The Key Roles of Negative Pressure Breathing and Exercise in the Development of Interstitial Pulmonary Edema in Professional Male SCUBA Divers

The Key Roles of Negative Pressure Breathing and Exercise in the Development of Interstitial Pulmonary Edema in Professional Male SCUBA Divers

Abstract Background Immersion pulmonary edema is potentially a catastrophic condition; however, the pathophysiological mechanisms are ill-defined. This study assessed the individual and combined effects of exertion and negative pressure breathing on the cardiovascular system during the development o...

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Main Authors: Olivier Castagna, Jacques Regnard, Emmanuel Gempp, Pierre Louge, François Xavier Brocq, Bruno Schmid, Anne-Virginie Desruelle, Valentin Crunel, Adrien Maurin, Romain Chopard, David Hunter MacIver
Format: Article
Language:English
Published: SpringerOpen 2018-01-01
Series:Sports Medicine - Open
Subjects:
Atrial natriuretic peptide
Echocardiography
Exercise
Hydrostatic transrespiratory pressure
Immersion pulmonary edema
Inspiratory breathing effort
Online Access:http://link.springer.com/article/10.1186/s40798-017-0116-x
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spelling doaj-0cb240855d7b48519f57a2cda761e4182020-11-24T21:55:13ZengSpringerOpenSports Medicine - Open2199-11702198-97612018-01-014111210.1186/s40798-017-0116-xThe Key Roles of Negative Pressure Breathing and Exercise in the Development of Interstitial Pulmonary Edema in Professional Male SCUBA DiversOlivier Castagna0Jacques Regnard1Emmanuel Gempp2Pierre Louge3François Xavier Brocq4Bruno Schmid5Anne-Virginie Desruelle6Valentin Crunel7Adrien Maurin8Romain Chopard9David Hunter MacIver10Underwater Research Team (ERRSO) from the Military Biomedical Research Institute (IRBA)EA3920, University Bourgogne Franche-Comté and University HospitalsFrench Navy Diving SchoolDepartment of Hyperbaric Medicine, HIA St Anne Military HospitalDepartment of Cardiology, HIA St Anne Military HospitalUnderwater Research Team (ERRSO) from the Military Biomedical Research Institute (IRBA)Underwater Research Team (ERRSO) from the Military Biomedical Research Institute (IRBA)Underwater Research Team (ERRSO) from the Military Biomedical Research Institute (IRBA)Underwater Research Team (ERRSO) from the Military Biomedical Research Institute (IRBA)Department of Cardiology EA3920, Franche Comté University and University HospitalBiological Physics Group, University of ManchesterAbstract Background Immersion pulmonary edema is potentially a catastrophic condition; however, the pathophysiological mechanisms are ill-defined. This study assessed the individual and combined effects of exertion and negative pressure breathing on the cardiovascular system during the development of pulmonary edema in SCUBA divers. Methods Sixteen male professional SCUBA divers performed four SCUBA dives in a freshwater pool at 1 m depth while breathing air at either a positive or negative pressure both at rest or with exercise. Echocardiography and lung ultrasound were used to assess the cardiovascular changes and lung comet score (a measure of interstitial pulmonary edema). Results The ultrasound lung comet score was 0 following both the dives at rest regardless of breathing pressure. Following exercise, the mean comet score rose to 4.2 with positive pressure breathing and increased to 15.1 with negative pressure breathing. The development of interstitial pulmonary edema was significantly related to inferior vena cava diameter, right atrial area, tricuspid annular plane systolic excursion, right ventricular fractional area change, and pulmonary artery pressure. Exercise combined with negative pressure breathing induced the greatest changes in these cardiovascular indices and lung comet score. Conclusions A diver using negative pressure breathing while exercising is at greatest risk of developing interstitial pulmonary edema. The development of immersion pulmonary edema is closely related to hemodynamic changes in the right but not the left ventricle. Our findings have important implications for divers and understanding the mechanisms of pulmonary edema in other clinical settings.http://link.springer.com/article/10.1186/s40798-017-0116-xAtrial natriuretic peptideEchocardiographyExerciseHydrostatic transrespiratory pressureImmersion pulmonary edemaInspiratory breathing effort
