Automated knowledge-based detection of nonobstructive and obstructive arterial lesions from coronary CT angiography
Purpose: Visual analysis of three-dimensional (3D) coronary computed tomography angiography (CCTA) remains challenging due to large number of image slices and tortuous character of the vessels. The authors aimed to develop a robust, automated algorithm for unsupervised computer detection of coronary...
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| Published in | Medical physics (Lancaster) Vol. 40; no. 4; pp. 041912 - n/a |
|---|---|
| Main Authors | , , , , , , , , , |
| Format | Journal Article |
| Language | English |
| Published |
United States
American Association of Physicists in Medicine
01.04.2013
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| Subjects | |
| Online Access | Get full text |
| ISSN | 0094-2405 2473-4209 1522-8541 2473-4209 |
| DOI | 10.1118/1.4794480 |
Cover
| Abstract | Purpose:
Visual analysis of three-dimensional (3D) coronary computed tomography angiography (CCTA) remains challenging due to large number of image slices and tortuous character of the vessels. The authors aimed to develop a robust, automated algorithm for unsupervised computer detection of coronary artery lesions.
Methods:
The authors’ knowledge-based algorithm consists of centerline extraction, vessel classification, vessel linearization, lumen segmentation with scan-specific lumen attenuation ranges, and lesion location detection. Presence and location of lesions are identified using a multi-pass algorithm which considers expected or “normal” vessel tapering and luminal stenosis from the segmented vessel. Expected luminal diameter is derived from the scan by automated piecewise least squares line fitting over proximal and mid segments (67%) of the coronary artery considering the locations of the small branches attached to the main coronary arteries.
Results:
The authors applied this algorithm to 42 CCTA patient datasets, acquired with dual-source CT, where 21 datasets had 45 lesions with stenosis ≥25%. The reference standard was provided by visual and quantitative identification of lesions with any stenosis ≥25% by three expert readers using consensus reading. The authors algorithm identified 42 lesions (93%) confirmed by the expert readers. There were 46 additional lesions detected; 23 out of 39 (59%) of these were less-stenosed lesions. When the artery was divided into 15 coronary segments according to standard cardiology reporting guidelines, per-segment basis, sensitivity was 93% and per-segment specificity was 81% using 10-fold cross-validation.
Conclusions:
The authors’ algorithm shows promising results in the detection of both obstructive and nonobstructive CCTA lesions. |
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| AbstractList | Purpose:
Visual analysis of three‐dimensional (3D) coronary computed tomography angiography (CCTA) remains challenging due to large number of image slices and tortuous character of the vessels. The authors aimed to develop a robust, automated algorithm for unsupervised computer detection of coronary artery lesions.
Methods:
The authors’ knowledge‐based algorithm consists of centerline extraction, vessel classification, vessel linearization, lumen segmentation with scan‐specific lumen attenuation ranges, and lesion location detection. Presence and location of lesions are identified using a multi‐pass algorithm which considers expected or “normal” vessel tapering and luminal stenosis from the segmented vessel. Expected luminal diameter is derived from the scan by automated piecewise least squares line fitting over proximal and mid segments (67%) of the coronary artery considering the locations of the small branches attached to the main coronary arteries.
Results:
The authors applied this algorithm to 42 CCTA patient datasets, acquired with dual‐source CT, where 21 datasets had 45 lesions with stenosis ≥25%. The reference standard was provided by visual and quantitative identification of lesions with any stenosis ≥25% by three expert readers using consensus reading. The authors algorithm identified 42 lesions (93%) confirmed by the expert readers. There were 46 additional lesions detected; 23 out of 39 (59%) of these were less‐stenosed lesions. When the artery was divided into 15 coronary segments according to standard cardiology reporting guidelines, per‐segment basis, sensitivity was 93% and per‐segment specificity was 81% using 10‐fold cross‐validation.
