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Crystal ribcage: a platform for probing real-time lung function at cellular resolution

Research Authors
Rohin Banerji, Gabrielle N. Grifno, Linzheng Shi, Dylan Smolen, Rob LeBourdais, Johnathan Muhvich, Cate Eberman, Bradley E. Hiller, Jisu Lee, Kathryn Regan, Siyi Zheng, Sue Zhang, John Jiang, Ahmed A. Raslan, Julia C. Breda, Riley Pihl, Katrina Traber, Sa
Research Abstract

Understanding the dynamic pathogenesis and treatment response in pulmonary diseases requires probing the lung at cellular resolution in real time. Despite advances in intravital imaging, optical imaging of the lung during active respiration and circulation has remained challenging. Here, we introduce the crystal ribcage: a transparent ribcage that allows multiscale optical imaging of the functioning lung from whole-organ to single-cell level. It enables the modulation of lung biophysics and immunity through intravascular, intrapulmonary, intraparenchymal and optogenetic interventions, and it preserves the three-dimensional architecture, air–liquid interface, cellular diversity and respiratory–circulatory functions of the lung. Utilizing these capabilities on murine models of pulmonary pathologies we probed remodeling of respiratory–circulatory functions at the single-alveolus and capillary levels during disease progression. The crystal ribcage and its broad applications presented here will facilitate further studies of nearly any pulmonary disease as well as lead to the identification of new targets for treatment strategies.

Research Date
Research Department
Research Journal
Nature Methods
Research Publisher
Nature Publishing Group
Research Rank
Q1, Journal Impact Factor: 36.1, 5-year Journal Impact Factor: 45.6
Research Vol
20
Research Website
https://doi.org/10.1038/s41592-023-02004-9
Research Year
2023
Research Pages
1790-1801