American Journal of Roentgenology

2009

DOI: 10.2214/ajr.08.1277

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Noncalcified Atherosclerotic Plaque Burden at Coronary CT Angiography: A Better Predictor of Ischemia at Stress Myocardial Perfusion Imaging Than Calcium Score and Stenosis Severity

¹

,

Christian Thilo

²

,

Salvatore A. Chiaramida

³

et al.

Abstract: At coronary CT angiography, noncalcified plaque burden is a better predictor of the finding of myocardial ischemia at stress myocardial perfusion imaging than are calcium score and degree of stenosis.

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Introduction2

M-l Chen Y-h Mo Y-c Wang Et Al1

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Inflammatory Markers and Angiographic Features1

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Cited by 67 publications

(36 citation statements)

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“…Both coronary artery stenosis and plaque composition therein represent independent predictors of major adverse cardiac events (MACE) in patients with known and suspected CAD [3][4][5][6].…”

Section: Introductionmentioning

confidence: 99%

Systematic analysis on the relationship between luminal enhancement, convolution kernel, plaque density, and luminal diameter of coronary artery stenosis: a CT phantom study

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et al. 2013

Int J Cardiovasc Imaging

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To systematically investigate into the relationships between luminal enhancement, convolution kernel, plaque density, and stenosis severity in coronary computed tomography (CT) angiography. A coronary phantom including 63 stenoses (stenosis severity, 10-90 %; plaque densities, -100 to 1,000 HU) was loaded with increasing solutions of contrast material (luminal enhancement, 0-700 HU) and scanned in an anthropomorphic chest. CT data was acquired with prospective triggering using 64-section dual-source CT; reconstructions were performed with soft-tissue (B26f) and sharp convolution kernels (B46f). Two blinded and independent readers quantitatively assessed luminal diameter and CT number of plaque using electronic calipers. Measurement bias between phantom dimensions and CT measurements were calculated. Multivariate linear regression models identified predictors of bias. Inter-and intra-reader agreements of luminal diameter and CT number measurements were excellent (ICCs [ 0.91, p \ 0.01, each). Measurement bias of luminal diameter and plaque density was significantly (p \ 0.01, each) lower (-12 % and 58 HU, respectively) with B46f as opposed to B26f, especially in plaque densities [200 HU. Measurement bias was significantly (p \ 0.01, each) correlated (q = 0.37-55 and q = -0.70-85) with the differences between luminal enhancement and plaque density. In multivariate models, bias of luminal diameter assessment with CT was correlated with plaque density (b = 0.09, p \ 0.05). Convolution kernel (b = -0.29 and -0.38), stenosis severity (b = -0.45 and -0.38), and luminal enhancement (b = -0.11 and -0.29) represented independent (p \ 0.05,each) predictors of measurement bias of luminal diameter and plaque number, respectively. Significant independent relationships exist between luminal enhancement, convolution kernel, plaque density, and luminal diameter, which have to be taken into account when performing, evaluating, and interpreting coronary CT angiography.

“…Both coronary artery stenosis and plaque composition therein represent independent predictors of major adverse cardiac events (MACE) in patients with known and suspected CAD [3][4][5][6].…”

Section: Introductionmentioning

confidence: 99%

Systematic analysis on the relationship between luminal enhancement, convolution kernel, plaque density, and luminal diameter of coronary artery stenosis: a CT phantom study

¹

,

²

,

³

et al. 2013

Int J Cardiovasc Imaging

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To systematically investigate into the relationships between luminal enhancement, convolution kernel, plaque density, and stenosis severity in coronary computed tomography (CT) angiography. A coronary phantom including 63 stenoses (stenosis severity, 10-90 %; plaque densities, -100 to 1,000 HU) was loaded with increasing solutions of contrast material (luminal enhancement, 0-700 HU) and scanned in an anthropomorphic chest. CT data was acquired with prospective triggering using 64-section dual-source CT; reconstructions were performed with soft-tissue (B26f) and sharp convolution kernels (B46f). Two blinded and independent readers quantitatively assessed luminal diameter and CT number of plaque using electronic calipers. Measurement bias between phantom dimensions and CT measurements were calculated. Multivariate linear regression models identified predictors of bias. Inter-and intra-reader agreements of luminal diameter and CT number measurements were excellent (ICCs [ 0.91, p \ 0.01, each). Measurement bias of luminal diameter and plaque density was significantly (p \ 0.01, each) lower (-12 % and 58 HU, respectively) with B46f as opposed to B26f, especially in plaque densities [200 HU. Measurement bias was significantly (p \ 0.01, each) correlated (q = 0.37-55 and q = -0.70-85) with the differences between luminal enhancement and plaque density. In multivariate models, bias of luminal diameter assessment with CT was correlated with plaque density (b = 0.09, p \ 0.05). Convolution kernel (b = -0.29 and -0.38), stenosis severity (b = -0.45 and -0.38), and luminal enhancement (b = -0.11 and -0.29) represented independent (p \ 0.05,each) predictors of measurement bias of luminal diameter and plaque number, respectively. Significant independent relationships exist between luminal enhancement, convolution kernel, plaque density, and luminal diameter, which have to be taken into account when performing, evaluating, and interpreting coronary CT angiography.