Conclusions:
The authors’ algorithm shows promising results in the detection of both obstructive and nonobstructive CCTA lesions. Visual analysis of three-dimensional (3D) coronary computed tomography angiography (CCTA) remains challenging due to large number of image slices and tortuous character of the vessels. The authors aimed to develop a robust, automated algorithm for unsupervised computer detection of coronary artery lesions. The authors' knowledge-based algorithm consists of centerline extraction, vessel classification, vessel linearization, lumen segmentation with scan-specific lumen attenuation ranges, and lesion location detection. Presence and location of lesions are identified using a multi-pass algorithm which considers expected or "normal" vessel tapering and luminal stenosis from the segmented vessel. Expected luminal diameter is derived from the scan by automated piecewise least squares line fitting over proximal and mid segments (67%) of the coronary artery considering the locations of the small branches attached to the main coronary arteries. The authors applied this algorithm to 42 CCTA patient datasets, acquired with dual-source CT, where 21 datasets had 45 lesions with stenosis ≥ 25%. The reference standard was provided by visual and quantitative identification of lesions with any stenosis ≥ 25% by three expert readers using consensus reading. The authors algorithm identified 42 lesions (93%) confirmed by the expert readers. There were 46 additional lesions detected; 23 out of 39 (59%) of these were less-stenosed lesions. When the artery was divided into 15 coronary segments according to standard cardiology reporting guidelines, per-segment basis, sensitivity was 93% and per-segment specificity was 81% using 10-fold cross-validation. The authors' algorithm shows promising results in the detection of both obstructive and nonobstructive CCTA lesions. Visual analysis of three-dimensional (3D) coronary computed tomography angiography (CCTA) remains challenging due to large number of image slices and tortuous character of the vessels. The authors aimed to develop a robust, automated algorithm for unsupervised computer detection of coronary artery lesions.PURPOSEVisual analysis of three-dimensional (3D) coronary computed tomography angiography (CCTA) remains challenging due to large number of image slices and tortuous character of the vessels. The authors aimed to develop a robust, automated algorithm for unsupervised computer detection of coronary artery lesions.The authors' knowledge-based algorithm consists of centerline extraction, vessel classification, vessel linearization, lumen segmentation with scan-specific lumen attenuation ranges, and lesion location detection. Presence and location of lesions are identified using a multi-pass algorithm which considers expected or "normal" vessel tapering and luminal stenosis from the segmented vessel. Expected luminal diameter is derived from the scan by automated piecewise least squares line fitting over proximal and mid segments (67%) of the coronary artery considering the locations of the small branches attached to the main coronary arteries.METHODSThe authors' knowledge-based algorithm consists of centerline extraction, vessel classification, vessel linearization, lumen segmentation with scan-specific lumen attenuation ranges, and lesion location detection. Presence and location of lesions are identified using a multi-pass algorithm which considers expected or "normal" vessel tapering and luminal stenosis from the segmented vessel. Expected luminal diameter is derived from the scan by automated piecewise least squares line fitting over proximal and mid segments (67%) of the coronary artery considering the locations of the small branches attached to the main coronary arteries.The authors applied this algorithm to 42 CCTA patient datasets, acquired with dual-source CT, where 21 datasets had 45 lesions with stenosis ≥ 25%. The reference standard was provided by visual and quantitative identification of lesions with any stenosis ≥ 25% by three expert readers using consensus reading. The authors algorithm identified 42 lesions (93%) confirmed by the expert readers. There were 46 additional lesions detected; 23 out of 39 (59%) of these were less-stenosed lesions. When the artery was divided into 15 coronary segments according to standard cardiology reporting guidelines, per-segment basis, sensitivity was 93% and per-segment specificity was 81% using 10-fold cross-validation.RESULTSThe authors applied this algorithm to 42 CCTA patient datasets, acquired with dual-source CT, where 21 datasets had 45 lesions with stenosis ≥ 25%. The reference standard was provided by visual and quantitative identification of lesions with any stenosis ≥ 25% by three expert readers using consensus reading. The authors algorithm identified 42 lesions (93%) confirmed by the expert readers. There were 46 additional lesions detected; 23 out of 39 (59%) of these were less-stenosed lesions. When the artery was divided into 15 coronary segments according to standard cardiology reporting guidelines, per-segment basis, sensitivity was 93% and per-segment specificity was 81% using 10-fold cross-validation.The authors' algorithm shows promising results in the detection of both obstructive and nonobstructive CCTA lesions.CONCLUSIONSThe authors' algorithm shows promising results in the detection of both obstructive and nonobstructive CCTA lesions. |
