Literature DB >> 9845305

Segmentation of intrathoracic airway trees: a fuzzy logic approach.

W Park1, E A Hoffman, M Sonka.   

Abstract

Three-dimensional (3-D) analysis of airway trees extracted from computed tomography (CT) image data can provide objective information about lung structure and function. However, manual analysis of 3-D lung CT images is tedious, time consuming and, thus, impractical for routine clinical care. We have previously reported an automated rule-based method for extraction of airway trees from 3-D CT images using a priori knowledge about airway-tree anatomy. Although the method's sensitivity was quite good, its specificity suffered from a large number of falsely detected airways. We present a new approach to airway-tree detection based on fuzzy logic that increases the method's specificity without compromising its sensitivity. The method was validated in 32 CT image slices randomly selected from five volumetric canine electron-beam CT data sets. The fuzzy-logic method significantly outperformed the previously reported rule-based method (p < 0.002).

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Year:  1998        PMID: 9845305     DOI: 10.1109/42.730394

Source DB:  PubMed          Journal:  IEEE Trans Med Imaging        ISSN: 0278-0062            Impact factor:   10.048


  20 in total

1.  Shape "break-and-repair" strategy and its application to automated medical image segmentation.

Authors:  Jiantao Pu; David S Paik; Xin Meng; Justus E Roos; Geoffrey D Rubin
Journal:  IEEE Trans Vis Comput Graph       Date:  2011-01       Impact factor: 4.579

2.  Intrathoracic airway trees: segmentation and airway morphology analysis from low-dose CT scans.

Authors:  Juerg Tschirren; Eric A Hoffman; Geoffrey McLennan; Milan Sonka
Journal:  IEEE Trans Med Imaging       Date:  2005-12       Impact factor: 10.048

3.  Segmentation and quantitative analysis of intrathoracic airway trees from computed tomography images.

Authors:  Juerg Tschirren; Eric A Hoffman; Geoffrey McLennan; Milan Sonka
Journal:  Proc Am Thorac Soc       Date:  2005

4.  Fully automated system for three-dimensional bronchial morphology analysis using volumetric multidetector computed tomography of the chest.

Authors:  Raman Venkatraman; Raghav Raman; Bhargav Raman; Richard B Moss; Geoffrey D Rubin; Lawrence H Mathers; Terry E Robinson
Journal:  J Digit Imaging       Date:  2006-06       Impact factor: 4.056

5.  Automated classification of lung bronchovascular anatomy in CT using AdaBoost.

Authors:  Robert A Ochs; Jonathan G Goldin; Fereidoun Abtin; Hyun J Kim; Kathleen Brown; Poonam Batra; Donald Roback; Michael F McNitt-Gray; Matthew S Brown
Journal:  Med Image Anal       Date:  2007-03-30       Impact factor: 8.545

Review 6.  CT based computerized identification and analysis of human airways: a review.

Authors:  Jiantao Pu; Suicheng Gu; Shusen Liu; Shaocheng Zhu; David Wilson; Jill M Siegfried; David Gur
Journal:  Med Phys       Date:  2012-05       Impact factor: 4.071

7.  Finite element 3D reconstruction of the pulmonary acinus imaged by synchrotron X-ray tomography.

Authors:  A Tsuda; N Filipovic; D Haberthür; R Dickie; Y Matsui; M Stampanoni; J C Schittny
Journal:  J Appl Physiol (1985)       Date:  2008-06-26

8.  Adaptive border marching algorithm: automatic lung segmentation on chest CT images.

Authors:  Jiantao Pu; Justus Roos; Chin A Yi; Sandy Napel; Geoffrey D Rubin; David S Paik
Journal:  Comput Med Imaging Graph       Date:  2008-06-02       Impact factor: 4.790

9.  A "loop" shape descriptor and its application to automated segmentation of airways from CT scans.

Authors:  Jiantao Pu; Chenwang Jin; Nan Yu; Yongqiang Qian; Xiaohua Wang; Xin Meng; Youmin Guo
Journal:  Med Phys       Date:  2015-06       Impact factor: 4.071

10.  Optimal graph search based segmentation of airway tree double surfaces across bifurcations.

Authors:  Xiaomin Liu; Danny Z Chen; Merryn H Tawhai; Xiaodong Wu; Eric A Hoffman; Milan Sonka
Journal:  IEEE Trans Med Imaging       Date:  2012-10-10       Impact factor: 10.048
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