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WTS Database
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 | SearchLink Sort ascending |
|---|---|---|---|
| An Exploration of Online Behaviors and Social Media Use Among Hookah and Electronic-Cigarette Users | 2015 | New York University School of Medicine, Department of Population Health, Section on Tobacco, Alcohol & Drug Use, 550 First Avenue, VZ30, 7 Floor, New York, NY 10016 USA.; New York University School of Medicine, 550 First Avenue, New York, NY 10016 USA.; N | Read more... |
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Source Type
Print(0)
Ref Type
Journal Article
Periodical, Full
Addictive behaviors reports
Periodical, Abbrev.
Addict.Behav.Rep.
Pub Date Free Form
1-Dec
Volume
2
Issue
Start Page
37
Other Pages
40
Notes
LR: 20151216; GR: K24 DA038345/DA/NIDA NIH HHS/United States; JID: 101656077; NIHMS697830; OTO: NOTNLM; PMCR: 2016/12/01 00:00; ppublish
Place of Publication
ISSN/ISBN
2352-8532
Accession Number
PMID: 26167519
Language
ENG
SubFile
JOURNAL ARTICLE
DOI
10.1016/j.abrep.2015.05.006 [doi]
Output Language
Unknown(0)
PMID
26167519
Abstract
INTRODUCTION: The purpose of this study was to explore the relationship between social norms and attitudes towards ENDS and hookah and use of these products. METHODS: We conducted surveys with hookah and ENDS users who regularly used the Internet and social media and analyzed the primary social media account (e.g. Facebook) of each participant, coding all references to nicotine or tobacco products. The survey included domains on perceived favorability, perceived vulnerability and subjective norms. RESULTS: We surveyed 21 ENDS users and 20 hookah users. Both groups used the Internet to look up information about their respective tobacco product (95% for hookah vs. 90% for ENDS). Seventy percent of hookah users had references to hookah on their social media profiles while 43% of ENDS users had references to ENDS on their page. The majority of both groups were exposed to content posted by friends in their social media network about their respective products online. Those who posted on social media about hookah and those who read about ENDS online had lower perceived vulnerability to the health risks associated with tobacco products. CONCLUSIONS: Hookah and ENDS users actively use the Internet and social media to obtain and share information about nicotine/tobacco products. Study participants who use hookah were more likely to share photos and discuss hookah related activities via social media than those who use ENDS. Social networks also represent valuable and untapped potential resources for communicating with this group about risks and harm reduction related to emerging nicotine/tobacco products.
Descriptors
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Book Title
Database
Publisher
Data Source
Authors
Link,A.R., Cawkwell,P.B., Shelley,D.R., Sherman,S.E.
Original/Translated Title
URL
Date of Electronic
PMCID
PMC4496793
Editors
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| 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... |
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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
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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Publisher
Data Source
Authors
Tremolizzo,L., Malpieri,M., Ferrarese,C., Appollonio,I.
Original/Translated Title
URL
Date of Electronic
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| Cerebral arterial gas embolism in a professional diver with a persistent foramen ovale | 2015 | Lorn Medical Centre Soroba Road, Oban Argyll PA34 4HE, Scotland, E-mail: colinwilson@tiscali.co.uk.; West Scotland Centre for Diving and Hyperbaric Medicine, Scottish Association for Marine Science, Dunbeg, Oban, Argyll, Scotland. | 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
Jun
Volume
45
Issue
2
Start Page
124
Other Pages
126
Notes
JID: 101282742; OTO: NOTNLM; 2015/03/20 [received]; 2015/04/26 [accepted]; ppublish
Place of Publication
Australia
ISSN/ISBN
1833-3516; 1833-3516
Accession Number
PMID: 26165536
Language
eng
SubFile
Case Reports; Journal Article; IM
DOI
Output Language
Unknown(0)
PMID
26165536
Abstract
A 33-year-old, male professional scallop diver diving on the Outer Hebrides in Scotland rapidly developed symptoms of cerebral arterial gas embolism following a provocative dive with possibly a fast ascent. During transfer by helicopter to the mainland for treatment, his symptoms improved on surface oxygen. He was recompressed on a Royal Navy Treatment Table 62 (RN TT62) with complete resolution. Just over six weeks later, again diving on the Outer Hebrides and after adopting more conservative diving practices, he developed symptoms and signs of vestibular decompression sickness after a problem-free dive, with dizziness, poor co-ordination and gait, nausea and vomiting, and rotational vertigo. He was again transported to the mainland for recompression treatment. He received an extended RN TT62 and required fi ve further Comex 12 (223 kPa) hyperbaric oxygen treatments over the following three days before he was symptom free. A 4 mm persistent foramen ovale (PFO) was subsequently diagnosed and he underwent successful closure of the defect with Amplatzer device and returned to commercial diving a year later.
