Differentiation of quantitative CT imaging phenotypes in asthma versus COPD

Sanghun Choi; Babak Haghighi; Jiwoong Choi; Eric A. Hoffman; Alejandro P. Comellas; John D. Newell; Sally E. Wenzel; Mario Castro; Sean B. Fain; Nizar N. Jarjour; Mark L. Schiebler; R. Graham Barr; Meilan K. Han; Eugene R. Bleecker; Christopher B. Cooper; David Couper; Nadia Hansel; Richard E. Kanner; Ella A. Kazerooni; Eric A.C. Kleerup; Fernando J. Martinez; Wanda K. O'Neal; Prescott G. Woodruff; Ching Long Lin

doi:10.1136/bmjresp-2017-000252

Differentiation of quantitative CT imaging phenotypes in asthma versus COPD

Sanghun Choi, Babak Haghighi, Jiwoong Choi, Eric A. Hoffman, Alejandro P. Comellas, John D. Newell, Sally E. Wenzel, Mario Castro, Sean B. Fain, Nizar N. Jarjour, Mark L. Schiebler, R. Graham Barr, Meilan K. Han, Eugene R. Bleecker, Christopher B. Cooper, David Couper, Nadia Hansel, Richard E. Kanner, Ella A. Kazerooni, Eric A.C. KleerupFernando J. Martinez, Wanda K. O'Neal, Prescott G. Woodruff, Ching Long Lin

School of Medicine

Research output: Contribution to journal › Article › peer-review

10 Scopus citations

Abstract

Introduction Quantitative CT (QCT) imaging-based metrics have quantified disease alterations in asthma and chronic obstructive pulmonary disease (COPD), respectively. We seek to characterise the similarity and disparity between these groups using QCT-derived airway and parenchymal metrics. Methods Asthma and COPD subjects (former-smoker status) were selected with a criterion of post-bronchodilator FEV 1 <80%. Healthy non-smokers were included as a control group. Inspiratory and expiratory QCT images of 75 asthmatic, 215 COPD and 94 healthy subjects were evaluated. We compared three segmental variables: airway circularity, normalised wall thickness and normalised hydraulic diameter, indicating heterogeneous airway shape, wall thickening and luminal narrowing, respectively. Using an image registration, we also computed six lobar variables including per cent functional small-airway disease, per cent emphysema, tissue fraction at inspiration, fractional-air-volume change, Jacobian and functional metric characterising anisotropic deformation. Results Compared with healthy subjects, both asthma and COPD subjects demonstrated a decreased airway circularity especially in large and upper lobar airways, and a decreased normalised hydraulic diameter in segmental airways. Besides, COPD subjects had more severe emphysema and small-airway disease, as well as smaller regional tissue fraction and lung deformation, compared with asthmatic subjects. The difference of emphysema, small-airway disease and tissue fraction between asthma and COPD was more prominent in upper and middle lobes. Conclusions Patients with asthma and COPD, with a persistent FEV 1 <80%, demonstrated similar alterations in airway geometry compared with controls, but different degrees of alterations in parenchymal regions. Density-based metrics measured at upper and middle lobes were found to be discriminant variables between patients with asthma and COPD.

Original language	English (US)
Article number	e000252
Journal	BMJ Open Respiratory Research
Volume	4
Issue number	1
DOIs	https://doi.org/10.1136/bmjresp-2017-000252
State	Published - Dec 2017

Keywords

airway luminal narrowing
emphysema
functional small airway disease
image registration
quantitative computed tomography

ASJC Scopus subject areas

Pulmonary and Respiratory Medicine

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10.1136/bmjresp-2017-000252

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Choi, S., Haghighi, B., Choi, J., Hoffman, E. A., Comellas, A. P., Newell, J. D., Wenzel, S. E., Castro, M., Fain, S. B., Jarjour, N. N., Schiebler, M. L., Barr, R. G., Han, M. K., Bleecker, E. R., Cooper, C. B., Couper, D., Hansel, N., Kanner, R. E., Kazerooni, E. A., ... Lin, C. L. (2017). Differentiation of quantitative CT imaging phenotypes in asthma versus COPD. BMJ Open Respiratory Research, 4(1), Article e000252. https://doi.org/10.1136/bmjresp-2017-000252

