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The subject of interest is:
waterpipe, water-pipe, nargile, narghile, arguileh, arguile, shisha, sheesha, chichi, hubble bubble, hubbly bubbly, goza, hookah, bong
| Title | Pub Year | Author Sort descending | SearchLink |
|---|---|---|---|
| Flying after diving: should recommendations be reviewed? In-flight echocardiographic study in bubble-prone and bubble-resistant divers | 2015 | DAN Europe Research Division, Contrada Padune 11, 64026 Roseto degli, Abruzzi (TE), Italy, Phone: +39(0)85-893-0333, Fax: +39-(0)85-893-0050, E-mail: dcialoni@daneurope.org.; DAN Europe Research Division, Roseto degli Abruzzi, Italy.; DAN Europe Research | Read more... |
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Source Type
Print(0)
Ref Type
Journal Article
Periodical, Full
Diving and hyperbaric medicine
Periodical, Abbrev.
Diving.Hyperb.Med.
Pub Date Free Form
Mar
Volume
45
Issue
1
Start Page
10
Other Pages
15
Notes
JID: 101282742; OTO: NOTNLM; 2014/12/12 [received]; 2015/01/17 [accepted]; ppublish
Place of Publication
Australia
ISSN/ISBN
1833-3516; 1833-3516
Accession Number
PMID: 25964033
Language
eng
SubFile
Journal Article; Research Support, Non-U.S. Gov't; IM
DOI
Output Language
Unknown(0)
PMID
25964033
Abstract
INTRODUCTION: Inert gas accumulated after multiple recreational dives can generate tissue supersaturation and bubble formation when ambient pressure decreases. We hypothesized that this could happen even if divers respected the currently recommended 24-hour pre-flight surface interval (PFSI). METHODS: We performed transthoracic echocardiography (TTE) on a group of 56 healthy scuba divers (39 male, 17 female) as follows: first echo--during the outgoing flight, no recent dives; second echo--before boarding the return flight, after a multiday diving week in the tropics and a 24-hour PFSI; third echo--during the return flight at 30, 60 and 90 minutes after take-off. TTE was also done after every dive during the week's diving. Divers were divided into three groups according to their 'bubble-proneness': non-bubblers, occasional bubblers and consistent bubblers. RESULTS: During the diving, 23 subjects never developed bubbles, 17 only occasionally and 16 subjects produced bubbles every day and after every dive. Bubbles on the return flight were observed in eight of the 56 divers (all from the 'bubblers' group). Two subjects who had the highest bubble scores during the diving were advised not to make the last dive (increasing their PFSI to approximately 36 hours), and did not demonstrate bubbles on the return flight. CONCLUSIONS: Even though a 24-hour PFSI is recommended on the basis of clinical trials showing a low risk of decompression sickness (DCS), the presence of venous gas bubbles in-flight in eight of 56 divers leads us to suspect that in real-life situations DCS risk after such a PFSI is not zero.
Descriptors
Links
Book Title
Database
Publisher
Data Source
Authors
Cialoni,D., Pieri,M., Balestra,C., Marroni,A.
Original/Translated Title
URL
Date of Electronic
PMCID
Editors
|
|||
| Blood platelet count and bubble formation after a dive to 30 msw for 30 min | 2008 | Departement des facteurs humains, Centre de Recherches du Service de Sante des Armees, La Tronche, France. jm.pontier@free.fr | Read more... |
|
Source Type
Print(0)
Ref Type
Journal Article
Periodical, Full
Aviation, Space, and Environmental Medicine
Periodical, Abbrev.
Aviat.Space Environ.Med.