Descriptors
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Database
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Data Source
Authors
Wilson,C.M., Sayer,M.Dj
Original/Translated Title
URL
Date of Electronic
PMCID
Editors
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| Pathophysiology of inner ear decompression sickness: potential role of the persistent foramen ovale | 2015 | Department of Anaesthesia, Auckland City Hospital, Department of Anaesthesiology, University of Auckland Private Bag 92019, Auckland, New Zealand , Phone: +64-(0)9-923-2569, E-mail: sj.mitchell@auckland.ac.nz.; United States Navy Experimental Diving Unit, | 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
Jun
Volume
45
Issue
2
Start Page
105
Other Pages
110
Notes
JID: 101282742; 206GF3GB41 (Helium); N762921K75 (Nitrogen); OTO: NOTNLM; 2015/04/15 [received]; 2015/04/30 [accepted]; ppublish
Place of Publication
Australia
ISSN/ISBN
1833-3516; 1833-3516
Accession Number
PMID: 26165533
Language
eng
SubFile
Journal Article; Review; IM
DOI
Output Language
Unknown(0)
PMID
26165533
Abstract
Inner-ear decompression sickness (inner ear DCS) may occur in isolation ('pure' inner-ear DCS), or as part of a multisystem DCS presentation. Symptoms may develop during decompression from deep, mixed-gas dives or after surfacing from recreational air dives. Modelling of inner-ear inert gas kinetics suggests that onset during decompression results from supersaturation of the inner-ear tissue and in-situ bubble formation. This supersaturation may be augmented by inert gas counterdiffusion following helium to nitrogen gas switches, but such switches are unlikely, of themselves, to precipitate inner-ear DCS. Presentations after surfacing from air dives are frequently the 'pure' form of inner ear DCS with short symptom latency following dives to moderate depth, and the vestibular end organ appears more vulnerable than is the cochlea. A large right-to-left shunt (usually a persistent foramen ovale) is found in a disproportionate number of cases, suggesting that shunted venous gas emboli (VGE) cause injury to the inner-ear. However, this seems an incomplete explanation for the relationship between inner-ear DCS and right-to-left shunt. The brain must concomitantly be exposed to larger numbers of VGE, yet inner-ear DCS frequently occurs in the absence of cerebral symptoms. This may be explained by slower inert gas washout in the inner ear than in the brain. Thus, there is a window after surfacing within which VGE arriving in the inner-ear (but not the brain) would grow due to inward diffusion of supersaturated inert gas. A similar difference in gas kinetics may explain the different susceptibilities of cochlear and vestibular tissue within the inner-ear itself. The cochlea has greater perfusion and a smaller tissue volume, implying faster inert gas washout. It may be susceptible to injury by incoming arterial bubbles for a shorter time after surfacing than the vestibular organ.
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Data Source
Authors
Mitchell,S.J., Doolette,D.J.
Original/Translated Title
URL
Date of Electronic
PMCID
Editors
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| The role of persistent foramen ovale and other shunts in decompression illness | 2015 | Dr Wilmshurst was Guest Speaker at the SPUMS Annual Scienti fi c Meeting, Bali, May 2014, Consultant Cardiologist, Royal Stoke University Hospital, Stoke-on-Trent ST4 6QG, UK, E-mail: peter.wilmshurst@tiscali.co.uk, Phone: +44-(0)1782-675982. | 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
Jun
Volume
45
Issue
2
Start Page
98
Other Pages
104
Notes
JID: 101282742; OTO: NOTNLM; 2015/03/11 [received]; 2015/04/26 [accepted]; ppublish
Place of Publication
Australia
ISSN/ISBN
1833-3516; 1833-3516
Accession Number
PMID: 26165532
Language
eng
SubFile
Journal Article; Review; IM
DOI
Output Language
Unknown(0)
PMID
26165532
Abstract
A persistent foramen ovale (PFO) and other types of right-to-left shunts are associated with neurological, cutaneous and cardiovascular decompression illness (DCI). A right-to-left shunt is particularly likely to be implicated in causation when these types of DCI occur after dives that are not provocative. It is believed that venous nitrogen bubbles that form after decompression pass through the shunt to circumvent the lung fi lter and invade systemic tissues supersaturated with nitrogen (or other inert gas) and as a result there is peripheral ampli fi cation of bubble emboli in those tissues. Approximately a quarter of the population have a PFO, but only a small proportion of the population with the largest right-to-left shunts are at high risk of shunt-mediated DCI. The increased risk of DCI in people with migraine with aura is because migraine with aura is also associated with right-to-left shunts and this increased risk of DCI appears to be con fi ned to those with a large PFO or other large shunt. Various ultrasound techniques can be used to detect and assess the size of right-to-left shunts by imaging the appearance of bubble contrast in the systemic circulation after intravenous injection. In divers with a history of shunt-mediated DCI, methods to reduce the risk of recurrence include cessation of diving, modi fi cation of future dives to prevent venous bubble liberation and transcatheter closure of a PFO.
