BACKGROUND: This purpose of this study is to evaluate, concomitantly with quantitative coronary angiography (QCA), the potential discrepancy between frequency domain optical coherence tomography (FD-OCT) and intravascular ultrasound (IVUS) measurements in a phantom coronary model and in human coronary arteries within and outside stented segments. METHODS: FD-OCT and IVUS images sequentially obtained from a phantom coronary model and 57 stented human coronary arteries were compared between each other and with QCA. RESULTS: Lumen area (LA) by IVUS was 10.1% larger (6.43±0.09mm(2)) while by FD-OCT was similar (5.78±0.09mm(2)) to actual phantom LA (5.72mm(2)); IVUS vs. FD-OCT stent area (SA) was 4.2% larger. In human coronary artery, diameter by QCA was smaller than by IVUS and OCT in reference (by 10.5% and 3.5%, both p<0.001) and stented (3.6%, p<0.001; and 1.7%, p=0.012) segments. IVUS vs. FD-OCT distal reference LA was significantly larger (6.19±2.18mm(2) vs. 5.49±2.49mm(2), p<0.001, respectively), and SA was numerically larger (7.42±2.28mm(2) vs. 7.22±2.48mm(2), p=0.059) with larger discrepancy in reference (11.3%) than stented (2.7%) segments. IVUS vs. FD-OCT correlation for diameter was significantly higher for stented than reference segments (R(2)=0.8670 vs. 0.7351, p=0.047), while numerically higher for area (R(2)=0.8663 vs. 0.7806, p=0.157). CONCLUSIONS: In phantom model and human coronary arteries, IVUS vs. FD-OCT measurements were larger, particularly in non-stented than stented segments, and diameter was smaller by QCA vs. IVUS or FD-OCT. Despite undefined clinical significance, said discrepancy warrants consideration.
BACKGROUND: This purpose of this study is to evaluate, concomitantly with quantitative coronary angiography (QCA), the potential discrepancy between frequency domain optical coherence tomography (FD-OCT) and intravascular ultrasound (IVUS) measurements in a phantom coronary model and in human coronary arteries within and outside stented segments. METHODS: FD-OCT and IVUS images sequentially obtained from a phantom coronary model and 57 stented human coronary arteries were compared between each other and with QCA. RESULTS: Lumen area (LA) by IVUS was 10.1% larger (6.43±0.09mm(2)) while by FD-OCT was similar (5.78±0.09mm(2)) to actual phantom LA (5.72mm(2)); IVUS vs. FD-OCT stent area (SA) was 4.2% larger. In human coronary artery, diameter by QCA was smaller than by IVUS and OCT in reference (by 10.5% and 3.5%, both p<0.001) and stented (3.6%, p<0.001; and 1.7%, p=0.012) segments. IVUS vs. FD-OCT distal reference LA was significantly larger (6.19±2.18mm(2) vs. 5.49±2.49mm(2), p<0.001, respectively), and SA was numerically larger (7.42±2.28mm(2) vs. 7.22±2.48mm(2), p=0.059) with larger discrepancy in reference (11.3%) than stented (2.7%) segments. IVUS vs. FD-OCT correlation for diameter was significantly higher for stented than reference segments (R(2)=0.8670 vs. 0.7351, p=0.047), while numerically higher for area (R(2)=0.8663 vs. 0.7806, p=0.157). CONCLUSIONS: In phantom model and human coronary arteries, IVUS vs. FD-OCT measurements were larger, particularly in non-stented than stented segments, and diameter was smaller by QCA vs. IVUS or FD-OCT. Despite undefined clinical significance, said discrepancy warrants consideration.
Authors: Konstantina P Bouki; Delia I Vlad; Nikolaos Goulas; Vaia A Lambadiari; George D Dimitriadis; Athanasios A Kotsakis; Kyriaki Barοutsi; Konstantinos P Toutouzas Journal: J Interv Cardiol Date: 2021-11-15 Impact factor: 2.279