Automated computer-assisted quantitative analysis of intact murine lungs at the alveolar scale

Goran Lovric; Ioannis Vogiatzis Oikonomidis; Rajmund Mokso; Marco Stampanoni; Matthias Roth-Kleiner; Johannes C. Schittny

doi:10.1371/journal.pone.0183979

Automated computer-assisted quantitative analysis of intact murine lungs at the alveolar scale

Goran Lovric, Ioannis Vogiatzis Oikonomidis, Rajmund Mokso, Marco Stampanoni, Matthias Roth-Kleiner, Johannes C. Schittny

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

Abstract

Using state-of-the-art X-ray tomographic microscopy we can image lung tissue in three dimensions in intact animals down to a micrometer precision. The structural complexity and hierarchical branching scheme of the lung at this level of details, however, renders the extraction of biologically relevant quantities particularly challenging. We have developed a methodology for a detailed description of lung inflation patterns by measuring the size and the local curvature of the parenchymal airspaces. These quantitative tools for morphological and topological analyses were applied to high-resolution murine 3D lung image data, inflated at different pressure levels under immediate post mortem conditions. We show for the first time direct indications of heterogeneous intra-lobar and inter-lobar distension patterns at the alveolar level. Furthermore, we did not find any indication that a cyclic opening- and-collapse (recruitment) of a large number of alveoli takes place.

Original language	English
Article number	e0183979
Journal	PLoS ONE
Volume	12
Issue number	9
DOIs	https://doi.org/10.1371/journal.pone.0183979
Publication status	Published - 2017 Sept 1

Subject classification (UKÄ)

Radiology, Nuclear Medicine and Medical Imaging

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10.1371/journal.pone.0183979

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abstract = "Using state-of-the-art X-ray tomographic microscopy we can image lung tissue in three dimensions in intact animals down to a micrometer precision. The structural complexity and hierarchical branching scheme of the lung at this level of details, however, renders the extraction of biologically relevant quantities particularly challenging. We have developed a methodology for a detailed description of lung inflation patterns by measuring the size and the local curvature of the parenchymal airspaces. These quantitative tools for morphological and topological analyses were applied to high-resolution murine 3D lung image data, inflated at different pressure levels under immediate post mortem conditions. We show for the first time direct indications of heterogeneous intra-lobar and inter-lobar distension patterns at the alveolar level. Furthermore, we did not find any indication that a cyclic opening- and-collapse (recruitment) of a large number of alveoli takes place.",

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AU - Lovric, Goran

AU - Vogiatzis Oikonomidis, Ioannis

AU - Mokso, Rajmund

AU - Stampanoni, Marco

AU - Roth-Kleiner, Matthias

AU - Schittny, Johannes C.

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N2 - Using state-of-the-art X-ray tomographic microscopy we can image lung tissue in three dimensions in intact animals down to a micrometer precision. The structural complexity and hierarchical branching scheme of the lung at this level of details, however, renders the extraction of biologically relevant quantities particularly challenging. We have developed a methodology for a detailed description of lung inflation patterns by measuring the size and the local curvature of the parenchymal airspaces. These quantitative tools for morphological and topological analyses were applied to high-resolution murine 3D lung image data, inflated at different pressure levels under immediate post mortem conditions. We show for the first time direct indications of heterogeneous intra-lobar and inter-lobar distension patterns at the alveolar level. Furthermore, we did not find any indication that a cyclic opening- and-collapse (recruitment) of a large number of alveoli takes place.

AB - Using state-of-the-art X-ray tomographic microscopy we can image lung tissue in three dimensions in intact animals down to a micrometer precision. The structural complexity and hierarchical branching scheme of the lung at this level of details, however, renders the extraction of biologically relevant quantities particularly challenging. We have developed a methodology for a detailed description of lung inflation patterns by measuring the size and the local curvature of the parenchymal airspaces. These quantitative tools for morphological and topological analyses were applied to high-resolution murine 3D lung image data, inflated at different pressure levels under immediate post mortem conditions. We show for the first time direct indications of heterogeneous intra-lobar and inter-lobar distension patterns at the alveolar level. Furthermore, we did not find any indication that a cyclic opening- and-collapse (recruitment) of a large number of alveoli takes place.

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Automated computer-assisted quantitative analysis of intact murine lungs at the alveolar scale

Abstract

Subject classification (UKÄ)

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