Pub Date Free Form
Dec
Volume
79
Issue
12
Start Page
1096
Other Pages
1099
Notes
JID: 7501714; ppublish
Place of Publication
United States
ISSN/ISBN
0095-6562; 0095-6562
Accession Number
PMID: 19070304
Language
eng
SubFile
Journal Article; IM; S
DOI
Output Language
Unknown(0)
PMID
19070304
Abstract
INTRODUCTION: Previous human studies reported that platelet count (PC) is decreased following decompression. Platelet aggregation and adherence to the bubble surface has been demonstrated in severe decompression sickness (DCS). The present study was designed to clarify the relationship between post-dive changes in blood PC and the level of bubble formation in divers. METHODS: There were 40 healthy experienced divers who were assigned to 1 experimental group (N = 30) with an open-sea air dive to 30 msw for 30 min in field conditions and 1 control group (N = 10) without hyperbaric exposure. Bubble grades were monitored with a pulsed Doppler according to the Spencer scale and Kissman integrated severity score (KISS). Blood samples for red blood cell counts (RBC), hematocrit (Hct), and PC were taken 1 h before and after exposure in two groups. RESULTS: None of the divers developed any signs of DCS. In two groups, the results showed significant increase in RBC count and Hct related with hemoconcentration and no change in PC. Divers with a high KISS score (39 +/- 5.8; mean +/- SD) presented a significantly more pronounced percent fall in PC than divers with a lower KISS score. We found a significant correlation between the percent fall in PC after a dive and the bubble KISS score. DISCUSSION: The present study highlighted a relationship between the post-dive decrease in PC and the magnitude of bubble level after decompression. Our primary result is that the post-dive decrease in PC could be a predictor of decompression severity after diving.
Descriptors
Adult, Decompression/adverse effects, Decompression Sickness/blood/etiology, Diving/adverse effects, Embolism, Air/blood/etiology, Health Status Indicators, Humans, Male, Platelet Aggregation, Platelet Count, Pressure, Prospective Studies, Time Factors
Links
Book Title
Database
Publisher
Data Source
Authors
Pontier,J. M., Jimenez,C., Blatteau,J. E.
Original/Translated Title
URL
Date of Electronic
PMCID
Editors
|
|||
| Effect of in-water oxygen prebreathing at different depths on decompression-induced bubble formation and platelet activation | 2010 | Department of Basic and Applied Medical Sciences, Ud'A Chieti-Pescara, Italy. | Read more... |
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Source Type
Print(0)
Ref Type
Journal Article
Periodical, Full
Journal of applied physiology (Bethesda, Md.: 1985)
Periodical, Abbrev.
J.Appl.Physiol.(1985)
Pub Date Free Form
May
Volume
108
Issue
5
Start Page
1077
Other Pages
1083
Notes
LR: 20131121; JID: 8502536; 0 (ITGB3 protein, human); 0 (Integrin beta3); 0 (P-Selectin); 0 (Platelet Membrane Glycoprotein IIb); S88TT14065 (Oxygen); 2010/02/25 [aheadofprint]; ppublish
Place of Publication
United States
ISSN/ISBN
1522-1601; 0161-7567
Accession Number
PMID: 20185629
Language
eng
SubFile
Journal Article; Research Support, Non-U.S. Gov't; IM
DOI
10.1152/japplphysiol.01058.2009 [doi]
Output Language
Unknown(0)
PMID
20185629
Abstract
Effect of in-water oxygen prebreathing at different depths on decompression-induced bubble formation and platelet activation in scuba divers was evaluated. Six volunteers participated in four diving protocols, with 2 wk of recovery between dives. On dive 1, before diving, all divers breathed normally for 20 min at the surface of the sea (Air). On dive 2, before diving, all divers breathed 100% oxygen for 20 min at the surface of the sea [normobaric oxygenation (NBO)]. On dive 3, before diving, all divers breathed 100% O2 for 20 min at 6 m of seawater [msw; hyperbaric oxygenation (HBO) 1.6 atmospheres absolute (ATA)]. On dive 4, before diving, all divers breathed 100% O2 for 20 min at 12 msw (HBO 2.2 ATA). Then they dove to 30 msw (4 ATA) for 20 min breathing air from scuba. After each dive, blood samples were collected as soon as the divers surfaced. Bubbles were measured at 20 and 50 min after decompression and converted to bubble count estimate (BCE) and numeric bubble grade (NBG). BCE and NBG were significantly lower in NBO than in Air [0.142+/-0.034 vs. 0.191+/-0.066 (P<0.05) and 1.61+/-0.25 vs. 1.89+/-0.31 (P<0.05), respectively] at 20 min, but not at 50 min. HBO at 1.6 ATA and 2.2 ATA has a similar significant effect of reducing BCE and NBG. BCE was 0.067+/-0.026 and 0.040+/-0.018 at 20 min and 0.030+/-0.022 and 0.020+/-0.020 at 50 min. NBG was 1.11+/-0.17 and 0.92+/-0.16 at 20 min and 0.83+/-0.18 and 0.75+/-0.16 at 50 min. Prebreathing NBO and HBO significantly alleviated decompression-induced platelet activation. Activation of CD62p was 3.0+/-0.4, 13.5+/-1.3, 10.7+/-0.9, 4.5+/-0.7, and 7.6+/-0.8% for baseline, Air, NBO, HBO at 1.6 ATA, and HBO at 2.2 ATA, respectively. The data show that prebreathing oxygen, more effective with HBO than NBO, decreases air bubbles and platelet activation and, therefore, may be beneficial in reducing the development of decompression sickness.
