Automatic airway-artery analysis on lung CT to quantify airway wall thickening and bronchiectasis

Publikation: Bidrag til tidsskriftTidsskriftartikelfagfællebedømt

Standard

Automatic airway-artery analysis on lung CT to quantify airway wall thickening and bronchiectasis. / Perez-Rovira, Adria; Kuo, Wieying; Petersen, Jens; Tiddens, Harm A. W. M.; de Bruijne, Marleen.

I: Medical Physics, Bind 43, Nr. 10, 2016, s. 5736-5744.

Publikation: Bidrag til tidsskriftTidsskriftartikelfagfællebedømt

Harvard

Perez-Rovira, A, Kuo, W, Petersen, J, Tiddens, HAWM & de Bruijne, M 2016, 'Automatic airway-artery analysis on lung CT to quantify airway wall thickening and bronchiectasis', Medical Physics, bind 43, nr. 10, s. 5736-5744. https://doi.org/10.1118/1.4963214

APA

Perez-Rovira, A., Kuo, W., Petersen, J., Tiddens, H. A. W. M., & de Bruijne, M. (2016). Automatic airway-artery analysis on lung CT to quantify airway wall thickening and bronchiectasis. Medical Physics, 43(10), 5736-5744. https://doi.org/10.1118/1.4963214

Vancouver

Perez-Rovira A, Kuo W, Petersen J, Tiddens HAWM, de Bruijne M. Automatic airway-artery analysis on lung CT to quantify airway wall thickening and bronchiectasis. Medical Physics. 2016;43(10):5736-5744. https://doi.org/10.1118/1.4963214

Author

Perez-Rovira, Adria ; Kuo, Wieying ; Petersen, Jens ; Tiddens, Harm A. W. M. ; de Bruijne, Marleen. / Automatic airway-artery analysis on lung CT to quantify airway wall thickening and bronchiectasis. I: Medical Physics. 2016 ; Bind 43, Nr. 10. s. 5736-5744.

Bibtex

@article{66c7a297913c4e4b947a9c4013b564b6,
title = "Automatic airway-artery analysis on lung CT to quantify airway wall thickening and bronchiectasis",
abstract = "Purpose: Bronchiectasis and airway wall thickening are commonly assessed in computed tomography (CT) by comparing the airway size with the size of the accompanying artery. Thus, in order to automate the quantification of bronchiectasis and wall thickening following a similar principle, there is a need for methods that automatically segment the airway and vascular trees, measure their size, and pair each airway branch with its accompanying artery. Methods: This paper combines and extends existing techniques to present a fully automated pipeline that, given a thoracic chest CT, segments, measures, and pairs airway branches with the accompanying artery, then quantifies airway wall thickening and bronchiectasis by measuring the wall-artery ratio (WAR) and lumen and outer wall airway-artery ratio (AAR). Measurements that do not use the artery size for normalization are also extracted, including wall area percentage (WAP), wall thickness ratio (WTR), and airway diameters. Results: The method was thoroughly evaluated using 8000 manual annotations of airway-artery pairs from 24 full-inspiration pediatric CT scans (12 diseased and 12 controls). Limits of agreement between the automatically and manually measured diameters were comparable to interobserver limits of agreement. Differences in automatically obtained WAR, AAR, WAP, and WTR between bronchiectatic subjects and controls were similar as when manual annotations were used: WAR and outer AAR were significantly higher in the bronchiectatic subjects (p < 0.05), but lumen AAR, WAP, and WTR were not. Only measurements that use artery size for normalization led to significant differences between groups, highlighting the importance of airway-artery pairing. Conclusions: The fully automatic method presented in this paper could replace time-consuming manual annotations and visual scoring methods to quantify abnormal widening and thickening of airways.",
keywords = "airway, artery, bronchiectasis, CT, quantification",
author = "Adria Perez-Rovira and Wieying Kuo and Jens Petersen and Tiddens, {Harm A. W. M.} and {de Bruijne}, Marleen",
year = "2016",
doi = "10.1118/1.4963214",
language = "English",
volume = "43",
pages = "5736--5744",
journal = "Medical Physics",
issn = "0094-2405",
publisher = "John Wiley and Sons, Inc.",
number = "10",

}

RIS

TY - JOUR

T1 - Automatic airway-artery analysis on lung CT to quantify airway wall thickening and bronchiectasis

AU - Perez-Rovira, Adria

AU - Kuo, Wieying

AU - Petersen, Jens

AU - Tiddens, Harm A. W. M.

