of that ratio, sometimes aortic pressure and coronary blood flow or flow velocity, respectively, have been used, which might be correct in healthy persons. However, in patients with coronary artery disease, the first number overestimates distal coronary pressure and the second one underestimates myocardial blood flow, and therefore use of these surrogates leads to progressive overestimation of myocardial resistance in the case of a stenotic coronary artery.2–4 As a consequence, our knowledge about microvascular resistance in patients with coronary disease, and especially after previous myocardial infarction, has remained questionable. Furthermore, from a clinical point of view, i.e. the question of whether inducible ischaemia is still present or present again, the interesting index to study is hyperaemic blood flow, corresponding to minimal resistance of the viable myocardium within the infarcted zone, not the resistance of the scar tissue. … Corresponding author. Tel: +31 (40) 239 7004; fax: +31 (40) 244 7885. E-mail address: nico.pijls{at}inter.nl.net