Pulmonary Edema in Healthy Subjects in Extreme Conditions

Pulmonary Edema in Healthy Subjects in Extreme Conditions

There are several pieces of evidence showing occurrence of pulmonary edema (PE) in healthy subjects in extreme conditions consisting of extreme psychophysical demand in normal environment and psychophysical performances in extreme environment. A combination of different mechanisms, such as mechanica...

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Main Authors: Erika Garbella, Giosuè Catapano, Lorenza Pratali, Alessandro Pingitore
Format: Article
Language:English
Published: Hindawi Limited 2011-01-01
Series:Pulmonary Medicine
Online Access:http://dx.doi.org/10.1155/2011/275857
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spelling doaj-f8e908bc6b1e414281e4f1f2284002832020-11-24T23:15:16ZengHindawi LimitedPulmonary Medicine2090-18362090-18442011-01-01201110.1155/2011/275857275857Pulmonary Edema in Healthy Subjects in Extreme ConditionsErika Garbella0Giosuè Catapano1Lorenza Pratali2Alessandro Pingitore3Clinical Physiology Institute, CNR, Via Moruzzi 1, 56124 Pisa, ItalyClinical Physiology Institute, CNR, Via Moruzzi 1, 56124 Pisa, ItalyExtreme Center, Scuola Superiore S. Anna, Piazza Martiri della Libertà 33, 56127 Pisa, ItalyFondazione G. Monasterio, CNR, Regione Toscana, Via Moruzzi 1, 56124 Pisa, ItalyThere are several pieces of evidence showing occurrence of pulmonary edema (PE) in healthy subjects in extreme conditions consisting of extreme psychophysical demand in normal environment and psychophysical performances in extreme environment. A combination of different mechanisms, such as mechanical, hemodynamic, biochemical, and hypoxemic ones, may underlie PE leading to an increase in lung vascular hydrostatic pressure and lung vascular permeability and/or a downregulation of the alveolar fluid reabsorption pathways. PE can be functionally detected by closing volume measurement and lung diffusing capacity test to different gases or directly visualized by multiple imaging techniques. Among them chest ultrasonography can detect and quantify the extravascular lung water, creating “comet-tail” ultrasound artefacts (ULCs) from water-thickened pulmonary interlobular septa. In this paper the physiopathological mechanisms of PE, the functional and imaging techniques applied to detect and quantify the phenomenon, and three models of extreme conditions, that is, ironman athletes, climbers and breath-hold divers, are described.http://dx.doi.org/10.1155/2011/275857
collection DOAJ
language English
format Article
sources DOAJ
author Erika Garbella
Giosuè Catapano
Lorenza Pratali
Alessandro Pingitore
spellingShingle Erika Garbella
Giosuè Catapano
Lorenza Pratali
Alessandro Pingitore
Pulmonary Edema in Healthy Subjects in Extreme Conditions
Pulmonary Medicine
author_facet Erika Garbella
Giosuè Catapano
Lorenza Pratali
Alessandro Pingitore
author_sort Erika Garbella
title Pulmonary Edema in Healthy Subjects in Extreme Conditions
title_short Pulmonary Edema in Healthy Subjects in Extreme Conditions
title_full Pulmonary Edema in Healthy Subjects in Extreme Conditions
title_fullStr Pulmonary Edema in Healthy Subjects in Extreme Conditions
title_full_unstemmed Pulmonary Edema in Healthy Subjects in Extreme Conditions
title_sort pulmonary edema in healthy subjects in extreme conditions
publisher Hindawi Limited
series Pulmonary Medicine
issn 2090-1836
2090-1844
publishDate 2011-01-01
description There are several pieces of evidence showing occurrence of pulmonary edema (PE) in healthy subjects in extreme conditions consisting of extreme psychophysical demand in normal environment and psychophysical performances in extreme environment. A combination of different mechanisms, such as mechanical, hemodynamic, biochemical, and hypoxemic ones, may underlie PE leading to an increase in lung vascular hydrostatic pressure and lung vascular permeability and/or a downregulation of the alveolar fluid reabsorption pathways. PE can be functionally detected by closing volume measurement and lung diffusing capacity test to different gases or directly visualized by multiple imaging techniques. Among them chest ultrasonography can detect and quantify the extravascular lung water, creating “comet-tail” ultrasound artefacts (ULCs) from water-thickened pulmonary interlobular septa. In this paper the physiopathological mechanisms of PE, the functional and imaging techniques applied to detect and quantify the phenomenon, and three models of extreme conditions, that is, ironman athletes, climbers and breath-hold divers, are described.
url http://dx.doi.org/10.1155/2011/275857
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AT giosuecatapano pulmonaryedemainhealthysubjectsinextremeconditions
AT lorenzapratali pulmonaryedemainhealthysubjectsinextremeconditions
AT alessandropingitore pulmonaryedemainhealthysubjectsinextremeconditions
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