Diagnostic accuracy of quantitative flow ratio for assessment of coronary stenosis significance from a single angiographic view: A novel method based on bifurcation fractal law

Tu, Shengxian; Ding, Daixin; Chang, Yunxiao; Li, Chunming; Wijns, William; Xu, Bo

doi:10.1002/ccd.29592

Cited by 129 publications

(164 citation statements)

References 26 publications

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“…The new method for computing QFR took side branches into account, closer to the natural bifurcation physiology. A step-down reference diameter function based on the Murray bifurcation fractal law, instead of assuming linear tapering, was applied to reconstruct a more accurate reference vessel size (Tu et al, 2021). Although multiangle angiography can theoretically provide a more comprehensive description of lesion morphology, the suboptimal angiography view is often shortened and overlapped due to the curvature of cerebral arteries.…”

Section: Discussionmentioning

confidence: 99%

“…The image with the lesion segment fully expanded and clearly delineated was selected as the analysis frame. The detailed computational algorithms of the QFR have been described previously (Tu et al, 2021). They can be summarized as follows:…”

Section: Analysis Of Quantitative Flow Ratio and Quantitative Cerebral Angiographymentioning

confidence: 99%

“…QFR has been widely validated showing a significant diagnostic performance and prognostic value for coronary artery stenosis (Westra et al, 2018;Biscaglia et al, 2019;Tang et al, 2021), validated in the latest multicenter randomized controlled trial (Xu et al, 2021). Recently, a new method for computing QFR from a single angiographic view, based on artificial intelligence and the Murray bifurcation fractal law, exhibited high feasibility and excellent diagnostic accuracy (Tu et al, 2021).…”

Section: Introductionmentioning

confidence: 99%

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Functional Assessment of Cerebral Artery Stenosis by Angiography-Based Quantitative Flow Ratio: A Pilot Study

Huang

Yao

et al. 2022

Front. Aging Neurosci.

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BackgroundIncreasing attention has been paid to the hemodynamic evaluation of cerebral arterial stenosis. We aimed to demonstrate the performance of angiography-based quantitative flow ratio (QFR) to assess hemodynamic alterations caused by luminal stenoses, using invasive fractional pressure ratios (FPRs) as a reference standard.MethodsBetween March 2013 and December 2019, 29 patients undergoing the pressure gradient measurement of cerebral atherosclerosis were retrospectively enrolled. Wire-based FPR was defined by the arterial pressure distal to the stenotic lesion (Pd) to proximal (Pa) pressure ratios (Pd/Pa). FPR < 0.70 or FPR < 0.75 was assumed as hemodynamically significant stenosis. The new method of computing QFR from a single angiographic view, i.e., the Murray law-based QFR, was applied to the interrogated vessel. An artificial intelligence algorithm was developed to realize the automatic delineation of vascular contour.ResultsFractional pressure ratio and QFR were assessed in 38 vessels from 29 patients. Excellent correlation and agreement were observed between QFR and FPR [r = 0.879, P < 0.001; mean difference (bias): −0.006, 95% limits of agreement: −0.198 to 0.209, respectively). Intra-observer and inter-observer reliability in QFR were excellent (intra-class correlation coefficients, 0.996 and 0.973, respectively). For predicting FPR < 0.70, the area under the receiver-operating characteristic curves (AUC) of QFR was 0.946 (95% CI, 0.820 to 0.993%). The sensitivity and specificity of QFR < 0.70 for identifying FPR < 0.70 was 88.9% (95% CI, 65.3 to 98.6%) and 85.0% (95% CI, 62.1 to 96.8%). For predicting FPR < 0.75, QFR showed similar performance with an AUC equal to 0.926.ConclusionComputational QFR from a single angiographic view achieved comparable results to the wire-based FPR. The excellent diagnostic performance and repeatability empower QFR with high feasibility in the functional assessment of cerebral arterial stenosis.

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Section: Discussionmentioning

confidence: 99%

Section: Analysis Of Quantitative Flow Ratio and Quantitative Cerebral Angiographymentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Functional Assessment of Cerebral Artery Stenosis by Angiography-Based Quantitative Flow Ratio: A Pilot Study

Huang

Yao

et al. 2022

Front. Aging Neurosci.