Choi, S, Haghighi, B, Choi, J, Hoffman, EA, Comellas, AP, Newell, JD, Wenzel, SE, Castro, M, Fain, SB, Jarjour, NN, Schiebler, ML, Barr, RG, Han, MK, Bleecker, ER, Cooper, CB, Couper, D, Hansel, N, Kanner, RE, Kazerooni, EA, Kleerup, EAC, Martinez, FJ, O'Neal, WK, Woodruff, PG & Lin, CL 2017, 'Differentiation of quantitative CT imaging phenotypes in asthma versus COPD', BMJ Open Respiratory Research, vol. 4, no. 1, e000252. https://doi.org/10.1136/bmjresp-2017-000252

@article{400c8a591eb845839828ed431feef560,

title = "Differentiation of quantitative CT imaging phenotypes in asthma versus COPD",

abstract = "Introduction Quantitative CT (QCT) imaging-based metrics have quantified disease alterations in asthma and chronic obstructive pulmonary disease (COPD), respectively. We seek to characterise the similarity and disparity between these groups using QCT-derived airway and parenchymal metrics. Methods Asthma and COPD subjects (former-smoker status) were selected with a criterion of post-bronchodilator FEV 1 <80%. Healthy non-smokers were included as a control group. Inspiratory and expiratory QCT images of 75 asthmatic, 215 COPD and 94 healthy subjects were evaluated. We compared three segmental variables: airway circularity, normalised wall thickness and normalised hydraulic diameter, indicating heterogeneous airway shape, wall thickening and luminal narrowing, respectively. Using an image registration, we also computed six lobar variables including per cent functional small-airway disease, per cent emphysema, tissue fraction at inspiration, fractional-air-volume change, Jacobian and functional metric characterising anisotropic deformation. Results Compared with healthy subjects, both asthma and COPD subjects demonstrated a decreased airway circularity especially in large and upper lobar airways, and a decreased normalised hydraulic diameter in segmental airways. Besides, COPD subjects had more severe emphysema and small-airway disease, as well as smaller regional tissue fraction and lung deformation, compared with asthmatic subjects. The difference of emphysema, small-airway disease and tissue fraction between asthma and COPD was more prominent in upper and middle lobes. Conclusions Patients with asthma and COPD, with a persistent FEV 1 <80%, demonstrated similar alterations in airway geometry compared with controls, but different degrees of alterations in parenchymal regions. Density-based metrics measured at upper and middle lobes were found to be discriminant variables between patients with asthma and COPD.",

keywords = "airway luminal narrowing, emphysema, functional small airway disease, image registration, quantitative computed tomography",

author = "Sanghun Choi and Babak Haghighi and Jiwoong Choi and Hoffman, {Eric A.} and Comellas, {Alejandro P.} and Newell, {John D.} and Wenzel, {Sally E.} and Mario Castro and Fain, {Sean B.} and Jarjour, {Nizar N.} and Schiebler, {Mark L.} and Barr, {R. Graham} and Han, {Meilan K.} and Bleecker, {Eugene R.} and Cooper, {Christopher B.} and David Couper and Nadia Hansel and Kanner, {Richard E.} and Kazerooni, {Ella A.} and Kleerup, {Eric A.C.} and Martinez, {Fernando J.} and O'Neal, {Wanda K.} and Woodruff, {Prescott G.} and Lin, {Ching Long}",

note = "Publisher Copyright: {\textcopyright} Author(s) (or their employer(s)) 2017. Re-use permitted under CC BY-NC. No commercial re-use. See rights and permissions. Published by BMJ.",

year = "2017",

month = dec,

doi = "10.1136/bmjresp-2017-000252",

language = "English (US)",

volume = "4",

journal = "BMJ Open Respiratory Research",

issn = "2052-4439",

publisher = "BMJ Publishing Group",

number = "1",

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TY - JOUR

T1 - Differentiation of quantitative CT imaging phenotypes in asthma versus COPD

AU - Choi, Sanghun

AU - Haghighi, Babak

AU - Choi, Jiwoong

AU - Hoffman, Eric A.

AU - Comellas, Alejandro P.

AU - Newell, John D.

AU - Wenzel, Sally E.

AU - Castro, Mario

AU - Fain, Sean B.

AU - Jarjour, Nizar N.

