Abstract Background Intermediate coronary lesions without clear ischaemia should prompt physiological assessment during angiography. Angiography-derived fractional flow reserve (FFRangio) enables rapid, wire-free evaluation of lesion significance and can guide revascularisation decisions. Persistent angina despite successful percutaneous coronary intervention (PCI) should raise suspicion for concomitant microvascular dysfunction, warranting microcirculation assessment to identify the mechanism and tailor therapy. When no further epicardial target exists and symptoms remain refractory despite comprehensive medical management, Coronary Sinus Reducer (CSR) implantation can be considered. Although these three domains have rapidly evolved over the past few years, they are rarely combined sequentially. This case report illustrates how the stepwise use of these contemporary tools, each addressing a distinct pathophysiological mechanism, led to a marked improvement in the patient’s symptoms and overall clinical course. Case summary A 45-year-old man presented with acute coronary syndrome and underwent multivessel PCI in 2023. One year later, he re-presented with unstable angina and received optical coherence tomography (OCT)-guided left main to left anterior descending artery (LM–LAD) stenting. However, symptoms persisted (Canadian Cardiovascular Society CCS class II). Invasive coronary function testing revealed impaired vasodilatory reserve with preserved microvascular resistance and no inducible spasm, suggesting functional impairment of vasodilatory capacity. Mechanism-matched therapy with calcium-channel blockade and angiotensin-converting enzyme (ACE) inhibition provided partial relief. Refractory angina ultimately led to CSR implantation with complete resolution of symptoms. Discussion This case highlights a stepwise physiology-first approach, progressing from epicardial revascularisation to ischaemia with no obstructive coronary arteries (INOCA) phenotyping and ultimately venous outflow modulation for refractory angina.
Buri et al. (Wed,) studied this question.