Descriptors
Administration, Inhalation, Adult, Decompression/adverse effects, Decompression Sickness/blood/physiopathology/prevention & control/ultrasonography, Diving, Embolism, Air/blood/physiopathology/prevention & control/ultrasonography, Humans, Hyperbaric Oxygenation, Immersion, Inhalation, Integrin beta3/blood, Male, Middle Aged, Oxygen/administration & dosage, P-Selectin/blood, Platelet Activation, Platelet Membrane Glycoprotein IIb/blood, Time Factors, Ultrasonography, Doppler, Young Adult
Links
Book Title
Database
Publisher
Data Source
Authors
Bosco,G., Yang,Z. J., Di Tano,G., Camporesi,E. M., Faralli,F., Savini,F., Landolfi,A., Doria,C., Fano,G.
Original/Translated Title
URL
Date of Electronic
20100225
PMCID
Editors
|
|||
| Exercise and nitric oxide prevent bubble formation: a novel approach to the prevention of decompression sickness? | 2004 | Department of Circulation and Medical Imaging, Norwegian University of Science and Technology, Trondheim, Norway. ulrik.wisloff@medisin.ntnu.no | Read more... |
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Source Type
Print(0)
Ref Type
Journal Article
Periodical, Full
The Journal of physiology
Periodical, Abbrev.
J.Physiol.
Pub Date Free Form
16-Mar
Volume
555
Issue
Pt 3
Start Page
825
Other Pages
829
Notes
LR: 20140610; JID: 0266262; 0 (Nitric Oxide Donors); 16051-77-7 (isosorbide-5-mononitrate); 31C4KY9ESH (Nitric Oxide); IA7306519N (Isosorbide Dinitrate); OID: NLM: PMC1664873; 2004/01/14 [aheadofprint]; ppublish
Place of Publication
England
ISSN/ISBN
0022-3751; 0022-3751
Accession Number
PMID: 14724207
Language
eng
SubFile
Journal Article; Research Support, Non-U.S. Gov't; IM
DOI
10.1113/jphysiol.2003.055467 [doi]
Output Language
Unknown(0)
PMID
14724207
Abstract
Nitrogen dissolves in the blood during dives, but comes out of solution if divers return to normal pressure too rapidly. Nitrogen bubbles cause a range of effects from skin rashes to seizures, coma and death. It is believed that these bubbles form from bubble precursors (gas nuclei). Recently we have shown that a single bout of exercise 20 h, but not 48 h, before a simulated dive prevents bubble formation and protects rats from severe decompression sickness (DCS) and death. Furthermore, we demonstrated that administration of N(omega)-nitro-l-arginine methyl ester, a non-selective inhibitor of NO synthase (NOS), turns a dive from safe to unsafe in sedentary but not exercised rats. Therefore based upon previous data an attractive hypothesis is that it may be possible to use either exercise or NO-releasing agents before a dive to inhibit bubble formation and thus protect against DCS. Consequently, the aims of the present study were to determine whether protection against bubble formation in 'diving' rats was provided by (1) chronic and acute administration of a NO-releasing agent and (2) exercise less than 20 h prior to the dive. NO given for 5 days and then 20 h prior to a dive to 700 kPa lasting 45 min breathing air significantly reduced bubble formation and prevented death. The same effect was seen if NO was given only 30 min before the dive. Exercise 20 h before a dive suppressed bubble formation and prevented death, with no effect at any other time (48, 10, 5 and 0.5 h prior to the dive). Pre-dive activities have not been considered to influence the growth of bubbles and thus the risk of serious DCS. The present novel findings of a protective effect against bubble formation and death by appropriately timed exercise and an NO-releasing agent may form the basis of a new approach to preventing serious decompression sickness.
Descriptors
Animals, Decompression Sickness/prevention & control, Diving, Female, Isosorbide Dinitrate/analogs & derivatives/pharmacology, Motor Activity/physiology, Nitric Oxide/physiology, Nitric Oxide Donors/pharmacology, Rats, Rats, Sprague-Dawley
Links
Book Title
Database
Publisher
Data Source
Authors
Wisloff,U., Richardson,R. S., Brubakk,A. O.
