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Investigation of the mechanisms of acute lung injury, using an isolated perfused mouse lung

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Title: Investigation of the mechanisms of acute lung injury, using an isolated perfused mouse lung
Authors: Wakabayashi, Kenji
Item Type: Thesis or dissertation
Abstract: Acute lung injury (ALI) is a severe inflammatory lung disease with high mortality. Previous studies revealed several important concepts in ALI, including cellular interaction between lung-marginated leukocytes and pulmonary endothelium, and decompartmentalisation of soluble mediators. However, there are inherent limitations within both in vivo and in vitro models to identify the detailed mechanism underlying these concepts. In this PhD project, we attempted to address these unanswered questions, using an in situ isolated perfused mouse lung (IPL). Specifically, we aimed to 1) develop, characterise, and optimise the mouse IPL model; 2) investigate soluble and cellular aspects of two models of ALI that are particularly amenable to study using the IPL, namely ventilator-induced lung injury (VILI) and ischaemia-reperfusion injury. From a physiological viewpoint, VILI consists of 2 primary components, high-stretch and atelectasis. Modelling atelectasis-related injury in vivo is difficult due to negative pleural pressure. We took advantage of the zero pleural pressure of open-chest IPL system to develop an atelectasis-related VILI model. Comparison of this ‘atelectrauma’ and a high-stretch ‘volutrauma’ model demonstrated that both cause lung oedema and pulmonary inflammation, but the inflammatory impact was different between them. Volutrauma, but not atelectrauma, facilitated systemic cytokine release, in which lung-marginated monocytes seem to play an important role. This finding in the VILI model drove us to further investigate the role of these monocytes in an ischaemia-reperfusion model, which is clinically highly relevant and simulates a lung transplantation setting. Our results suggested that lung-marginated monocytes may also contribute to develop ischaemia-reperfusion injury, potentially involving TNF upregulation. Through this PhD project, we have successfully developed a technically very challenging mouse IPL model. We utilised the unique features of the IPL to develop experimental models that we believe will be strong tools to fill the gap between in vivo physiological significance and in vitro mechanistic understanding.
Issue Date: 2012
Date Awarded: Sep-2012
URI: http://hdl.handle.net/10044/1/10143
DOI: https://doi.org/10.25560/10143
Supervisor: Takata, Masao
Wilson, Michael
O'Dea, Kieran
Sponsor/Funder: Wellcome Trust (London, England) ; Honjo International Scholarship Foundation
Department: Surgery and Cancer
Publisher: Imperial College London
Qualification Level: Doctoral
Qualification Name: Doctor of Philosophy (PhD)
Appears in Collections:Department of Surgery and Cancer PhD Theses

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