Persistent mucus plugs in proximal airways are consequential for airflow limitation in asthma
Brendan K. Huang, Brett M. Elicker, Travis S. Henry, Kimberly G. Kallianos, Lewis D. Hahn, Monica Tang, Franklin Heng, Charles E. McCulloch, Nirav R. Bhakta, Sharmila Majumdar, Jiwoong Choi, Loren C. Denlinger, Sean B. Fain, Annette T. Hastie, Eric A. Hoffman, Elliot Israel, Nizar N. Jarjour, Bruce D. Levy, Dave T. Mauger, Kaharu Sumino, Sally E. Wenzel, Mario Castro, Prescott G. Woodruff, John V. Fahy, for the NHLBI Severe Asthma Research Program (SARP)
Brendan K. Huang, Brett M. Elicker, Travis S. Henry, Kimberly G. Kallianos, Lewis D. Hahn, Monica Tang, Franklin Heng, Charles E. McCulloch, Nirav R. Bhakta, Sharmila Majumdar, Jiwoong Choi, Loren C. Denlinger, Sean B. Fain, Annette T. Hastie, Eric A. Hoffman, Elliot Israel, Nizar N. Jarjour, Bruce D. Levy, Dave T. Mauger, Kaharu Sumino, Sally E. Wenzel, Mario Castro, Prescott G. Woodruff, John V. Fahy, for the NHLBI Severe Asthma Research Program (SARP)
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Clinical Research and Public Health Pulmonology

Persistent mucus plugs in proximal airways are consequential for airflow limitation in asthma

Abstract

BACKGROUND Information about the size, airway location, and longitudinal behavior of mucus plugs in asthma is needed to understand their role in mechanisms of airflow obstruction and to rationally design muco-active treatments.METHODS CT lung scans from 57 patients with asthma were analyzed to quantify mucus plug size and airway location, and paired CT scans obtained 3 years apart were analyzed to determine plug behavior over time. Radiologist annotations of mucus plugs were incorporated in an image-processing pipeline to generate size and location information that was related to measures of airflow.RESULTS The length distribution of 778 annotated mucus plugs was multimodal, and a 12 mm length defined short (“stubby”, ≤12 mm) and long (“stringy”, >12 mm) plug phenotypes. High mucus plug burden was disproportionately attributable to stringy mucus plugs. Mucus plugs localized predominantly to airway generations 6–9, and 47% of plugs in baseline scans persisted in the same airway for 3 years and fluctuated in length and volume. Mucus plugs in larger proximal generations had greater effects on spirometry measures than plugs in smaller distal generations, and a model of airflow that estimates the increased airway resistance attributable to plugs predicted a greater effect for proximal generations and more numerous mucus plugs.CONCLUSION Persistent mucus plugs in proximal airway generations occur in asthma and demonstrate a stochastic process of formation and resolution over time. Proximal airway mucus plugs are consequential for airflow and are in locations amenable to treatment by inhaled muco-active drugs or bronchoscopy.TRIAL REGISTRATION Clinicaltrials.gov; NCT01718197, NCT01606826, NCT01750411, NCT01761058, NCT01761630, NCT01716494, and NCT01760915.FUNDING AstraZeneca, Boehringer-Ingelheim, Genentech, GlaxoSmithKline, Sanofi–Genzyme–Regeneron, and TEVA provided financial support for study activities at the Coordinating and Clinical Centers beyond the third year of patient follow-up. These companies had no role in study design or data analysis, and the only restriction on the funds was that they be used to support the SARP initiative.

Authors

Brendan K. Huang, Brett M. Elicker, Travis S. Henry, Kimberly G. Kallianos, Lewis D. Hahn, Monica Tang, Franklin Heng, Charles E. McCulloch, Nirav R. Bhakta, Sharmila Majumdar, Jiwoong Choi, Loren C. Denlinger, Sean B. Fain, Annette T. Hastie, Eric A. Hoffman, Elliot Israel, Nizar N. Jarjour, Bruce D. Levy, Dave T. Mauger, Kaharu Sumino, Sally E. Wenzel, Mario Castro, Prescott G. Woodruff, John V. Fahy, for the NHLBI Severe Asthma Research Program (SARP)

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Figure 1

Mucus plugs are heterogeneous in size and shape in asthma.

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Mucus plugs are heterogeneous in size and shape in asthma. (A and B) Ove...
(A and B) Overview of annotation and image processing pipeline for mucus plug shapes quantification. (A) An elliptical mark placed over each plug generates a center coordinate, width, and height for a region of interest (colored arrows). The process is repeated at each axial slice (inset), with z indicating the slice location relative to the initial image and with color denoting annotations belonging to the same plug. (B) Annotations are incorporated into an image-processing pipeline for segmentation and feature extraction on plugs, enabling calculation of their length, diameter, and volume. (CE) Results of shape feature quantification of individual mucus plugs (left, n = 778 plugs) and averages by patient (right, n = 55 patients) from baseline scans, including plug length (C), plug diameter (D), and plug volume (E). Note that scales are logarithmic. Bars indicated interquartile range, and whiskers show minimum and maximum values. (F) Total mucus volume per patient. GK, Gustafson-Kessel.