Original/Translated Title
URL
Date of Electronic
20040114
PMCID
PMC1664873
Editors
|
|||
| Arteriovenous bubbles following cold water sport dives: relation to right-to-left shunting | 2000 | Department of Neurology, Justus-Liebig-University, Giessen, Germany. | Read more... |
|
Source Type
Print(0)
Ref Type
Journal Article
Periodical, Full
Neurology
Periodical, Abbrev.
Neurology
Pub Date Free Form
12-Dec
Volume
55
Issue
11
Start Page
1741
Other Pages
1743
Notes
LR: 20081121; JID: 0401060; ppublish
Place of Publication
UNITED STATES
ISSN/ISBN
0028-3878; 0028-3878
Accession Number
PMID: 11113236
Language
eng
SubFile
Journal Article; AIM; IM
DOI
Output Language
Unknown(0)
PMID
11113236
Abstract
Neurologic injury subsequent to decompression from diving may be due to paradoxical arterialization of venous gas emboli. Of 40 divers who performed 53 open water dives after being tested for a patent foramen ovale (PFO), arterial gas emboli were detected in 7 of 13 dives, which resulted in venous bubbles. In five of these seven dives, there was evidence of a PFO by contrast transcranial Doppler sonography, indicating an increased risk of arterializing venous bubbles in divers with a PFO.
Descriptors
Adult, Cold Temperature/adverse effects, Decompression Sickness, Diving, Embolism, Air/physiopathology/ultrasonography, Female, Humans, Male, Middle Aged, Ultrasonography, Doppler
Links
Book Title
Database
Publisher
Data Source
Authors
Gerriets,T., Tetzlaff,K., Liceni,T., Schafer,C., Rosengarten,B., Kopiske,G., Algermissen,C., Struck,N., Kaps,M.
Original/Translated Title
URL
Date of Electronic
PMCID
Editors
|
|||
| Venous bubble count declines during strenuous exercise after an open sea dive to 30 m | 2006 | Department of Physiology, University of Split School of Medicine, Croatia. zdujic@bsb.mefst.hr | Read more... |
|
Source Type
Print(0)
Ref Type
Journal Article
Periodical, Full
Aviation, Space, and Environmental Medicine
Periodical, Abbrev.
Aviat.Space Environ.Med.
Pub Date Free Form
Jun
Volume
77
Issue
6
Start Page
592
Other Pages
596
Notes
LR: 20061115; JID: 7501714; 0 (Gases); ppublish
Place of Publication
United States
ISSN/ISBN
0095-6562; 0095-6562
Accession Number
PMID: 16780236
Language
eng
SubFile
Journal Article; Research Support, Non-U.S. Gov't; IM; S
DOI
Output Language
Unknown(0)
PMID
16780236
Abstract
INTRODUCTION: The effect of post-dive exercise on bubble formation remains controversial, although the current practice of divers and aviators is to avoid strenuous exercise after diving. Previously, we have shown that exercising 24 h before a dive, or during a decompression stop, significantly reduces bubble formation in man. The objective of this study was to determine whether a short period of strenuous post-dive exercise promotes venous bubble formation. METHODS: Seven male military divers performed an open-sea field dive to a maximum depth of 30 m for 30 min. At maximum depth, subjects performed mild underwater fin swimming, followed by standard decompression. Diving was followed by a post-dive exercise session consisting of short, strenuous incremental upright cycle ergometry, up to 85% of maximal oxygen uptake, for about 10 min. Subjects were monitored for venous gas bubbles in the right heart with an echo-imaging system starting 20 min post-dive while in the supine position, during cycle ergometry in the seated upright position, and immediately after exercise in a supine position. RESULTS: The average number of bubbles was 1.5 +/- 1.4 bubbles x cm(-2) 20 min after diving. Changes in posture from supine to seated upright resulted in significant reduction of bubbles to 0.6 +/- 1.3 bubbles x cm(-2) (p = 0.043), with further reduction to 0.2 +/- 0.3 bubbles x cm(-2) at the end of exercise (p = 0.02). No cases of DCS or intra-pulmonary shunt were observed during or following post-dive exercise. DISCUSSION: These results suggest that post-dive strenuous exercise after a single field dive reduces post-dive gas bubble formation in well-trained military divers. Additional findings are needed for normal sports divers.