Descriptors
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Database
Publisher
Data Source
Authors
Wilmshurst,P.T.
Original/Translated Title
URL
Date of Electronic
PMCID
Editors
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| An audit of persistent foramen ovale closure in 105 divers | 2015 | Medical School, University of Bristol, Bristol, UK.; Bristol Heart Institute, Bristol Royal In fi rmary, Bristol, UK.; Bristol Heart Institute, Bristol Royal In fi rmary, Bristol, UK.; Bristol Heart Institute, Bristol Royal In fi rmary, Bristol, UK.; Leve | 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
Jun
Volume
45
Issue
2
Start Page
94
Other Pages
97
Notes
JID: 101282742; OTO: NOTNLM; 2015/03/30 [received]; 2015/05/01 [accepted]; ppublish
Place of Publication
Australia
ISSN/ISBN
1833-3516; 1833-3516
Accession Number
PMID: 26165531
Language
eng
SubFile
Journal Article; IM
DOI
Output Language
Unknown(0)
PMID
26165531
Abstract
INTRODUCTION: Right-to-left shunt across a persistent foramen ovale (PFO) has been associated with cutaneous, neurological and vestibular decompression illness (DCI). Percutaneous closure of a PFO has been used to reduce the risk of DCI. There are no randomised controlled trial data to support PFO closure for the prevention of decompression illness (DCI), so the need for audit data on the safety and ef fi cacy of this technique has been recognised by the National Institute of Health and Clinical Excellence in the UK. METHOD: Retrospective audit of all transcatheter PFO closures to reduce the risk of DCI performed by a single cardiologist with an interest in diving medicine. RESULTS: A total of 105 eligible divers undergoing 107 procedures was identi fi ed. There was a low rate of procedural complications; a rate lower than a recent randomised trial of PFO closure for stroke. Atrial fi brillation required treatment in two patients. One patient with a previously repaired mitral valve had a stroke that was thought to be unrelated to the PFO closure. Sixteen divers had minor post-procedure symptoms not requiring any treatment. Two divers required a second procedure because of residual shunt; both subsequently returned to unrestricted diving. Eighty-one of 95 divers in whom follow-up bubble contrast echocardiography was available returned to unrestricted diving. CONCLUSIONS: The PFO closure procedure appeared to be safe and was associated with the majority of divers being able to successfully return to unrestricted diving.
Descriptors
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Database
Publisher
Data Source
Authors
Pearman,A., Bugeja,L., Nelson,M., Szantho,G.V., Turner,M.
Original/Translated Title
URL
Date of Electronic
PMCID
Editors
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| Comparison of the size of persistent foramen ovale and atrial septal defects in divers with shunt-related decompression illness and in the general population | 2015 | Royal Stoke University Hospital Stoke-on-Trent, ST4 6QG, UK, E-mail: peter.wilmshurst@tiscali.co.uk.; Liverpool Heart and Chest Hospital, Liverpool, UK.; Our Lady's Hospital for Sick Children, Dublin, Ireland. | 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
Jun
Volume
45
Issue
2
Start Page
89
Other Pages
93
Notes
LR: 20151119; JID: 101282742; 0 (Contrast Media); OTO: NOTNLM; 2015/03/30 [received]; 2015/05/01 [accepted]; ppublish
Place of Publication
Australia
ISSN/ISBN
1833-3516; 1833-3516
Accession Number
PMID: 26165530
Language
eng
SubFile
Comparative Study; Journal Article; IM
DOI
Output Language
Unknown(0)
PMID
26165530
Abstract
INTRODUCTION: Decompression illness (DCI) is associated with a right-to-left shunt, such as persistent foramen ovale (PFO), atrial septal defect (ASD) and pulmonary arteriovenous malformations. About one-quarter of the population have a PFO, but considerably less than one-quarter of divers suffer DCI. Our aim was to determine whether shunt-related DCI occurs mainly or entirely in divers with the largest diameter atrial defects. METHODS: Case control comparison of diameters of atrial defects (PFO and ASD) in 200 consecutive divers who had transcatheter closure of an atrial defect following shunt-related DCI and in an historic group of 263 individuals in whom PFO diameter was measured at post-mortem examination. RESULTS: In the divers who had experienced DCI, the median atrial defect diameter was 10 mm and the mean (standard deviation) was 9.9 (3.6) mm. Among those in the general population who had a PFO, the median diameter was 5 mm and mean was 4.9 (2.6) mm. The difference between the two groups was highly signi fi cant (P
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Data Source
Authors
Wilmshurst,P.T., Morrison,W.L., Walsh,K.P.