AU - de Bruijne, Marleen

PY - 2016

Y1 - 2016

N2 - Purpose: Bronchiectasis and airway wall thickening are commonly assessed in computed tomography (CT) by comparing the airway size with the size of the accompanying artery. Thus, in order to automate the quantification of bronchiectasis and wall thickening following a similar principle, there is a need for methods that automatically segment the airway and vascular trees, measure their size, and pair each airway branch with its accompanying artery. Methods: This paper combines and extends existing techniques to present a fully automated pipeline that, given a thoracic chest CT, segments, measures, and pairs airway branches with the accompanying artery, then quantifies airway wall thickening and bronchiectasis by measuring the wall-artery ratio (WAR) and lumen and outer wall airway-artery ratio (AAR). Measurements that do not use the artery size for normalization are also extracted, including wall area percentage (WAP), wall thickness ratio (WTR), and airway diameters. Results: The method was thoroughly evaluated using 8000 manual annotations of airway-artery pairs from 24 full-inspiration pediatric CT scans (12 diseased and 12 controls). Limits of agreement between the automatically and manually measured diameters were comparable to interobserver limits of agreement. Differences in automatically obtained WAR, AAR, WAP, and WTR between bronchiectatic subjects and controls were similar as when manual annotations were used: WAR and outer AAR were significantly higher in the bronchiectatic subjects (p < 0.05), but lumen AAR, WAP, and WTR were not. Only measurements that use artery size for normalization led to significant differences between groups, highlighting the importance of airway-artery pairing. Conclusions: The fully automatic method presented in this paper could replace time-consuming manual annotations and visual scoring methods to quantify abnormal widening and thickening of airways.

AB - Purpose: Bronchiectasis and airway wall thickening are commonly assessed in computed tomography (CT) by comparing the airway size with the size of the accompanying artery. Thus, in order to automate the quantification of bronchiectasis and wall thickening following a similar principle, there is a need for methods that automatically segment the airway and vascular trees, measure their size, and pair each airway branch with its accompanying artery. Methods: This paper combines and extends existing techniques to present a fully automated pipeline that, given a thoracic chest CT, segments, measures, and pairs airway branches with the accompanying artery, then quantifies airway wall thickening and bronchiectasis by measuring the wall-artery ratio (WAR) and lumen and outer wall airway-artery ratio (AAR). Measurements that do not use the artery size for normalization are also extracted, including wall area percentage (WAP), wall thickness ratio (WTR), and airway diameters. Results: The method was thoroughly evaluated using 8000 manual annotations of airway-artery pairs from 24 full-inspiration pediatric CT scans (12 diseased and 12 controls). Limits of agreement between the automatically and manually measured diameters were comparable to interobserver limits of agreement. Differences in automatically obtained WAR, AAR, WAP, and WTR between bronchiectatic subjects and controls were similar as when manual annotations were used: WAR and outer AAR were significantly higher in the bronchiectatic subjects (p < 0.05), but lumen AAR, WAP, and WTR were not. Only measurements that use artery size for normalization led to significant differences between groups, highlighting the importance of airway-artery pairing. Conclusions: The fully automatic method presented in this paper could replace time-consuming manual annotations and visual scoring methods to quantify abnormal widening and thickening of airways.

KW - airway

KW - artery

KW - bronchiectasis

KW - CT

KW - quantification

U2 - 10.1118/1.4963214

DO - 10.1118/1.4963214

M3 - Journal article

C2 - 27782697

AN - SCOPUS:84989328999

VL - 43

SP - 5736

EP - 5744

JO - Medical Physics

JF - Medical Physics

SN - 0094-2405

IS - 10

ER -

ID: 167584332