Descriptors
Adult, Decompression Sickness/prevention & control, Diving/physiology, Exercise/physiology, Gases/blood, Humans, Male, Military Medicine, Statistics, Nonparametric, Veins
Links
Book Title
Database
Publisher
Data Source
Authors
Dujic,Z., Obad,A., Palada,I., Ivancev,V., Valic,Z.
Original/Translated Title
URL
Date of Electronic
PMCID
Editors
|
|||
| Venous and arterial bubbles at rest after no-decompression air dives | 2011 | Department of Physiology, University of Split School of Medicine, Split, Croatia. | Read more... |
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Source Type
Print(0)
Ref Type
Journal Article
Periodical, Full
Medicine and science in sports and exercise
Periodical, Abbrev.
Med.Sci.Sports Exerc.
Pub Date Free Form
Jun
Volume
43
Issue
6
Start Page
990
Other Pages
995
Notes
JID: 8005433; ppublish
Place of Publication
United States
ISSN/ISBN
1530-0315; 0195-9131
Accession Number
PMID: 21085032
Language
eng
SubFile
Journal Article; Research Support, Non-U.S. Gov't; IM; S
DOI
10.1249/MSS.0b013e31820618d3 [doi]
Output Language
Unknown(0)
PMID
21085032
Abstract
PURPOSE: During SCUBA diving, breathing at increased pressure leads to a greater tissue gas uptake. During ascent, tissues may become supersaturated, and the gas is released in the form of bubbles that typically occur on the venous side of circulation. These venous gas emboli (VGE) are usually eliminated as they pass through the lungs, although their occasional presence in systemic circulation (arterialization) has been reported and it was assumed to be the main cause of the decompression sickness. The aims of the present study were to assess the appearance of VGE after air dives where no stops in coming to the surface are required and to assess their potential occurrence and frequency in the systemic circulation. METHODS: Twelve male divers performed six dives with 3 d of rest between them following standard no-decompression dive procedures: 18/60, 18/70, 24/30, 24/40, 33/15, and 33/20 (the first value indicates depth in meters of sea water and the second value indicates bottom time in minutes). VGE monitoring was performed ultrasonographically every 20 min for 120 min after surfacing. RESULTS: Diving profiles used in this study produced unexpectedly high amounts of gas bubbles, with most dives resulting in grade 4 (55/69 dives) on the bubble scale of 0-5 (no to maximal bubbles). Arterializations of gas bubbles were found in 5 (41.7%) of 12 divers and after 11 (16%) of 69 dives. These VGE crossovers were only observed when a large amount of bubbles was concomitantly present in the right valve of the heart. CONCLUSIONS: Our findings indicate high amounts of gas bubbles produced after no-decompression air dives based on standardized diving protocols. High bubble loads were frequently associated with the crossover of VGE to the systemic circulation. Despite these findings, no acute decompression-related pathology was detected.
Descriptors
Links
Book Title
Database
Publisher
Data Source
Authors
Ljubkovic,M., Dujic,Z., Mollerlokken,A., Bakovic,D., Obad,A., Breskovic,T., Brubakk,A.O.
Original/Translated Title
URL
Date of Electronic
PMCID
Editors
|
|||
| Sonographic detection of intrapulmonary shunting of venous gas bubbles during exercise after diving in a professional diver | 2007 | Department of Physiology, University of Split School of Medicine, Split, Croatia. | Read more... |
|
Source Type
Print(0)
Ref Type
Journal Article
Periodical, Full
Journal of clinical ultrasound : JCU
Periodical, Abbrev.
J.Clin.Ultrasound
Pub Date Free Form
Oct
Volume
35
Issue
8
Start Page
473
Other Pages
476
Notes
LR: 20101014; CI: (c) 2007; JID: 0401663; CIN: J Clin Ultrasound. 2010 Nov-Dec;38(9):497; author reply 498. PMID: 20853430; ppublish
Place of Publication
United States
ISSN/ISBN
0091-2751; 0091-2751
Accession Number
PMID: 17676615
Language
eng
SubFile
Case Reports; Journal Article; IM
DOI
10.1002/jcu.20378 [doi]
Output Language
Unknown(0)
PMID
17676615
Abstract
We report a case of right-to-left intrapulmonary (IP) shunting of venous gas bubbles at a high level of exercise after diving. The diagnosis was made using a 4-chamber view of the heart via echocardiography during exercise. This case is the first in which we could find evidence of IP shunt recruitment during exercise after diving, and the bubble grade was the highest ever seen in our laboratory. Venous bubbles crossing over through IP shunts during exercise after diving is a very rare event.