“…In addition, spatial resolution of 64-slice CTA is still limited compared with that of ICA, which was demonstrated in our subset of patients undergoing ICA and might have influenced the precision of stenosis evaluation in these examinations and led to the discrepancies between the studies. Nonetheless, regardless of the accuracy of stenosis assessment, one should realise that, although high percentage narrowing ($70%) is a strong indicator of coronary resistance, other CTA characteristics, including lesion length, morphology and location as well as noncalcified plaque burden, are also important determinants [26,27]. Notably, in our patients with lesions of $70% stenosis on CTA, still approximately 1 of 4 (26%, 6/23) showed normal perfusion on SPECT MPI.…”

Section: M-l Chen Y-h Mo Y-c Wang Et Almentioning

confidence: 77%

64-slice CT angiography for the detection of functionally significant coronary stenoses: comparison with stress myocardial perfusion imaging

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Yh²,

Yc³

et al. 2012

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Objective: To evaluate the accuracy of 64-slice CT angiography (CTA) compared with single photon emission CT (SPECT) myocardial perfusion imaging (MPI), which served as the reference standard, for the detection of functionally significant coronary artery disease (CAD). Methods: 141 consecutive patients (60¡10 years, 101 men) were investigated with 64-slice CTA and SPECT MPI; a subset of 35 patients had additional invasive coronary angiography (ICA). The data from CTA and ICA were compared with those from MPI for both cut-offs of $50% and $70% stenosis, respectively. Results: The sensitivity, specificity, positive and negative predictive values, and accuracy of CTA, using a cut-off of $50% for significant stenosis, in detecting inducible perfusion defects on MPI were 96% [95% confidence interval (CI) 88-100%], 61% (95% CI 52-70%), 37% (95% CI 23-49%), 99% (95% CI 97-100%) and 68%, respectively, in patient-based analysis and 97% (95% CI 91-100%), 86% (95% CI 83-89%), 33% (95% CI 24-42%), 100% (95% CI 99-100%) and 87%, respectively, in vessel-based analysis. Applying a cut-off of $70% for significant stenosis, CTA yielded the following sensitivity, specificity, positive and negative predictive values, and accuracy for the detection of inducible MPI defects: by patient, 65% (95% CI 46-84%), 95% (95% CI 91-99%), 74% (95% CI 50-92%), 92% (95% CI 87-97%) and 89%, respectively; by vessel, 58% (95% CI 42-74%), 97% (95% CI 95-99%), 62% (95% CI 45-79%), 97% (95% CI 95-99%) and 95%, respectively. Conclusion: 64-slice CTA is a reliable tool to exclude functionally significant CAD when using a cut-off of $50% diameter stenosis. By contrast, a cut-off of $70% diameter narrowing is a strong predictor of ischaemia.

“…Lastly, the plaque was characterized by color coding based on CT value (HU). Referring to published studies (13)(14)(15), the software color codes of the non-calcified coronary plaque were classified into low attenuation plaque (0-50 HU), lipid-rich plaque, intermediate attenuation plaque (51-120 HU), fibrous plaque; and the volume of …”

Section: Discussionmentioning

confidence: 99%

Serial Changes of Coronary Atherosclerotic Plaque: Assessment with 64-Slice Multi-Detector Computed Tomography

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²

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³

et al. 2013

J Korean Soc Radiol

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This is an Open Access article distributed under the terms of the Creative Commons Attribution Non-Commercial License (http://creativecommons.org/licenses/by-nc/3.0) which permits unrestricted non-commercial use, distribution, and reproduction in any medium, provided the original work is properly cited.Purpose: To evaluate the progression of coronary atherosclerotic plaque during follow-up, and its association with cardiovascular risk factors. Materials and Methods: Fifty-six atherosclerotic patients with plaque were enrolled in this retrospective study. Patient's plaque was detected on repeat 64-slice multidetector CT scans with a mean interval of 25 ± 10 months changes in calcified and noncalcified plaque volumes and cardiovascular risk factors were assessed over time. Absolute and relative changes in plaque volume were compared, and the association between rapid progression and cardiovascular risk factors was determined. Results: Diameter of the stenosis, length, calcified and non-calcified lesion plaque volumes increased significantly on follow-up CT. Absolute and relative annual changes in plaque volumes were significantly greater in non-calcified plaque (median, 22.7 mm 3 , 90.4%) than in calcified plaque (median, 0.7 mm 3 , 0%). Obesity, smoking, hypertension, hypercholesterolemia, and low high-density lipoprotein were significant predictors of progression of non-calcified plaque. Progression of calcified plaque was not associated with any cardiovascular risk factors. Conclusion: Coronary plaque volume increased significantly on follow-up CT. The rate of progression is related to non-calcified plaque than to calcified plaque. Cardiovascular risk factors are independently associated with the rapid progression of non-calcified plaque volume, but not associated with the progression of calcified plaque.

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