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4 - Cytokine -Induced Mechanisms of Acute Lung Injury Leading to ARDS
- Edited by James A. Russell, St. Paul's Hospital, Vancouver, Keith R. Walley, St. Paul's Hospital, Vancouver
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- Book:
- Acute Respiratory Distress Syndrome
- Published online:
- 05 October 2010
- Print publication:
- 28 May 1999, pp 63-79
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- Chapter
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Summary
Introduction
As reported in Chapter 2, despite a number of important advances in mechanical ventilatory support, intensive care unit technology, and critical care training, the mortality due to complications of acute respiratory distress syndrome (ARDS) and/or multiorgan failure has not significantly changed during the past 20 years. The failure to fully advance new therapeutic schemes to treat patients with sepsis and ARDS likely reflects our limited knowledge regarding the basic mechanisms underlying these diseases. Thus, the ability to further diminish morbidity and increase survival requires an in-depth understanding of the important mediators involved in the evolution of these syndromes. This information could in turn provide clues as to what exogenous (microorganisms and their products) and endogenous (hostderived) factors should be targeted for modification or elimination during the various phases of sepsis leading to ARDS.
The pathogenesis of ARDS and multiorgan failure-complicating sepsis remains to be fully elucidated. However, polymicrobial agents, products derived from these microorganisms, and the subsequent host response to these factors are key determinants for the initiation and later perpetuation of organ injury. In fact, the host's own response to the initial challenge may be a more critical determinant to the outcome of sepsis and ARDS than the original inciting agent. This concept is supported by the findings that many of the multiple effects of bacterial-derived products, such as endotoxin and muramyl dipeptide, are largely indirect. These compounds exert their biologic effects in vivo by initiating a variety of mediator’ generating cascades, including coagulation and complement, vasoactive compounds, reactive oxygen and nitric oxide, arachidonic acid metabolites, and cytokines.