Descriptors
Adult, Decompression Sickness/etiology/ultrasonography, Diving/adverse effects, Echocardiography, Doppler/methods, Embolism, Air/etiology/physiopathology/ultrasonography, Humans, Lung/blood supply, Male, Pulmonary Veins/ultrasonography
Links
Book Title
Database
Publisher
Wiley Periodicals, Inc
Data Source
Authors
Obad,A., Palada,I., Ivancev,V., Valic,Z., Fabijanic,D., Brubakk,A. O., Dujic,Z.
Original/Translated Title
URL
Date of Electronic
PMCID
Editors
|
|||
| Exogenous nitric oxide and bubble formation in divers | 2006 | Departments of Physiology, University of Split School of Medicine, Split, Croatia. zdujic@bsb.mefst.hr | Read more... |
|
Source Type
Print(0)
Ref Type
Journal Article
Periodical, Full
Medicine and science in sports and exercise
Periodical, Abbrev.
Med.Sci.Sports Exerc.
Pub Date Free Form
Aug
Volume
38
Issue
8
Start Page
1432
Other Pages
1435
Notes
LR: 20131121; JID: 8005433; 0 (Gases); 0 (Nitric Oxide Donors); G59M7S0WS3 (Nitroglycerin); ppublish
Place of Publication
United States
ISSN/ISBN
0195-9131; 0195-9131
Accession Number
PMID: 16888456
Language
eng
SubFile
Journal Article; Research Support, Non-U.S. Gov't; IM; S
DOI
10.1249/01.mss.0000228936.78916.23 [doi]
Output Language
Unknown(0)
PMID
16888456
Abstract
PURPOSE: Prevention of bubble formation is a central goal in standard decompression procedures. Previously we have shown that exercise 20-24 h prior to a dive reduces bubble formation and increases survival in rats exposed to a simulated dive. Furthermore, we have demonstrated that nitric oxide (NO) may be involved in this protection; blocking the production of NO increases bubble formation while giving rats a long-lasting NO donor 20 h and immediately prior to a dive reduces bubble formation. This study determined whether a short-lasting NO donor, nitroglycerine, reduced bubble formation after standard dives and decompression in man. METHODS: A total of 16 experienced divers were randomly assigned into two groups. One group performed two dives to 30 m of seawater (msw) for 30 min breathing air, and performed exercise at an intensity corresponding to 30% of maximal oxygen uptake during the bottom time. The second group performed two simulated dives to 18 msw for 80 min breathing air in a hyperbaric chamber, and remained sedentary during the bottom period. The first dive for each diver served as the control dive, whereas the divers received 0.4 mg of nitroglycerine by oral spray 30 min before the second dive. Following the dive, gas bubbles in the pulmonary artery were recorded using ultrasound. RESULTS: The open-water dive resulted in significantly more gas bubbles than the dry dive (0.87 +/- 1.3 vs 0.12 +/- 0.23 bubbles per square centimeter). Nitroglycerine reduced bubble formation significantly in both dives from 0.87 +/- 1.3 to 0.32 +/- 0.7 in the in-water dive and from 0.12 +/- 0.23 to 0.03 +/- 0.03 bubbles per square centimeter in the chamber dive. CONCLUSION: The present study demonstrates that intake of a short-lasting NO donor reduces bubble formation following decompression after different dives.
Descriptors
Adult, Decompression Sickness/physiopathology/prevention & control/ultrasonography, Diving/physiology, Gases/blood, Heart Rate/physiology, Humans, Hyperbaric Oxygenation, Male, Nitric Oxide Donors/administration & dosage, Nitroglycerin/administration & dosage, Oxygen Consumption/physiology, Pulmonary Artery/ultrasonography
Links
Book Title
Database
Publisher
Data Source
Authors
Dujic,Z., Palada,I., Valic,Z., Duplancic,D., Obad,A., Wisloff,U., Brubakk,A. O.
