Background: Protocols of cardiac magnetic resonance imaging (CMR) during pharmacological stress with adenosine may include scanning sequences for the evaluation of both myocardial perfusion and contractility. The aim of this study was to define the feasibility and diagnostic accuracy of a stress CMR protocol including the combined evaluation of regional myocardial perfusion and contractility in the identification of patients with significant coronary artery disease.
Methods: A total of 184 consecutive patients with known or suspected coronary artery disease underwent stress CMR (adenosine, 140 microg/kg/min). The employed protocol included the application of the following sequences for image acquisition: 1) cine imaging at rest; 2) perfusion imaging (Gd-DTPA, 0.05 mmol/kg) during pharmacological stress; 3) cine imaging during pharmacological stress; 4) perfusion imaging (Gd-DTPA, 0.05 mmol/kg) at rest.
Results: Stress CMR was completed in 182 patients (99%). Minor complications were observed in 12 patients (7%) during adenosine infusion, while one patient developed severe bronchospasm and another patient experienced persistent myocardial ischemia. Good/excellent-quality images were obtained in 91% of stress CMR exams. In a subgroup of 37 patients, when compared with the use of perfusion images alone, combination of perfusion and contractility data provided higher levels of sensitivity (74 vs 89%, p < 0.05) and of negative predictive value (71 vs 85%, p < 0.05) in identifying patients with significant coronary artery disease by invasive angiography.
Conclusions: Adenosine stress CMR including the evaluation of both myocardial perfusion and contractility is feasible and improves diagnostic performance in the recognition of patients with significant coronary artery disease.