Arq Bras Cardiol. 2025 Dec;122(12):e20250340. doi: 10.36660/abc.20250340.
ABSTRACT
BACKGROUND: Comprehensive physiological characterization of coronary endotypes remains limited, especially in epicardial dysfunction.
OBJECTIVES: To describe hemodynamic profiles across the full spectrum of coronary endotypes and explore potential links with ischemia.
METHODS: Patients with suspected chronic coronary syndromes who underwent invasive physiological assessment in the ANFIBIO Project (NCT05374694) were classified according to fractional flow reserve [(FFR)≤0.80] and index of microcirculatory resistance [(IMR)≥25] in the left anterior descending artery into four groups: normal indices, isolated epicardial, isolated microvascular, and combined dysfunction. Coronary pressure, flow, and resistance indices were compared between groups.
RESULTS: A total of 130 patients were finally included. A gradual decrease in hyperemic coronary flow [(Qcor) in mL/min; normal indices: 387±192, isolated epicardial: 278±153, isolated microvascular: 130±41, combined: 96±33; p<0.001] and a progressive increase in total coronary resistance [(RTotal) in Wood units (WU); normal indices: 238±139, isolated epicardial: 373±167, isolated microvascular: 694±210, combined: 999±342; p<0.001] were observed as more compartments were involved. Also, epicardial dysfunction was primarily associated with reduced distal coronary pressure (Pd) and elevated epicardial resistance [(REpi) in WU; normal indices: 25±18, isolated epicardial: 145±113, isolated microvascular: 66±34, combined: 389±282; p<0.001], whereas microvascular dysfunction was characterized by preserved Pd but markedly decreased Qcor and increased microvascular resistance [(RMicro) in WU; normal indices: 213±124, isolated epicardial: 228±73, isolated microvascular: 628±195, combined: 610±137; p<0.001]. Combined dysfunction shares mechanisms of both epicardial and microvascular dysfunction.
CONCLUSIONS: Coronary endotypes exhibit distinct hemodynamic patterns with specific pressure- and flow-related ischemic mechanisms. Integrated physiological assessment is essential for accurate endotype characterization and personalized therapeutic strategies.
PMID:41637324 | DOI:10.36660/abc.20250340