Original/Translated Title
URL
Date of Electronic
PMCID
Editors
|
|||
| Inner-ear decompression sickness: 'hubble-bubble' without brain trouble? | 2015 | Deptartment of Neurology, San Gerardo Hospital and University of Milano-Bicocca, Italy, E-mail: lucio.tremolizzo@unimib.it.; Emergency Medical Service, Ventotene Island, Italy.; Deptartment of Neurology, San Gerardo Hospital and University of Milano-Bicoc | Read more... |
|
Source Type
Print(0)
Ref Type
Journal Article
Periodical, Full
Diving and hyperbaric medicine
Periodical, Abbrev.
Diving.Hyperb.Med.
Pub Date Free Form
Jun
Volume
45
Issue
2
Start Page
135
Other Pages
136
Notes
JID: 101282742; OTO: NOTNLM; ppublish
Place of Publication
Australia
ISSN/ISBN
1833-3516; 1833-3516
Accession Number
PMID: 26165540
Language
eng
SubFile
Case Reports; Letter; IM
DOI
Output Language
Unknown(0)
PMID
26165540
Abstract
Inner-ear decompression sickness (DCS) is an incompletely understood and increasingly recognized condition in compressed-air divers. Previous reports show a high association of inner-ear DCS with persistent foramen ovale (PFO), suggesting that a moderate-to-severe right-to-left shunt might represent a major predisposing factor, and more properly de fi ning it as an event from arterial gas embolism (AGE). However, other conditions characterized by bubbles entering the arterial circulation, such as open-chamber cardiac surgery, do not produce inner-ear involvement, while sometimes damaging the brain extensively. Moreover, in other sites, such as the spinal cord, the prevailing mechanism for DCS is not AGE, but more likely local bubble formation with subsequent compression of venules and capillaries. Thus, AGE might be, more properly, a predisposing condition, neither suf fi cient, nor possibly even strictly necessary for inner-ear DCS. A 'two-hit hypothesis' has been proposed, implying a locally selective vulnerability of the inner ear to AGE. Modelled kinetics for gas removal are slower in the inner ear compared to the brain, leading to a supersaturated environment which allows bubbles to grow until they eventually obstruct the labyrinthine artery. Since this artery is relatively small, there is a low probability for a bubble to enter it; this might explain the disproportion between the high prevalence of PFO in the general population (25-30%) and the very low incidence of inner-ear DCS in compressed-air diving (approximately 0.005%). Furthermore, given that the labyrinthine artery usually originates either from the anterior inferior cerebellar artery, or directly from the basilar artery, shunting bubbles will more frequently swarm through the entire brain. In this case, however, the brain's much faster gas removal kinetics might allow for them to be reabsorbed without damaging brain tissue. In line with this scenario is the low probability (approx. 15%) of inner-ear DCS presenting with concomitant symptoms suggestive of brain involvement. Interestingly, PFO is a putative risk factor not only for DCS but also for ischaemic stroke, and it has been hypothesized that a predominantly silent ischaemic cerebral burden might represent a meaningful surrogate of end-organ damage in divers with PFO, with implications for stroke or cognitive decline. Here we report the case of a 44-year-old diving instructor (> 350 dives) who suffered from inner-ear DCS about 10 min after a routine dive (5 min/40 metres' fresh water (mfw), ascent 7.5 mfw.min(-)(1), stop 10 min/5 mfw), resulting in severe left cochlear/vestibular impairment (complete deafness and marked vertigo, only the latter slowly receding after a few hours). The patient was not recompressed. A few months later, transcranial Doppler ultrasonography demonstrated a moderate-to-severe shunt (> 30 bubbles), presumably due to a PFO (he refused confirmatory echocardiography), while a brain MRI (1.5 T) was reported as negative for both recent and remote lacunar infarcts (Figure 1). We believe this may be evidence that inner-ear DCS could occur while the brain is completely spared, not only clinically, but also at neuroimaging. This would support either of two hypotheses: (a) that the brain is indeed relatively protected from arterial bubbles that preferentially harm the inner ear where, however, they only rarely in fi ltrate, or (b) that direct bubble formation within the inner ear cannot be completely discarded, and that the elevated PFO-inner-ear DCS association might be, in this latter case, merely circumstantial. We favour the hypothesis that inner-ear DCS might be related to AGE in an anatomically vulnerable region. More precise data regarding the exact incidence of inner-ear involvement, isolating those subjects with moderate-to-severe shunt, should be obtained before exploring the risk-to-bene fi t ratio given by transcatheter occlusion of a PFO for prevention of inner-ear DCS; odds th
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Tremolizzo,L., Malpieri,M., Ferrarese,C., Appollonio,I.
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