Functional characteristics of myocardial bridging: A combined angiographic and intracoronary Doppler flow study

European Heart Journal 1997 18(3):434-442;
Copyright © 1997 by the European Society of Cardiology.

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Functional characteristics of myocardial bridging

A combined angiographic and intracoronary Doppler flow study

E. R. Schwarz, H. G. Klues, J. vom Dahl, I. Klein, W. Krebs and P. Hanrath

Medical Clinic I, University Hospital, Rheinisch Westfälische Technische Hochschule (RWTH) Aachen, Germany

Received 26 September 1996; accepted 9 October 1996.

Correspondence: Heinrich G. Klues, MD, Medical Clinic I, University Hospital, RWTH Aachen, Pauwelsstrasse 30, 52057 Aachen, Germany

Abstract

AIMS: Combined quantitative coronary angiography and intracoronaryDoppler flow velocity measurements were performed to study theunderlying haemodynamic mechanisms leading to myocardial ischaemiain patients with myocardial bridging in the absence of coronaryartery disease.

METHODS AND RESULTS: In 42 symptomatic patients with myocardial bridging of the leftanterior descending coronary artery, quantitative coronary angiographywas used to measure absolute and relative vessel diameters duringsystole and diastole. In 14 patients, serial frame-by-framediameter quantification during a complete cardiac cycle wasperformed. Intracoronary blood flow velocities were determinedusing a 0·014 inch Doppler flow guide wire proximal,within, and distal to myocardial bridges, and coronary flowreserve was calculated. Quantitative coronary angiography revealeda maximal systolic lumen diameter reduction of 71 ± 16%with a persistent diameter reduction of 35 ± 13% duringmid-diastole. Flow velocities revealed increased average diastolicpeak flow velocities within myocardial bridges of 38·6± 19 cm. s^–1 vs 22·4 ± 7·7cm. s^–1 proximal and 18·6±4·6cm.s^–1 distal (P<0·001), which increased duringrapid pacing (64·7 ± 25 cm. s^–1, P<0·001vs baseline). Coronary flow reserve distal to myocardial bridgeswas 2·3 ± 0·9 (vs 2·9 ± 0·9proximal, P<0·05). There was a characteristic Dopplerflow profile within myocardial bridges with an early diastolicovershoot, which was further augmented during rapid pacing.

CONCLUSION: Myocardial bridging is characterized by a delay in diastoliclumen gain and a concomitant increase in diastolic intracoronaryDoppler flow velocities, which are enhanced by rapid pacing.In combination with a reduced coronary flow reserve and anginalsymptoms these findings support the concept of a haemodynamicallysignificant obstruction to coronary flow due to myocardial bridgingin a selected subset of patients.

Key Words: Myocardial bridging • quantitative coronary angiography • intravascular Doppler • myocardial ischaemia

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