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Impact of vessel morphology on CT-derived fractional-flow-reserve in non-obstructive coronary artery disease in right coronary artery
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Impact of vessel morphology on CT-derived fractional-flow-reserve in non-obstructive coronary artery disease in right coronary artery
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Journal Article
Impact of vessel morphology on CT-derived fractional-flow-reserve in non-obstructive coronary artery disease in right coronary artery
2024
Overview
Objectives
Computed tomography (CT)–derived fractional flow reserve (FFR
CT
) decreases continuously from proximal to distal segments of the vessel due to the influence of various factors even in non-obstructive coronary artery disease (NOCAD). It is known that FFR
CT
is dependent on vessel-length, but the relationship with other vessel morphologies remains to be explained.
Purpose
To investigate morphological aspects of the vessels that influence FFR
CT
in NOCAD in the right coronary artery (RCA).
Methods
A total of 443 patients who underwent both FFR
CT
and invasive coronary angiography, with < 50% RCA stenosis, were evaluated. Enrolled RCA vessels were classified into two groups according to distal FFR
CT
: FFR
CT
≤ 0.80 (
n
= 60) and FFR
CT
> 0.80 (
n
= 383). Vessel morphology (vessel length, lumen diameter, lumen volume, and plaque volume) and left-ventricular mass were assessed. The ratio of lumen volume and vessel length was defined as V/L ratio.
Results
Whereas vessel-length was almost the same between FFR
CT
≤ 0.80 and > 0.80, lumen volume and V/L ratio were significantly lower in FFR
CT
≤ 0.80. Distal FFR
CT
correlated with plaque-related parameters (low-attenuation plaque, intermediate-attenuation plaque, and calcified plaque) and vessel-related parameters (proximal and distal vessel diameter, vessel length, lumen volume, and V/L ratio). Among all vessel-related parameters, V/L ratio showed the highest correlation with distal FFR
CT
(
r
= 0.61,
p
< 0.0001). Multivariable analysis showed that calcified plaque volume was the strongest predictor of distal FFR
CT
, followed by V/L ratio (β-coefficient = 0.48,
p
= 0.03). V/L ratio was the strongest predictor of a distal FFR
CT
≤ 0.80 (cut-off 8.1 mm
3
/mm, AUC 0.88, sensitivity 90.0%, specificity 76.7%, 95% CI 0.84–0.93,
p
< 0.0001).
Conclusions
Our study suggests that V/L ratio can be a measure to predict subclinical coronary perfusion disturbance.
Clinical relevance statement
A novel marker of the ratio of lumen volume to vessel length (V/L ratio) is the strongest predictor of a distal CT-derived fractional flow reserve (FFR
CT
) and may have the potential to improve the diagnostic accuracy of FFR
CT
.
Key Points
• Physiological FFR
CT
decline depends not only on vessel length but also on the lumen volume in non-obstructive coronary artery disease in the right coronary artery.
• FFR
CT
correlates with plaque-related parameters (low-attenuation plaque, intermediate-attenuation plaque, and calcified plaque) and vessel-related parameters (proximal and distal vessel diameter, vessel length, lumen volume, and V/L ratio).
• Of vessel-related parameters, V/L ratio is the strongest predictor of a distal FFR
CT
and an optimal cut-off value of 8.1 mm
3
/mm.
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