Original/Translated Title
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Date of Electronic
PMCID
Editors
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| Cutis marmorata in decompression illness may be cerebrally mediated: a novel hypothesis on the aetiology of cutis marmorata | 2015 | 4Department of Anesthesiology/Hyperbaric Medicine, Academic Medical Center, Amsterdam, Cardiothoracic Surgery Onze Lieve Vrouwe Gasthuis, Amsterdam, Oosterpark 9 1091 AC Amsterdam, The Netherlands, Phone: +31-(0)6-5799-3488, E-mail: t.kemper@me.com.; Depa | 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
Jun
Volume
45
Issue
2
Start Page
84
Other Pages
88
Notes
LR: 20160224; JID: 101282742; CIN: Diving Hyperb Med. 2015 Dec;45(4):261. PMID: 26687315; OTO: NOTNLM; 2015/03/03 [received]; 2015/04/04 [accepted]; ppublish
Place of Publication
Australia
ISSN/ISBN
1833-3516; 1833-3516
Accession Number
PMID: 26165529
Language
eng
SubFile
Case Reports; Journal Article; Research Support, Non-U.S. Gov't; IM
DOI
Output Language
Unknown(0)
PMID
26165529
Abstract
INTRODUCTION: Cutaneous decompression sickness (DCS) is often considered to be a mild entity that may be explained by either vascular occlusion of skin vessels by bubbles entering the arterial circulation through a right-to-left shunt or bubble formation due to saturated subcutaneous tissue during decompression. We propose an alternative hypothesis. METHODS: The case is presented of a 30-year-old female diver with skin DCS on three separate occasions following relatively low decompression stress dives. Also presented are the fi ndings of cutaneous appearances in previously reported studies on cerebral arterial air embolism in pigs. RESULTS: There was a close similarity in appearance between the skin lesions in this woman (and in other divers) and those in the pigs, suggesting a common pathway. CONCLUSIONS: From this, we hypothesize that the cutaneous lesions are cerebrally mediated. Therefore, cutaneous DCS might be a more serious event that should be treated accordingly. This hypothesis may be supported by the fact that cutis marmorata is also found in other fi elds of medicine in a non-diving context, where the rash is referred to as livedo reticularis or livedo racemosa. These are associated with a wide number of conditions but of particular interest is Sneddon's syndrome, which describes the association of livedo racemosa with cerebrovascular events or vascular brain abnormalities. Finally, there is a need for further research on the immunocytochemical pathway of cutaneous DCS.
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Authors
Kemper,T.C., Rienks,R., van Ooij,P.J., van Hulst,R.A.