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“…The availability of QFR can be improved by specifying appropriate equipment and modes before angiography and following specific angiographic guidelines; however, the extent to which this can be improved remains to be assessed. Next‐generation QFR systems, which require a single projection and incorporate more automated processes, might increase QFR availability in retrospective studies 28 . In addition, some baseline characteristics were not evenly distributed between the included and excluded patients.…”

Section: Discussionmentioning

confidence: 99%

“…Next-generation QFR systems, which require a single projection and incorporate more automated processes, might increase QFR availability in retrospective studies. 28 In addition, some baseline characteristics were not evenly distributed between the included and excluded patients. The extent to which these considerations may affect the external validity of the present results is unknown.…”

Section: Study Limitationsmentioning

confidence: 99%

Long‐term prognostic value of dynamic function assessment of intermediate coronary lesion with computational physiology

Guan

Geng

Zhang

et al. 2022

Cathet Cardio Intervent

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This study sought to investigate the dynamic functional changes of coronary intermediate lesions using quantitative flow ratio (QFR) and its implication on longterm clinical outcomes. Physiology-guided percutaneous coronary intervention in patients with angiographic intermediate lesions has been associated with favorable outcomes. This study consecutively enrolled 1130 patients with deferred intermediate lesions at baseline angiography and subsequently received second-time angiography between 9 months and 2 years later from two centers in China. The functional changes of intermediate lesions at angiographic follow-up (ΔQFR) were defined as (baseline QFR-follow-up QFR)/years. The primary outcome was vesseloriented composite endpoint (VOCE), defined as the composite of vessel-related cardiac death, vessel-related myocardial infarction (MI), and ischemia-driven target vessel revascularization (ID-TVR) at angiographic follow-up for up to 5 years.Retrospective QFR assessment was available in 820 patients (996 intermediate lesions). QFR ≤ 0.80 at second-time angiography was associated with significantly higher 5-year VOCE (41.9% vs. 13.4%, p < 0.0001). In 777 intermediate lesions with baseline QFR > 0.80, mean ΔQFR was 0.03 ± 0.07 (median: 0.006; Q1: 0; and Q3: 0.04). The optimal cutoff of ΔQFR for predicting the primary outcome was 0.03 (area under the curve [AUC]: 0.68). The cumulative event rate of VOCE in patients with ΔQFR ≥ 0.03 was significantly higher than in those with ΔQFR < 0.03 (33.8% vs. 12.2%, p < 0.0001), driven by higher vessel-related MI and ID-TVR. The ΔQFR was a useful tool for evaluating the dynamic functional change of deferred intermediate lesions, as it demonstrates good prognostic value for long-term target vessel-related adverse events.

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Diagnostic performance of intravascular ultrasound‐based fractional flow reserve versus angiography‐based quantitative flow ratio measurements for evaluating left main coronary artery stenosis

Sui

Yang

et al. 2022

Cathet Cardio Intervent

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Objectives We compared the diagnostic performance of the ultrasonic flow ratio (UFR) and quantitative flow ratio (QFR) for left main coronary artery (LMCA) stenosis. Background Evaluation of LMCA stenosis remains challenging because of its complex pathogenesis and severity. Computing QFR allows rapid determination of fractional flow reserve (FFR) from coronary angiograms. A novel intravascular ultrasound (IVUS)‐based FFR (UFR) allows rapid FFR computation from IVUS images. Neither of the computational approaches required a pressure wire or hyperemia induction. Previous studies have validated the good diagnostic accuracy of QFR and UFR in identifying hemodynamically significant coronary stenosis using FFR as the reference standard. Methods This retrospective observational study enrolled consecutive patients with intermediate‐grade LMCA stenosis who underwent IVUS evaluation. UFR and QFR of all LMCA stenosis patients were assessed, their correlation and agreement were analyzed, and diagnostic performance of UFR in LMCA stenosis was evaluated. Results Eighty‐three paired comparisons between UFR and QFR were obtained. UFR excellently correlated with QFR (r = 0.74, p < 0.01). The Bland‒Altman plot showed good agreement between UFR and QFR (mean differences: 0.01 ± 0.05, p = 0.34). The area under the curve of UFR for identifying physiological LMCA stenosis was 0.97 (95% confidence interval [CI]: 0.93–1.00, p < 0.01). The overall UFR diagnostic accuracy was 0.95 (95% CI: 0.88–0.99). Conclusions UFR showed excellent correlation and good agreement with QFR in LMCA stenosis assessment, indicating that it is highly feasible to use UFR for functional evaluation of LMCA stenosis.

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Diagnostic accuracy of quantitative flow ratio for assessment of coronary stenosis significance from a single angiographic view: A novel method based on bifurcation fractal law

Cited by 129 publications

References 26 publications

Functional Assessment of Cerebral Artery Stenosis by Angiography-Based Quantitative Flow Ratio: A Pilot Study

Functional Assessment of Cerebral Artery Stenosis by Angiography-Based Quantitative Flow Ratio: A Pilot Study

Long‐term prognostic value of dynamic function assessment of intermediate coronary lesion with computational physiology

Diagnostic performance of intravascular ultrasound‐based fractional flow reserve versus angiography‐based quantitative flow ratio measurements for evaluating left main coronary artery stenosis

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