AU - Schiebler, Mark L.

AU - Barr, R. Graham

AU - Han, Meilan K.

AU - Bleecker, Eugene R.

AU - Cooper, Christopher B.

AU - Couper, David

AU - Hansel, Nadia

AU - Kanner, Richard E.

AU - Kazerooni, Ella A.

AU - Kleerup, Eric A.C.

AU - Martinez, Fernando J.

AU - O'Neal, Wanda K.

AU - Woodruff, Prescott G.

AU - Lin, Ching Long

PY - 2017/12

Y1 - 2017/12

N2 - Introduction Quantitative CT (QCT) imaging-based metrics have quantified disease alterations in asthma and chronic obstructive pulmonary disease (COPD), respectively. We seek to characterise the similarity and disparity between these groups using QCT-derived airway and parenchymal metrics. Methods Asthma and COPD subjects (former-smoker status) were selected with a criterion of post-bronchodilator FEV 1 <80%. Healthy non-smokers were included as a control group. Inspiratory and expiratory QCT images of 75 asthmatic, 215 COPD and 94 healthy subjects were evaluated. We compared three segmental variables: airway circularity, normalised wall thickness and normalised hydraulic diameter, indicating heterogeneous airway shape, wall thickening and luminal narrowing, respectively. Using an image registration, we also computed six lobar variables including per cent functional small-airway disease, per cent emphysema, tissue fraction at inspiration, fractional-air-volume change, Jacobian and functional metric characterising anisotropic deformation. Results Compared with healthy subjects, both asthma and COPD subjects demonstrated a decreased airway circularity especially in large and upper lobar airways, and a decreased normalised hydraulic diameter in segmental airways. Besides, COPD subjects had more severe emphysema and small-airway disease, as well as smaller regional tissue fraction and lung deformation, compared with asthmatic subjects. The difference of emphysema, small-airway disease and tissue fraction between asthma and COPD was more prominent in upper and middle lobes. Conclusions Patients with asthma and COPD, with a persistent FEV 1 <80%, demonstrated similar alterations in airway geometry compared with controls, but different degrees of alterations in parenchymal regions. Density-based metrics measured at upper and middle lobes were found to be discriminant variables between patients with asthma and COPD.

AB - Introduction Quantitative CT (QCT) imaging-based metrics have quantified disease alterations in asthma and chronic obstructive pulmonary disease (COPD), respectively. We seek to characterise the similarity and disparity between these groups using QCT-derived airway and parenchymal metrics. Methods Asthma and COPD subjects (former-smoker status) were selected with a criterion of post-bronchodilator FEV 1 <80%. Healthy non-smokers were included as a control group. Inspiratory and expiratory QCT images of 75 asthmatic, 215 COPD and 94 healthy subjects were evaluated. We compared three segmental variables: airway circularity, normalised wall thickness and normalised hydraulic diameter, indicating heterogeneous airway shape, wall thickening and luminal narrowing, respectively. Using an image registration, we also computed six lobar variables including per cent functional small-airway disease, per cent emphysema, tissue fraction at inspiration, fractional-air-volume change, Jacobian and functional metric characterising anisotropic deformation. Results Compared with healthy subjects, both asthma and COPD subjects demonstrated a decreased airway circularity especially in large and upper lobar airways, and a decreased normalised hydraulic diameter in segmental airways. Besides, COPD subjects had more severe emphysema and small-airway disease, as well as smaller regional tissue fraction and lung deformation, compared with asthmatic subjects. The difference of emphysema, small-airway disease and tissue fraction between asthma and COPD was more prominent in upper and middle lobes. Conclusions Patients with asthma and COPD, with a persistent FEV 1 <80%, demonstrated similar alterations in airway geometry compared with controls, but different degrees of alterations in parenchymal regions. Density-based metrics measured at upper and middle lobes were found to be discriminant variables between patients with asthma and COPD.

KW - airway luminal narrowing

KW - emphysema

KW - functional small airway disease

KW - image registration

KW - quantitative computed tomography

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DO - 10.1136/bmjresp-2017-000252

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JO - BMJ Open Respiratory Research

JF - BMJ Open Respiratory Research

IS - 1

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ER -

Differentiation of quantitative CT imaging phenotypes in asthma versus COPD

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