Variability in circulating gas emboli after a same scuba diving exposure

V. Papadopoulou; P. Germonpré; D. Cosgrove; R. J. Eckersley; P. A. Dayton; G. Obeid; A. Boutros; M. X. Tang; S. Theunissen; C. Balestra

doi:10.1007/s00421-018-3854-7

Variability in circulating gas emboli after a same scuba diving exposure

V. Papadopoulou^*, P. Germonpré, D. Cosgrove, R. J. Eckersley, P. A. Dayton, G. Obeid, A. Boutros, M. X. Tang, S. Theunissen, C. Balestra

^*Corresponding author for this work

Biomedical Engineering Department

Research output: Contribution to journal › Article › peer-review

38 Citations (Scopus)

Abstract

Purpose

A reduction in ambient pressure or decompression from scuba diving can result in ultrasound-detectable venous gas emboli (VGE). These environmental exposures carry a risk of decompression sickness (DCS) which is mitigated by adherence to decompression schedules; however, bubbles are routinely observed for dives well within these limits and significant inter-personal variability in DCS risk exists. Here, we assess the variability and evolution of VGE for 2 h post-dive using echocardiography, following a standardized pool dive in calm warm conditions.

Methods

14 divers performed either one or two (with a 24 h interval) standardized scuba dives to 33 mfw (400 kPa) for 20 min of immersion time at NEMO 33 in Brussels, Belgium. Measurements were performed at 21, 56, 91 and 126 min post-dive: bubbles were counted for all 68 echocardiography recordings and the average over ten consecutive cardiac cycles taken as the bubble score.

Results

Significant inter-personal variability was demonstrated despite all divers following the same protocol in controlled pool conditions: in the detection or not of VGE, in the peak VGE score, as well as time to VGE peak. In addition, intra-personal differences in 2/3 of the consecutive day dives were seen (lower VGE counts or faster clearance).

Conclusions

Since VGE evolution post-dive varies between people, more work is clearly needed to isolate contributing factors. In this respect, going toward a more continuous evaluation, or developing new means to detect decompression stress markers, may offer the ability to better assess dynamic correlations to other physiological parameters.

Original language	English
Number of pages	10
Journal	European Journal of Applied Physiology
Early online date	3 Apr 2018
DOIs	https://doi.org/10.1007/s00421-018-3854-7
Publication status	E-pub ahead of print - 3 Apr 2018

Keywords

Decompression sickness
Echocardiography
Microbubble
Ultrasound
Venous gas emboli

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

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10.1007/s00421-018-3854-7

Cite this

@article{04f450de777b49a997c38ea6827b5a10,

title = "Variability in circulating gas emboli after a same scuba diving exposure",

abstract = "PurposeA reduction in ambient pressure or decompression from scuba diving can result in ultrasound-detectable venous gas emboli (VGE). These environmental exposures carry a risk of decompression sickness (DCS) which is mitigated by adherence to decompression schedules; however, bubbles are routinely observed for dives well within these limits and significant inter-personal variability in DCS risk exists. Here, we assess the variability and evolution of VGE for 2 h post-dive using echocardiography, following a standardized pool dive in calm warm conditions.Methods14 divers performed either one or two (with a 24 h interval) standardized scuba dives to 33 mfw (400 kPa) for 20 min of immersion time at NEMO 33 in Brussels, Belgium. Measurements were performed at 21, 56, 91 and 126 min post-dive: bubbles were counted for all 68 echocardiography recordings and the average over ten consecutive cardiac cycles taken as the bubble score.ResultsSignificant inter-personal variability was demonstrated despite all divers following the same protocol in controlled pool conditions: in the detection or not of VGE, in the peak VGE score, as well as time to VGE peak. In addition, intra-personal differences in 2/3 of the consecutive day dives were seen (lower VGE counts or faster clearance).ConclusionsSince VGE evolution post-dive varies between people, more work is clearly needed to isolate contributing factors. In this respect, going toward a more continuous evaluation, or developing new means to detect decompression stress markers, may offer the ability to better assess dynamic correlations to other physiological parameters.",

keywords = "Decompression sickness, Echocardiography, Microbubble, Ultrasound, Venous gas emboli",

author = "V. Papadopoulou and P. Germonpr{\'e} and D. Cosgrove and Eckersley, {R. J.} and Dayton, {P. A.} and G. Obeid and A. Boutros and Tang, {M. X.} and S. Theunissen and C. Balestra",

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doi = "10.1007/s00421-018-3854-7",

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T1 - Variability in circulating gas emboli after a same scuba diving exposure

AU - Papadopoulou, V.

