Abstract
Microvascular dysfunction is responsible for chest pain in various kinds of patients, including those with obstructive coronary artery disease and persistent symptoms despite revascularization, or those with myocardial disease without coronary stenosis. Its diagnosis can be performed with an advanced imaging technique such as positron emission tomography, which represents the gold standard for diagnosing microvascular abnormalities. In recent years, cardiovascular magnetic resonance and cardiac computed tomography have demonstrated to be emerging modalities for microcirculation assessment. The identification of microvascular disease represents a fundamental step in the characterization of patients with chest pain and no epicardial coronary disease: its identification is important to manage medical strategies and improve prognosis. The present overview summarizes the main techniques and current evidence of these advanced imaging strategies in assessing microvascular dysfunction and, if present, their relationship with invasive evaluation.
Highlights
Chest pain without obstructive coronary disease (CAD) represents a frequent phenomenon in clinical practice
Previous studies showed that microvascular dysfunction (MVD) had a predictive value in terms of cardiac death in various populations, such as in women, patients with diabetes mellitus, chronic kidney disease, hypertrophic obstructive cardiomyopathy, ischemic or idiopathic cardiomyopathy [3,4]
This review aims to summarize the main concepts about the physiology of microcirculation and highlight the current evidence on established and emerging imaging techniques, namely positron emission tomography (PET), cardiovascular magnetic resonance (CMR) and cardiac computed tomography
Summary
Chest pain without obstructive coronary disease (CAD) represents a frequent phenomenon in clinical practice. Invasive flow assessment suggested that up to two-thirds of the patients have microvascular dysfunction (MVD). As a result, assessing microvascular function would represent a fundamental step in evaluating the increasing population with angina without obstructive CAD (Figure 1) [5]. This review aims to summarize the main concepts about the physiology of microcirculation and highlight the current evidence on established and emerging imaging techniques, namely positron emission tomography (PET), cardiovascular magnetic resonance (CMR) and cardiac computed tomography (cardiac CT). Summarize the main concepts about the physiology of microcirculation and highlight the current evidence on established and emerging imaging techniques, namely positron emission tomography (PET), cardiovascular magnetic resonance (CMR) and cardiac computed tomography (cardiac CT).
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