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      Agreement of wall shear stress distribution between two core laboratories using three-dimensional quantitative coronary angiography

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          Abstract

          Wall shear stress (WSS) estimated in models reconstructed from intravascular imaging and 3-dimensional-quantitative coronary angiography (3D-QCA) data provides important prognostic information and enables identification of high-risk lesions. However, these analyses are time-consuming and require expertise, limiting WSS adoption in clinical practice. Recently, a novel software has been developed for real-time computation of time-averaged WSS (TAWSS) and multidirectional WSS distribution. This study aims to examine its inter-corelab reproducibility. Sixty lesions (20 coronary bifurcations) with a borderline negative fractional flow reserve were processed using the CAAS Workstation WSS prototype to estimate WSS and multi-directional WSS values. Analysis was performed by two corelabs and their estimations for the WSS in 3 mm segments across each reconstructed vessel was extracted and compared. In total 700 segments (256 located in bifurcated vessels) were included in the analysis. A high intra-class correlation was noted for all the 3D-QCA and TAWSS metrics between the estimations of the two corelabs irrespective of the presence (range: 0.90–0.92) or absence (range: 0.89–0.90) of a coronary bifurcation, while the ICC was good-moderate for the multidirectional WSS (range: 0.72–0.86). Lesion level analysis demonstrated a high agreement of the two corelabls for detecting lesions exposed to an unfavourable haemodynamic environment (WSS > 8.24 Pa, κ = 0.77) that had a high-risk morphology (area stenosis > 61.3%, κ = 0.71) and were prone to progress and cause events. The CAAS Workstation WSS enables reproducible 3D-QCA reconstruction and computation of WSS metrics. Further research is needed to explore its value in detecting high-risk lesions.

          Supplementary Information

          The online version contains supplementary material available at 10.1007/s10554-023-02872-4.

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          Prediction of progression of coronary artery disease and clinical outcomes using vascular profiling of endothelial shear stress and arterial plaque characteristics: the PREDICTION Study.

          Peter Stone, Shigeru Saito, Saeko Takahashi (2012)
          Atherosclerotic plaques progress in a highly individual manner. The purposes of the Prediction of Progression of Coronary Artery Disease and Clinical Outcome Using Vascular Profiling of Shear Stress and Wall Morphology (PREDICTION) Study were to determine the role of local hemodynamic and vascular characteristics in coronary plaque progression and to relate plaque changes to clinical events. Vascular profiling, using coronary angiography and intravascular ultrasound, was used to reconstruct each artery and calculate endothelial shear stress and plaque/remodeling characteristics in vivo. Three-vessel vascular profiling (2.7 arteries per patient) was performed at baseline in 506 patients with an acute coronary syndrome treated with a percutaneous coronary intervention and in a subset of 374 (74%) consecutive patients 6 to 10 months later to assess plaque natural history. Each reconstructed artery was divided into sequential 3-mm segments for serial analysis. One-year clinical follow-up was completed in 99.2%. Symptomatic clinical events were infrequent: only 1 (0.2%) cardiac death; 4 (0.8%) patients with new acute coronary syndrome in nonstented segments; and 15 (3.0%) patients hospitalized for stable angina. Increase in plaque area (primary end point) was predicted by baseline large plaque burden; decrease in lumen area (secondary end point) was independently predicted by baseline large plaque burden and low endothelial shear stress. Large plaque size and low endothelial shear stress independently predicted the exploratory end points of increased plaque burden and worsening of clinically relevant luminal obstructions treated with a percutaneous coronary intervention at follow-up. The combination of independent baseline predictors had a 41% positive and 92% negative predictive value to predict progression of an obstruction treated with a percutaneous coronary intervention. Large plaque burden and low local endothelial shear stress provide independent and additive prediction to identify plaques that develop progressive enlargement and lumen narrowing. URL: http:www.//clinicaltrials.gov. Unique Identifier: NCT01316159.
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            ‘Ten commandments’ for the 2018 ESC/EACTS Guidelines on Myocardial Revascularization

            Franz-Josef Neumann, Miguel Sousa-Uva (2019)
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              Expert recommendations on the assessment of wall shear stress in human coronary arteries: existing methodologies, technical considerations, and clinical applications