| Author | Arsanjani, Reza Berman, Daniel S. Dey, Damini Slomka, Piotr J. Nakazato, Ryo Li, Debiao Cheng, Victor Y. Min, James K. Kang, Dongwoo Jay Kuo, C.-C. |
| Author_xml | – sequence: 1 givenname: Dongwoo surname: Kang fullname: Kang, Dongwoo organization: Department of Electrical Engineering, University of Southern California, Los Angeles, California 90089 – sequence: 2 givenname: Piotr J. surname: Slomka fullname: Slomka, Piotr J. organization: Departments of Imaging and Medicine and Cedars-Sinai Heart Institute, Cedars-Sinai Medical Center, Los Angeles, California 90048 – sequence: 3 givenname: Ryo surname: Nakazato fullname: Nakazato, Ryo organization: Departments of Imaging and Medicine and Cedars-Sinai Heart Institute, Cedars-Sinai Medical Center, Los Angeles, California 90048 – sequence: 4 givenname: Reza surname: Arsanjani fullname: Arsanjani, Reza organization: Departments of Imaging and Medicine and Cedars-Sinai Heart Institute, Cedars-Sinai Medical Center, Los Angeles, California 90048 – sequence: 5 givenname: Victor Y. surname: Cheng fullname: Cheng, Victor Y. organization: Departments of Imaging and Medicine and Cedars-Sinai Heart Institute, Cedars-Sinai Medical Center, Los Angeles, California 90048 – sequence: 6 givenname: James K. surname: Min fullname: Min, James K. organization: Departments of Imaging and Medicine and Cedars-Sinai Heart Institute, Cedars-Sinai Medical Center, Los Angeles, California 90048 – sequence: 7 givenname: Debiao surname: Li fullname: Li, Debiao organization: Biomedical Imaging Research Institute, Department of Biomedical Sciences, Cedars-Sinai Medical Center, Los Angeles, California 90048 – sequence: 8 givenname: Daniel S. surname: Berman fullname: Berman, Daniel S. organization: Departments of Imaging and Medicine and Cedars-Sinai Heart Institute, Cedars-Sinai Medical Center, Los Angeles, California 90048 – sequence: 9 givenname: C.-C. surname: Jay Kuo fullname: Jay Kuo, C.-C. organization: Department of Electrical Engineering, University of Southern California, Los Angeles, California 90089 – sequence: 10 givenname: Damini surname: Dey fullname: Dey, Damini email: Damini.Dey@cshs.org organization: Biomedical Imaging Research Institute, Department of Biomedical Sciences, Cedars-Sinai Medical Center, Los Angeles, California 90048 |
| BackLink | https://www.ncbi.nlm.nih.gov/pubmed/23556906$$D View this record in MEDLINE/PubMed |
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| Keywords | lesion detection coronary CT angiography centerline extraction lumen segmentation stenosis quantification |
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Visual analysis of three-dimensional (3D) coronary computed tomography angiography (CCTA) remains challenging due to large number of image slices and... Purpose: Visual analysis of three‐dimensional (3D) coronary computed tomography angiography (CCTA) remains challenging due to large number of image slices and... Visual analysis of three-dimensional (3D) coronary computed tomography angiography (CCTA) remains challenging due to large number of image slices and tortuous... |
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| SubjectTerms | Algorithms Angiography Artificial Intelligence blood vessels Calcium centerline extraction Computed tomography Computer software Computerised tomographs computerised tomography Coronary Angiography - methods coronary CT angiography Coronary Stenosis - diagnostic imaging Digital computing or data processing equipment or methods, specially adapted for specific applications Female Humans Image analysis image classification Image data processing or generation, in general image segmentation knowledge based systems lesion detection lumen segmentation Male medical image processing Medical image quality Medical image segmentation Medical imaging Middle Aged Pattern Recognition, Automated - methods Radiographic Image Enhancement - methods Radiographic Image Interpretation, Computer-Assisted - methods Reproducibility of Results Sensitivity and Specificity Statistical analysis stenosis quantification Tomography, X-Ray Computed - methods Vascular system |
| Title | Automated knowledge-based detection of nonobstructive and obstructive arterial lesions from coronary CT angiography |
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