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Hypothesis-driven modeling of the human lung-ventilator system: A characterization tool for Acute Respiratory Distress Syndrome research |
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| | J.N. Stroh, Bradford J. Smith, Peter D. Sottile, George Hripcsak, David J. Albers | | | Journal of Biomedical Informatics. 2022; : 104275 | | | [Pubmed] [Google Scholar] [DOI] | | | 2 |
Dyspnea and Mechanical Ventilation: The Emperor Has No Clothes |
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| | Richard M. Schwartzstein, Margaret L. Campbell | | | American Journal of Respiratory and Critical Care Medicine. 2022; 205(8): 864 | | | [Pubmed] [Google Scholar] [DOI] | | | 3 |
Testing of pandemic ventilators under early and agile development |
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| | Nikolaos Tachatos, Nicola Steffen, Mark Zander, Nikola Stankovic, Mirko Meboldt, Thomas O. Erb, Jürg Hammer, Marianne Schmid Daners | | | Frontiers in Medical Technology. 2022; 4 | | | [Pubmed] [Google Scholar] [DOI] | | | 4 |
Lung Mechanics Over the Century: From Bench to Bedside and Back to Bench |
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| | Paolo Jose Cesare Biselli, Fernanda Degobbi Tenorio Quirino Dos Santos Lopes, Renato Fraga Righetti, Henrique Takachi Moriya, Iolanda Fátima Lopes Calvo Tibério, Milton Arruda Martins | | | Frontiers in Physiology. 2022; 13 | | | [Pubmed] [Google Scholar] [DOI] | | | 5 |
Mechanosensitive Piezo1 channel activation promotes ventilator-induced lung injury via disruption of endothelial junctions in ARDS rats |
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| | Lulu Jiang, Yang Zhang, Dahao Lu, Tianfeng Huang, Keshi Yan, Wenjun Yang, Ju Gao | | | Biochemical and Biophysical Research Communications. 2021; 556: 79 | | | [Pubmed] [Google Scholar] [DOI] | |
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