A method for avoiding overlap of left and right lungs in shape model guided segmentation of lungs in CT volumes

Purpose: The automated correct segmentation of left and right lungs is a nontrivial problem, because the tissue layer between both lungs can be quite thin. In the case of lung segmentation with left and right lung models, overlapping segmentations can occur. In this paper, the authors address this i...

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Bibliographic Details
Published in:Medical physics (Lancaster) 2014-10, Vol.41 (10), p.101908-n/a
Main Authors: Gill, Gurman, Bauer, Christian, Beichel, Reinhard R.
Format: Article
Language:English
Subjects:
active shape model
Algorithms
Asthma - diagnostic imaging
Biological material, e.g. blood, urine
Haemocytometers
biological tissues
Computed tomography
Computerised tomographs
computerised tomography
Digital computing or data processing equipment or methods, specially adapted for specific applications
diseases
Eigenvalues
Gold
Humans
image classification
Image data processing or generation, in general
image segmentation
lung
Lung - diagnostic imaging
lung segmentation
lung separation
Lungs
medical image processing
Medical image segmentation
Models, Biological
Pattern Recognition, Automated - methods
Pulmonary Disease, Chronic Obstructive - diagnostic imaging
Radiation Imaging Physics
Respiration
Segmentation
Three dimensional image processing
Three dimensional sensing
Tissues
Tomography, X-Ray Computed - methods
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Summary:Purpose: The automated correct segmentation of left and right lungs is a nontrivial problem, because the tissue layer between both lungs can be quite thin. In the case of lung segmentation with left and right lung models, overlapping segmentations can occur. In this paper, the authors address this issue and propose a solution for a model‐based lung segmentation method. Methods: The thin tissue layer between left and right lungs is detected by means of a classification approach and utilized to selectively modify the cost function of the lung segmentation method. The approach was evaluated on a diverse set of 212 CT scans of normal and diseased lungs. Performance was assessed by utilizing an independent reference standard and by means of comparison to the standard segmentation method without overlap avoidance. Results: For cases where the standard approach produced overlapping segmentations, the proposed method significantly (p = 1.65 × 10−9) reduced the overlap by 97.13% on average (median: 99.96%). In addition, segmentation accuracy assessed with the Dice coefficient showed a statistically significant improvement (p = 7.5 × 10−5) and was 0.9845 ± 0.0111. For cases where the standard approach did not produce an overlap, performance of the proposed method was not found to be significantly different. Conclusions: The proposed method improves the quality of the lung segmentations, which is important for subsequent quantitative analysis steps.
ISSN:0094-2405
2473-4209
DOI:10.1118/1.4894817