AU - Germonpré, P.

AU - Cosgrove, D.

AU - Eckersley, R. J.

AU - Dayton, P. A.

AU - Obeid, G.

AU - Boutros, A.

AU - Tang, M. X.

AU - Theunissen, S.

AU - Balestra, C.

PY - 2018/4/3

Y1 - 2018/4/3

N2 - PurposeA reduction in ambient pressure or decompression from scuba diving can result in ultrasound-detectable venous gas emboli (VGE). These environmental exposures carry a risk of decompression sickness (DCS) which is mitigated by adherence to decompression schedules; however, bubbles are routinely observed for dives well within these limits and significant inter-personal variability in DCS risk exists. Here, we assess the variability and evolution of VGE for 2 h post-dive using echocardiography, following a standardized pool dive in calm warm conditions.Methods14 divers performed either one or two (with a 24 h interval) standardized scuba dives to 33 mfw (400 kPa) for 20 min of immersion time at NEMO 33 in Brussels, Belgium. Measurements were performed at 21, 56, 91 and 126 min post-dive: bubbles were counted for all 68 echocardiography recordings and the average over ten consecutive cardiac cycles taken as the bubble score.ResultsSignificant inter-personal variability was demonstrated despite all divers following the same protocol in controlled pool conditions: in the detection or not of VGE, in the peak VGE score, as well as time to VGE peak. In addition, intra-personal differences in 2/3 of the consecutive day dives were seen (lower VGE counts or faster clearance).ConclusionsSince VGE evolution post-dive varies between people, more work is clearly needed to isolate contributing factors. In this respect, going toward a more continuous evaluation, or developing new means to detect decompression stress markers, may offer the ability to better assess dynamic correlations to other physiological parameters.

AB - PurposeA reduction in ambient pressure or decompression from scuba diving can result in ultrasound-detectable venous gas emboli (VGE). These environmental exposures carry a risk of decompression sickness (DCS) which is mitigated by adherence to decompression schedules; however, bubbles are routinely observed for dives well within these limits and significant inter-personal variability in DCS risk exists. Here, we assess the variability and evolution of VGE for 2 h post-dive using echocardiography, following a standardized pool dive in calm warm conditions.Methods14 divers performed either one or two (with a 24 h interval) standardized scuba dives to 33 mfw (400 kPa) for 20 min of immersion time at NEMO 33 in Brussels, Belgium. Measurements were performed at 21, 56, 91 and 126 min post-dive: bubbles were counted for all 68 echocardiography recordings and the average over ten consecutive cardiac cycles taken as the bubble score.ResultsSignificant inter-personal variability was demonstrated despite all divers following the same protocol in controlled pool conditions: in the detection or not of VGE, in the peak VGE score, as well as time to VGE peak. In addition, intra-personal differences in 2/3 of the consecutive day dives were seen (lower VGE counts or faster clearance).ConclusionsSince VGE evolution post-dive varies between people, more work is clearly needed to isolate contributing factors. In this respect, going toward a more continuous evaluation, or developing new means to detect decompression stress markers, may offer the ability to better assess dynamic correlations to other physiological parameters.

KW - Decompression sickness

KW - Echocardiography

KW - Microbubble

KW - Ultrasound

KW - Venous gas emboli

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DO - 10.1007/s00421-018-3854-7

M3 - Article

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SN - 1439-6319

JO - European Journal of Applied Physiology

JF - European Journal of Applied Physiology

ER -

Variability in circulating gas emboli after a same scuba diving exposure

Abstract

Keywords

UN SDGs

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