Microstructural alterations of sputum in cystic fibrosis lung disease
Gregg A. Duncan, James Jung, Andrea Joseph, Abigail L. Thaxton, Natalie E. West, Michael P. Boyle, Justin Hanes, Jung Soo Suk
Gregg A. Duncan, James Jung, Andrea Joseph, Abigail L. Thaxton, Natalie E. West, Michael P. Boyle, Justin Hanes, Jung Soo Suk
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Research Article Pulmonology

Microstructural alterations of sputum in cystic fibrosis lung disease

Abstract

The stasis of mucus secretions in the lungs of cystic fibrosis (CF) patients leads to recurrent infections and pulmonary exacerbations, resulting in decreased survival. Prior studies have assessed the biochemical and biophysical features of airway mucus in individuals with CF. However, these measurements are unable to probe mucus structure on microscopic length scales relevant to key players in the progression of CF-related lung disease, namely, viruses, bacteria, and neutrophils. In this study, we quantitatively determined sputum microstructure based on the diffusion of muco-inert nanoparticle probes in CF sputum and found that a reduction in sputum mesh pore size is characteristic of CF patients with reduced lung function, as indicated by measured FEV1. We also discovered that the effect of ex vivo treatment of CF sputum with rhDNase I (Pulmozyme) on microstructure is dependent upon the time interval between the most recent inhaled rhDNase I treatment and the sample collection. Microstructure of mucus may serve as a marker for the extent of CF lung disease and as a parameter for assessing the effectiveness of mucus-altering agents.

Authors

Gregg A. Duncan, James Jung, Andrea Joseph, Abigail L. Thaxton, Natalie E. West, Michael P. Boyle, Justin Hanes, Jung Soo Suk

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Figure 4

Mechanistic study of microstructure in cross-linked mucin-based hydrogels.

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Mechanistic study of microstructure in cross-linked mucin-based hydrogel...
(A) Inversion test showing bulk viscoelastic properties of a mucin solution or a cross-linked mucin-based hydrogel, both containing 5% solids, and a CF sputum sample (right). The correlation of median log10[MSD1s] versus (B) PEGDA cross-linking density in mucin-based hydrogels or (C) DNA content in mucin/DNA composite hydrogels, both at a fixed percentage solids content of 5%. (D) log10[MSD1s] measured in 5% mucin only hydrogel, mucin/DNA composite (4.5% mucin + 0.5% DNA) hydrogel, and the composite hydrogel after a 30-minute incubation with 7 μg/ml rhDNase at 37°C. Data in B–D represents the average of 3 independent hydrogel preparations and the microstructural analysis of each. Student’s t test was used to compare different conditions in D (**P < 0.01).