Instrumented Indentation of Lung Reveals Significant Short Term Alteration in Mechanical Behavior with 100% Oxygen

Instrumented Indentation of Lung Reveals Significant Short Term Alteration in Mechanical Behavior with 100% Oxygen

In critical care, trauma, or other situations involving reduced lung function, oxygen is given to avoid hypoxia. It is known that under certain conditions and long time (several hours) exposure, oxygen is toxic to the lungs, the possible mechanisms being direct cellular damage or surfactant dysfunct...

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Main Authors: Maricris R. Silva, Hsuan-Tso Shen, Ali Marzban, Andrew Gouldstone
Format: Article
Language:English
Published: Hindawi Limited 2010-01-01
Series:Journal of Healthcare Engineering
Online Access:http://dx.doi.org/10.1260/2040-2295.1.3.415
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spelling doaj-1fb263e20fc94ed4a6145177d99542482020-11-24T23:47:22ZengHindawi LimitedJournal of Healthcare Engineering2040-22952010-01-011341543410.1260/2040-2295.1.3.415Instrumented Indentation of Lung Reveals Significant Short Term Alteration in Mechanical Behavior with 100% OxygenMaricris R. Silva0Hsuan-Tso Shen1Ali Marzban2Andrew Gouldstone3Department of Mechanical and Industrial Engineering, Northeastern University, USADepartment of Mechanical and Industrial Engineering, Northeastern University, USADepartment of Mechanical and Industrial Engineering, Northeastern University, USADepartment of Mechanical and Industrial Engineering, Northeastern University, USAIn critical care, trauma, or other situations involving reduced lung function, oxygen is given to avoid hypoxia. It is known that under certain conditions and long time (several hours) exposure, oxygen is toxic to the lungs, the possible mechanisms being direct cellular damage or surfactant dysfunction. Our key objective was to investigate possible changes in lung function when exposed to 100% oxygen in the short term (several tidal volumes). We performed mechanical tests on lobar surfaces of excised mammalian lungs inflated with air or 100% oxygen, examining (i) stiffness, (ii) non-linear mechanical response and (iii) induced alveolar deformation. Our results showed that within five tidal volumes of breathing 100% oxygen, lung mechanics are significantly altered. In addition, after five tidal volumes of laboratory air, lung mechanical behavior begins to return to pre-oxygen levels, indicating some reversibility. These significant and short-term mechanical effects of oxygen could be linked to oxygen toxicity.http://dx.doi.org/10.1260/2040-2295.1.3.415
collection DOAJ
language English
format Article
sources DOAJ
author Maricris R. Silva
Hsuan-Tso Shen
Ali Marzban
Andrew Gouldstone
spellingShingle Maricris R. Silva
Hsuan-Tso Shen
Ali Marzban
Andrew Gouldstone
Instrumented Indentation of Lung Reveals Significant Short Term Alteration in Mechanical Behavior with 100% Oxygen
Journal of Healthcare Engineering
author_facet Maricris R. Silva
Hsuan-Tso Shen
Ali Marzban
Andrew Gouldstone
author_sort Maricris R. Silva
title Instrumented Indentation of Lung Reveals Significant Short Term Alteration in Mechanical Behavior with 100% Oxygen
title_short Instrumented Indentation of Lung Reveals Significant Short Term Alteration in Mechanical Behavior with 100% Oxygen
title_full Instrumented Indentation of Lung Reveals Significant Short Term Alteration in Mechanical Behavior with 100% Oxygen
title_fullStr Instrumented Indentation of Lung Reveals Significant Short Term Alteration in Mechanical Behavior with 100% Oxygen
title_full_unstemmed Instrumented Indentation of Lung Reveals Significant Short Term Alteration in Mechanical Behavior with 100% Oxygen
title_sort instrumented indentation of lung reveals significant short term alteration in mechanical behavior with 100% oxygen
publisher Hindawi Limited
series Journal of Healthcare Engineering
issn 2040-2295
publishDate 2010-01-01
description In critical care, trauma, or other situations involving reduced lung function, oxygen is given to avoid hypoxia. It is known that under certain conditions and long time (several hours) exposure, oxygen is toxic to the lungs, the possible mechanisms being direct cellular damage or surfactant dysfunction. Our key objective was to investigate possible changes in lung function when exposed to 100% oxygen in the short term (several tidal volumes). We performed mechanical tests on lobar surfaces of excised mammalian lungs inflated with air or 100% oxygen, examining (i) stiffness, (ii) non-linear mechanical response and (iii) induced alveolar deformation. Our results showed that within five tidal volumes of breathing 100% oxygen, lung mechanics are significantly altered. In addition, after five tidal volumes of laboratory air, lung mechanical behavior begins to return to pre-oxygen levels, indicating some reversibility. These significant and short-term mechanical effects of oxygen could be linked to oxygen toxicity.
url http://dx.doi.org/10.1260/2040-2295.1.3.415
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AT hsuantsoshen instrumentedindentationoflungrevealssignificantshorttermalterationinmechanicalbehaviorwith100oxygen
AT alimarzban instrumentedindentationoflungrevealssignificantshorttermalterationinmechanicalbehaviorwith100oxygen
AT andrewgouldstone instrumentedindentationoflungrevealssignificantshorttermalterationinmechanicalbehaviorwith100oxygen
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