CT DICOM studies from: In vivo measurements of lung volumes in ringed seals: insights from biomedical imaging ...
This dataset supports: Hermann-Sorensen, H., Thometz, N.M., Woodie, K., Dennison-Gibby, S., and Reichmuth, C. In vivo measurements of lung volumes in ringed seals: insights from biomedical imaging. Journal of Experimental Biology. Marine mammals rely on oxygen stored in blood, muscle, and lungs to s...
Main Authors: | , , , , |
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Format: | Dataset |
Language: | English |
Published: |
Dryad
2020
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Subjects: | |
Online Access: | https://dx.doi.org/10.7291/d1r68j https://datadryad.org/stash/dataset/doi:10.7291/D1R68J |
Summary: | This dataset supports: Hermann-Sorensen, H., Thometz, N.M., Woodie, K., Dennison-Gibby, S., and Reichmuth, C. In vivo measurements of lung volumes in ringed seals: insights from biomedical imaging. Journal of Experimental Biology. Marine mammals rely on oxygen stored in blood, muscle, and lungs to support breath-hold diving and foraging at sea. Here, we used biomedical imaging to examine lung oxygen stores and other key respiratory parameters in living ringed seals (Pusa hispida). Three-dimensional models created from computed tomography (CT) images were used to quantify total lung capacity (TLC), respiratory dead space, minimum air volume, and total body volume to improve assessments of lung oxygen storage capacity, scaling relationships, and buoyant force estimates. Results suggest that lung oxygen stores determined in vivo are smaller than those derived from typical postmortem measurements. We also demonstrate that—while established allometric relationships hold well for most pinnipeds—these relationships ... : CT data were obtained from living ringed seals under anesthesia with slice thickness of 0.625 - 2.5 mm. Whole body scans were obtained when possible. The dataset contains DICOM images from nine complete series obtained with four individuals. Metadata associated with each series can be found in the published manuscript. ... |
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