(2002). Abnormal subendocardial perfusion in cardiac syndrome X detected by cardiovascular magnetic resonance imaging.
(2007). Added value of rest to stress study for recognition of artifacts in perfusion cardiovascular magnetic resonance.
(2008). Adenosine stress cardiac magnetic resonance imaging for the assessment of ischemic heart disease.
(2010). Adenosine-stress cardiac magnetic resonance imaging in suspected coronary artery disease: a net cost analysis and reimbursement implications.
(2006). Aletras AH,
(2002). American Heart Association Writing Group on Myocardial Segmentation, Registration for Cardiac Imaging
(2003). Anatomical variations of the coronary arteries: the most frequent variations.
(2008). Angiographic correlations of patients with small vessel disease diagnosed by adenosine-stress cardiac magnetic resonance imaging.
(1976). Caliber and distribution of normal coronary arterial anatomy. Catheter Cardiovasc Diagn 2:269–280
(2008). Combined magnetic resonance coronary artery imaging, myocardial perfusion and late gadolinium enhancement in patients with suspected coronary artery disease.
(2006). Comprehensive cardiac magnetic resonance imaging at 3.0 Tesla. Feasibility and implications for clinical applications.
(2010). Coronary computed tomography angiography with a consistent dose below 1 mSv using prospectively electrocardiogramtriggered high-pitch spiral acquisition.
(2008). Correspondence between the 17-segment model and coronary arterial anatomy using contrast-enhanced cardiac magnetic resonance imaging.
(2010). Diagnostic performance of magnetic resonance ﬁrst pass perfusion imaging is equally potent in female compared to male patients with coronary artery disease.
(2007). Diagnostic performance of stress cardiac magnetic resonance imaging in the detection of coronary artery disease—a meta-analysis.
(2009). Elements of danger—the case of medical imaging.
(2003). Evaluation of pretest and exercise test scores to assess all-cause mortality in unselected patients presenting for exercise testing with symptoms of suspected coronary artery disease.
(2009). Exposure to low-dose ionizing radiation from medical imaging procedures.
(2001). Heterogeneity of resting and hyperemic myocardial blood ﬂow in healthy humans.
(2007). Highresolution myocardial perfusion imaging at 3 T: comparison to
(2006). Ho ¨ﬂing B
(2009). Image quality in a low radiation exposure protocol for retrospectively ECG-gated coronary CT angiography.
(2006). Improved detection of coronary artery disease by stress perfusion cardiovascular magnetic resonance with the use of delayed enhancement infarction imaging.
(2008). MR-IMPACT: comparison of perfusion-cardiac magnetic resonance with single-photon emission computed tomography for the detection of coronary artery disease in a multicentre, multivendor, randomized trial.
(2010). Negative predictive value of normal adenosine-stress cardiac MRI in the assessment of coronary artery disease and correlation with semiquantitative perfusion analysis.
(2008). Noninvasive coronary artery imaging magnetic resonance angiography and multidetector computed tomography angiography. A scientiﬁc statement from the American Heart Association
(2007). Pingitore A
(2006). Potential impact of myocardial perfusion scintigraphy as gatekeeper for invasive examination and treatment in patients with stable angina pectoris: observational study without post-test referral bias.
(2007). Prognostic value of cardiac magnetic resonance stress tests: adenosine stress perfusion and dobutamine stress wall motion imaging.
(2008). Prognostic value of normal adenosine-stress cardiac magnetic resonance imaging.
(1940). Relation of anatomic pattern to pathologic conditions of the coronary arteries.
(1999). The economic consequences of available diagnostic and prognostic strategies for the evaluation of stable angina patients: an observational assessment of the value of precatheterization ischemia.
(2003). The electrocardiogram in ST elevation acute myocardial infarction: correlation with coronary anatomy and prognosis.
(1995). Variability of normal coronary anatomy: implications for the interpretation of thallium SPECT myocardial perfusion images in single-vessel disease.