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Open Access 01-12-2017 | Research

Densitometric and local histogram based analysis of computed tomography images in patients with idiopathic pulmonary fibrosis

Authors: Samuel Y. Ash, Rola Harmouche, Diego Lassala Lopez Vallejo, Julian A. Villalba, Kris Ostridge, River Gunville, Carolyn E. Come, Jorge Onieva Onieva, James C. Ross, Gary M. Hunninghake, Souheil Y. El-Chemaly, Tracy J. Doyle, Pietro Nardelli, Gonzalo V. Sanchez-Ferrero, Hilary J. Goldberg, Ivan O. Rosas, Raul San Jose Estepar, George R. Washko

Published in: Respiratory Research | Issue 1/2017

Abstract

Background

Prior studies of clinical prognostication in idiopathic pulmonary fibrosis (IPF) using computed tomography (CT) have often used subjective analyses or have evaluated quantitative measures in isolation. This study examined associations between both densitometric and local histogram based quantitative CT measurements with pulmonary function test (PFT) parameters and mortality. In addition, this study sought to compare risk prediction scores that incorporate quantitative CT measures with previously described systems.

Methods

Forty six patients with biopsy proven IPF were identified from a registry of patients with interstitial lung disease at Brigham and Women’s Hospital in Boston, MA. CT scans for each subject were visually scored using a previously published method. After a semi-automated method was used to segment the lungs from the surrounding tissue, densitometric measurements including the percent high attenuating area, mean lung density, skewness and kurtosis were made for the entirety of each patient’s lungs. A separate, automated tool was used to detect and quantify the percent of lung occupied by interstitial lung features. These analyses were used to create clinical and quantitative CT based risk prediction scores, and the performance of these was compared to the performance of clinical and visual analysis based methods.

Results

All of the densitometric measures were correlated with forced vital capacity and diffusing capacity, as were the total amount of interstitial change and the percentage of interstitial change that was honeycombing measured using the local histogram method. Higher percent high attenuating area, higher mean lung density, lower skewness, lower kurtosis and a higher percentage of honeycombing were associated with worse transplant free survival. The quantitative CT based risk prediction scores performed similarly to the clinical and visual analysis based methods.

Conclusions

Both densitometric and feature based quantitative CT measures correlate with pulmonary function test measures and are associated with transplant free survival. These objective measures may be useful for identifying high risk patients and monitoring disease progression. Further work will be needed to validate these measures and the quantitative imaging based risk prediction scores in other cohorts.

Available only for authorised users

Note that paraseptal emphysema was specifically not included because of prior experience which revealed its frequent misclassification as normal tissue, and that no panlobular emphysema was identified during the training process.

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Title: Densitometric and local histogram based analysis of computed tomography images in patients with idiopathic pulmonary fibrosis
Authors: Samuel Y. Ash
Rola Harmouche
Diego Lassala Lopez Vallejo
Julian A. Villalba
Kris Ostridge
River Gunville
Carolyn E. Come
Jorge Onieva Onieva
James C. Ross
Gary M. Hunninghake
Souheil Y. El-Chemaly
Tracy J. Doyle
Pietro Nardelli
Gonzalo V. Sanchez-Ferrero
Hilary J. Goldberg
Ivan O. Rosas
Raul San Jose Estepar
George R. Washko
Publication date: 01-12-2017
Publisher: BioMed Central
Published in: Respiratory Research / Issue 1/2017
Electronic ISSN: 1465-993X
DOI: https://doi.org/10.1186/s12931-017-0527-8

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Densitometric and local histogram based analysis of computed tomography images in patients with idiopathic pulmonary fibrosis

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Conclusions

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