              Frank J.H. Gijsen, Yuki Katagiri, Peter Barlis (2019)
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                Author and article information

                Contributors
                Christos V. Bourantas: cbourantas@gmail.com
                Journal
                Journal ID (nlm-ta): Int J Cardiovasc Imaging
                Journal ID (iso-abbrev): Int J Cardiovasc Imaging
                Title: The International Journal of Cardiovascular Imaging
                Publisher: Springer Netherlands (Dordrecht )
                ISSN (Print): 1569-5794
                ISSN (Electronic): 1875-8312
                Publication date (Electronic): 27 May 2023
                Publication date PMC-release: 27 May 2023
                Publication date (Print): 2023
                Volume: 39
                Issue: 8
                Pages: 1581-1592
                Affiliations
                [1 ]GRID grid.6142.1, ISNI 0000 0004 0488 0789, Department of Cardiology, , University of Galway, College of Medicine, Nursing and Health Sciences, ; Galway, Ireland
                [2 ]GRID grid.139534.9, ISNI 0000 0001 0372 5777, Department of Cardiology, Barts Heart Centre, , Barts Health NHS Trust, ; West Smithfield, London, EC1A 7BE UK
                [3 ]GRID grid.4868.2, ISNI 0000 0001 2171 1133, Centre for Cardiovascular Medicine and Devices, William Harvey Research Institute, , Queen Mary University of London, ; London, UK
                [4 ]GRID grid.452490.e, Department of Biomedical Sciences, , Humanitas University, ; Pieve Emanuele-Milan, Italy
                [5 ]GRID grid.83440.3b, ISNI 0000000121901201, Department of Mechanical Engineering, , University College London, ; London, UK
                [6 ]GRID grid.477183.e, ISNI 0000 0004 0399 6982, Essex Cardiothoracic Centre, ; Basildon, UK
                [7 ]GRID grid.426108.9, ISNI 0000 0004 0417 012X, Royal Free Hospital, ; London, UK
                [8 ]GRID grid.1008.9, ISNI 0000 0001 2179 088X, Department of Mechanical Engineering, Melbourne School of Engineering, , The University of Melbourne, ; Melbourne, Australia
                [9 ]Pie Medical Imaging, Maastricht, The Netherlands
                [10 ]GRID grid.7445.2, ISNI 0000 0001 2113 8111, National Heart and Lung Institute, , Imperial College London, ; London, UK
                [11 ]GRID grid.83440.3b, ISNI 0000000121901201, Institute of Cardiovascular Sciences, , University College London, ; London, UK
                [12 ]GRID grid.412440.7, ISNI 0000 0004 0617 9371, Department of Cartiology, , Galway University Hospitals, ; Galway, Ireland
                Article
                Publisher ID: 2872
                DOI: 10.1007/s10554-023-02872-4
                PMC ID: 10427706
                PubMed ID: 37243956
                SO-VID: d3ae3d0f-00db-4e86-881d-4430b06f1e9b
                Copyright © © The Author(s) 2023
                License:

                Open Access This article is licensed under a Creative Commons Attribution 4.0 International License, which permits use, sharing, adaptation, distribution and reproduction in any medium or format, as long as you give appropriate credit to the original author(s) and the source, provide a link to the Creative Commons licence, and indicate if changes were made. The images or other third party material in this article are included in the article's Creative Commons licence, unless indicated otherwise in a credit line to the material. If material is not included in the article's Creative Commons licence and your intended use is not permitted by statutory regulation or exceeds the permitted use, you will need to obtain permission directly from the copyright holder. To view a copy of this licence, visit http://creativecommons.org/licenses/by/4.0/.

                History
                Date received : 7 February 2023
                Date accepted : 10 May 2023
                Categories
                Subject: Original Paper
                Custom metadata
                issue-copyright-statement © Springer Nature B.V. 2023

                ScienceOpen disciplines: Cardiovascular Medicine
                Keywords: computational fluid dynamics,quantitative coronary angiography,reproducibility,wall shear stress
                Data availability:
                ScienceOpen disciplines: Cardiovascular Medicine
                Keywords: computational fluid dynamics, quantitative coronary angiography, reproducibility, wall shear stress

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