Manual airway labeling has limited reproducibility
Publikation: Konferencebidrag › Poster › Forskning › fagfællebedømt
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Manual airway labeling has limited reproducibility. / Petersen, Jens; Feragen, Aasa; Thomsen, Laura Hohwü; Wille, Mathilde Marie Winkler; Dirksen, Asger; de Bruijne, Marleen.
2013. Poster session præsenteret ved European Congress of Radiology 2013, Vienna, Østrig.Publikation: Konferencebidrag › Poster › Forskning › fagfællebedømt
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TY - CONF
T1 - Manual airway labeling has limited reproducibility
AU - Petersen, Jens
AU - Feragen, Aasa
AU - Thomsen, Laura Hohwü
AU - Wille, Mathilde Marie Winkler
AU - Dirksen, Asger
AU - de Bruijne, Marleen
PY - 2013
Y1 - 2013
N2 - Purpose: Quantitative airway assessment is often performed in specific branches to enable comparison of measurements between patients and over time. Little is known on the accuracy in locating these branches. We determined inter- and intra-observer agreement of manual labeling of segmental bronchi from low-dose chest CT scans.Methods and Materials: We selected 40 participants of the Danish Lung Cancer Screening Trial, 10 of each category: asymptomatic, mild, moderate, and severe COPD. Each subject contributed 2 CT scans with an average interval of 4 years. The airways were segmented automatically using in-house developed software. Three trained observers placed labels L1-L10 and R1-R10 in each of the images, using 3D visualization and reformatted cross-sectional views. Inter-expert agreement for each segmental bronchus for a pair of experts was defined as the percentage of images in which both experts assigned that label to the same branch. Automatic deformable image registration was used to determine corresponding branches in the two scans of the same subject. Intra-expert agreement for a bronchus was then defined as the percentage of image pairs in which the expert assigned the label to the same branch in both scans.Results: Average inter-expert agreement was 73.9% (range 38.8%-100.0%). Agreement was lowest in the lower left lobe (55.0% for L7-L10), and largest in R6 and L6 (95.0% and 99.2%). Average intra-expert agreement was 75.4% (37.5%-100.0%).Conclusion: We found considerable disagreement in expert labeling, possibly reflecting large anatomical heterogeneity and changes with inspiration. Consistent airway measurement cannot be guaranteed based on manual localization.
AB - Purpose: Quantitative airway assessment is often performed in specific branches to enable comparison of measurements between patients and over time. Little is known on the accuracy in locating these branches. We determined inter- and intra-observer agreement of manual labeling of segmental bronchi from low-dose chest CT scans.Methods and Materials: We selected 40 participants of the Danish Lung Cancer Screening Trial, 10 of each category: asymptomatic, mild, moderate, and severe COPD. Each subject contributed 2 CT scans with an average interval of 4 years. The airways were segmented automatically using in-house developed software. Three trained observers placed labels L1-L10 and R1-R10 in each of the images, using 3D visualization and reformatted cross-sectional views. Inter-expert agreement for each segmental bronchus for a pair of experts was defined as the percentage of images in which both experts assigned that label to the same branch. Automatic deformable image registration was used to determine corresponding branches in the two scans of the same subject. Intra-expert agreement for a bronchus was then defined as the percentage of image pairs in which the expert assigned the label to the same branch in both scans.Results: Average inter-expert agreement was 73.9% (range 38.8%-100.0%). Agreement was lowest in the lower left lobe (55.0% for L7-L10), and largest in R6 and L6 (95.0% and 99.2%). Average intra-expert agreement was 75.4% (37.5%-100.0%).Conclusion: We found considerable disagreement in expert labeling, possibly reflecting large anatomical heterogeneity and changes with inspiration. Consistent airway measurement cannot be guaranteed based on manual localization.
U2 - 10.1594/ecr2013/C-2480
DO - 10.1594/ecr2013/C-2480
M3 - Poster
Y2 - 7 March 2013 through 11 March 2013
ER -
ID: 44865774