Original/Translated Title
URL
Date of Electronic
PMCID
Editors
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| Persistent (patent) foramen ovale (PFO): implications for safe diving | 2015 | Centre for Hyperbaric Oxygen Therapy, Military Hospital Brussels, Belgium, E-mail: peter.germonpre@eubs.org. | 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
Jun
Volume
45
Issue
2
Start Page
73
Other Pages
74
Notes
JID: 101282742; OTO: NOTNLM; ppublish
Place of Publication
Australia
ISSN/ISBN
1833-3516; 1833-3516
Accession Number
PMID: 26165526
Language
eng
SubFile
Editorial; IM
DOI
Output Language
Unknown(0)
PMID
26165526
Abstract
Diving medicine is a peculiar specialty. There are physicians and scientists from a wide variety of disciplines with an interest in diving and who all practice 'diving medicine': the study of the complex whole-body physiological changes and interactions upon immersion and emersion. To understand these, the science of physics and molecular gas and fluid movements comes into play. The ultimate goal of practicing diving medicine is to preserve the diver's health, both during and after the dive. Good medicine starts with prevention. For most divers, underwater excursions are not a professional necessity but a hobby; avoidance of risk is generally a much better option than risk mitigation or cure. However, prevention of diving illnesses seems to be even more difficult than treating those illnesses. The papers contained in this issue of DHM are a nice mix of various aspects of PFO that divers are interested in, all of them written by specialist doctors who are avid divers themselves. However, diving medicine should also take advantage of research from the "non-diving" medicine community, and PFO is a prime example. Cardiology and neurology have studied PFO for as long, or even longer than divers have been the subjects of PFO research, and with much greater numbers and resources. Unexplained stroke has been associated with PFO, as has severe migraine with aura. As the association seems to be strong, investigating the effect of PFO closure was a logical step. Devices have been developed and perfected, allowing now for a relatively low-risk procedure to 'solve the PFO problem'. However, as with many things in science, the results have not been as spectacular as hoped for: patients still get recurrences of stroke, still have migraine attacks. The risk-benefit ratio of PFO closure for these non-diving diseases is still debated. For diving, we now face a similar problem. Let there be no doubt that PFO is a pathway through which venous gas emboli (VGE) can arterialize, given sufficiently favourable circumstances (such as: a large quantity of VGE, size of the PFO, straining or provocation manoeuvres inducing increased right atrial pressure, delayed tissue desaturation so that seeding arterial gas emboli (AGE) grow instead of shrink, and there may be other, as yet unknown factors). There is no doubt that closing a PFO, either surgically or using a catheter-delivered device, can reduce the number of VGE becoming AGE. There is also no doubt that the procedure itself carries some health risks which are, at 1% or higher risk of serious complications, an order of magnitude greater than the risk for decompression illness (DCI) in recreational diving. Scientists seek the 'truth', but the truth about how much of a risk PFO represents for divers is not likely to be discovered nor universally accepted. First of all, the exact prevalence of PFO in divers is not known. As it has been pointed out in the recent literature, a contrast echocardiography (be it transthoracic or transoesophageal) or Doppler examination is only reliable if performed according to a strict protocol, taking into account the very many pitfalls yielding false negative results. The optimal procedure for injection of contrast medium was described several years ago, but has not received enough attention. Indeed, it is our and others' experience that many divers presenting with PFO-related DCI symptoms initially are declared "PFO-negative" by eminent, experienced cardiologists! Failing a prospective study, the risks of diving with a right-to left vascular shunt can only be expressed as an 'odds ratio', which is a less accurate measure than is 'relative risk'. The DAN Europe Carotid Doppler Study, started in 2001, is nearing completion and will provide more insight into the actual risks of DCI for recreational divers. The degree of DCI risk reduction from closing a PFO is thus not only dependent on successful closure but also (mostly?) on how the diver manages his/her dive and decompress
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Germonpre,P.
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PMCID
Editors
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| Barrett's esophagus: its diagnosis and management in Japan | 2015 | Read more... | |
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Journal Article
Periodical, Full
Nihon rinsho.Japanese journal of clinical medicine
Periodical, Abbrev.
Nihon Rinsho.
Pub Date Free Form
Jul
Volume
73
Issue
7
Start Page
1129
Other Pages
1135
Notes
JID: 0420546; ppublish
Place of Publication
Japan
ISSN/ISBN
0047-1852; 0047-1852
Accession Number
PMID: 26165069
Language
jpn
SubFile
English Abstract; Journal Article; IM
DOI
Output Language
Unknown(0)
PMID
26165069
Abstract
The incidence of adenocarcinoma derived from Barrett's esophagus has been steadily increasing during the past some decades in Western countries. The development of better diagnostic and therapeutic strategies for Barrett's esophagus and Barrett's adenocarcinoma have become an important objective. In Japan, Barrett's adenocarcinoma has been gradually increasing as the results of a high incidence of reflux esophagitis, a decreasing of Helicobacter pylori infection and an increasing of obesity, etc. Subsequently, in recent, the management of Barrett's esophagus has come to be of interest as well as in the Western countries. Many issues found in the pathophysiology and epidemiology of Barrett's esophagus in Japanese patients are required to be clarified and the Japanese maneuvers regarding the diagnostic procedure and clinical management including the surveillance for patients with Barrett's esophagus should be established as soon as possible.
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Amano,Y., Azumi,T.
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