collection DOAJ
language English
format Article
sources DOAJ
author Olivier Castagna
Jacques Regnard
Emmanuel Gempp
Pierre Louge
François Xavier Brocq
Bruno Schmid
Anne-Virginie Desruelle
Valentin Crunel
Adrien Maurin
Romain Chopard
David Hunter MacIver
spellingShingle Olivier Castagna
Jacques Regnard
Emmanuel Gempp
Pierre Louge
François Xavier Brocq
Bruno Schmid
Anne-Virginie Desruelle
Valentin Crunel
Adrien Maurin
Romain Chopard
David Hunter MacIver
The Key Roles of Negative Pressure Breathing and Exercise in the Development of Interstitial Pulmonary Edema in Professional Male SCUBA Divers
Sports Medicine - Open
Atrial natriuretic peptide
Echocardiography
Exercise
Hydrostatic transrespiratory pressure
Immersion pulmonary edema
Inspiratory breathing effort
author_facet Olivier Castagna
Jacques Regnard
Emmanuel Gempp
Pierre Louge
François Xavier Brocq
Bruno Schmid
Anne-Virginie Desruelle
Valentin Crunel
Adrien Maurin
Romain Chopard
David Hunter MacIver
author_sort Olivier Castagna
title The Key Roles of Negative Pressure Breathing and Exercise in the Development of Interstitial Pulmonary Edema in Professional Male SCUBA Divers
title_short The Key Roles of Negative Pressure Breathing and Exercise in the Development of Interstitial Pulmonary Edema in Professional Male SCUBA Divers
title_full The Key Roles of Negative Pressure Breathing and Exercise in the Development of Interstitial Pulmonary Edema in Professional Male SCUBA Divers
title_fullStr The Key Roles of Negative Pressure Breathing and Exercise in the Development of Interstitial Pulmonary Edema in Professional Male SCUBA Divers
title_full_unstemmed The Key Roles of Negative Pressure Breathing and Exercise in the Development of Interstitial Pulmonary Edema in Professional Male SCUBA Divers
title_sort key roles of negative pressure breathing and exercise in the development of interstitial pulmonary edema in professional male scuba divers
publisher SpringerOpen
series Sports Medicine - Open
issn 2199-1170
2198-9761
publishDate 2018-01-01
description Abstract Background Immersion pulmonary edema is potentially a catastrophic condition; however, the pathophysiological mechanisms are ill-defined. This study assessed the individual and combined effects of exertion and negative pressure breathing on the cardiovascular system during the development of pulmonary edema in SCUBA divers. Methods Sixteen male professional SCUBA divers performed four SCUBA dives in a freshwater pool at 1 m depth while breathing air at either a positive or negative pressure both at rest or with exercise. Echocardiography and lung ultrasound were used to assess the cardiovascular changes and lung comet score (a measure of interstitial pulmonary edema). Results The ultrasound lung comet score was 0 following both the dives at rest regardless of breathing pressure. Following exercise, the mean comet score rose to 4.2 with positive pressure breathing and increased to 15.1 with negative pressure breathing. The development of interstitial pulmonary edema was significantly related to inferior vena cava diameter, right atrial area, tricuspid annular plane systolic excursion, right ventricular fractional area change, and pulmonary artery pressure. Exercise combined with negative pressure breathing induced the greatest changes in these cardiovascular indices and lung comet score. Conclusions A diver using negative pressure breathing while exercising is at greatest risk of developing interstitial pulmonary edema. The development of immersion pulmonary edema is closely related to hemodynamic changes in the right but not the left ventricle. Our findings have important implications for divers and understanding the mechanisms of pulmonary edema in other clinical settings.
topic Atrial natriuretic peptide
Echocardiography
Exercise
Hydrostatic transrespiratory pressure
Immersion pulmonary edema
Inspiratory breathing effort
url http://link.springer.com/article/10.1186/s40798-017-0116-x
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