Functional Anatomic Imaging of the Airway Surface

The airway surface functional microanatomy, including the ciliated airway epithelium and overlying mucus layer, is a critical component of the mucociliary escalator apparatus, an innate immune defense that helps to maintain a clean environment in the respiratory tract. Many genetic and acquired resp...

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Published inAnnals of the American Thoracic Society Vol. 15; no. Suppl 3; pp. S177 - S183
Main Authors Shei, Ren-Jay, Peabody, Jacelyn E, Rowe, Steven M
Format Journal Article
LanguageEnglish
Published United States American Thoracic Society 01.11.2018
Subjects
Chronic obstructive pulmonary disease
Cigarettes
Cystic fibrosis
Disease
Elevators & escalators
Medical imaging
Microscopy
Morphology
Mucous membrane
Pathogenesis
Pathogens
Respiratory diseases
Tomography
Transatlantic Airway Conference
cilia
mucociliary clearance
airway surface liquid
mucus
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Summary:The airway surface functional microanatomy, including the ciliated airway epithelium and overlying mucus layer, is a critical component of the mucociliary escalator apparatus, an innate immune defense that helps to maintain a clean environment in the respiratory tract. Many genetic and acquired respiratory diseases have underlying pathophysiological mechanisms in which constituents of the airway surface functional microanatomy are defective. For example, in cystic fibrosis, mutations in the cystic fibrosis transmembrane conductance regulator gene, which normally produces a secretory anion channel protein, result in defective anion secretion and consequent dehydrated and acidic mucosal layer overlying the airway epithelium. This thick, viscous mucus results in depressed ciliary beating and delayed mucociliary transport, trapping bacteria and other pathogens, compromising host defenses and ultimately propagating disease progression. Thus, developing tools capable of studying the airway surface microanatomy has been critical to better understanding key pathophysiological mechanisms, and may become useful tools to monitor treatment outcomes. Here, we discuss functional imaging tools to study the airway surface functional microanatomy, and how their application has contributed to an improved understanding of airway disease pathophysiology.
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ISSN:2329-6933
2325-6621
DOI:10.1513/AnnalsATS.201806-407AW