Nitrogen narcosis: Difference between revisions
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<ref name="Anttila2000">{{cite web |last=Anttila |first=Matti |title=Narcotic factors of gases |url=http://www.techdiver.ws/exotic_gases.shtml#6 |year=2000 |accessdate=2008-06-10 }}</ref> |
<ref name="Anttila2000">{{cite web |last=Anttila |first=Matti |title=Narcotic factors of gases |url=http://www.techdiver.ws/exotic_gases.shtml#6 |year=2000 |accessdate=2008-06-10 |deadurl=yes |archiveurl=https://web.archive.org/web/20131209202107/http://www.techdiver.ws/exotic_gases.shtml#6 |archivedate=2013-12-09 |df= }}</ref> |
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<ref name="Askitopoulou2010">{{cite web |url=http://www.anesthesiaanalgesia.org/content/91/2/486.full |title=Etymology and Literary History of Related Greek Words |first1=Helen |last1=Askitopoulou |first2=Ioanna A |last2=Ramoutsaki |first3=Eleni |last3=Konsolaki |date=April 12, 2000 |work=Analgesia and Anesthesia |publisher=International Anesthesia Research Society |accessdate=2010-06-09}}</ref> |
<ref name="Askitopoulou2010">{{cite web |url=http://www.anesthesiaanalgesia.org/content/91/2/486.full |title=Etymology and Literary History of Related Greek Words |first1=Helen |last1=Askitopoulou |first2=Ioanna A |last2=Ramoutsaki |first3=Eleni |last3=Konsolaki |date=April 12, 2000 |work=Analgesia and Anesthesia |publisher=International Anesthesia Research Society |accessdate=2010-06-09}}</ref> |
Revision as of 18:16, 1 December 2017
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Divers breathe a mixture of oxygen, helium and nitrogen for deep dives to avoid the effects of narcosis. A cylinder label shows the maximum operating depth and mixture (oxygen/helium). | |
Specialty | Medical toxicology |
Narcosis while diving (also known as nitrogen narcosis, inert gas narcosis, raptures of the deep, Martini effect) is a reversible alteration in
Except for
Narcosis may be completely reversed in a few minutes by ascending to a shallower depth, with no long-term effects. Thus narcosis while diving in open water rarely develops into a serious problem as long as the divers are aware of its symptoms, and are able to ascend to manage it. Diving much beyond 40 m (130 ft) is generally considered outside the scope of recreational diving. In order to dive at greater depths, as narcosis and oxygen toxicity become critical risk factors, specialist training is required in the use of various helium-containing gas mixtures such as trimix or heliox. These mixtures prevent narcosis by replacing some or all of the breathing gas with non-narcotic helium.
Classification
Narcosis results from breathing gases under elevated pressure, and may be classified by the principal gas involved. The
Signs and symptoms
Due to its perception-altering effects, the onset of narcosis may be hard to recognize.[6][7] At its most benign, narcosis results in relief of anxiety – a feeling of tranquility and mastery of the environment. These effects are essentially identical to various concentrations of nitrous oxide. They also resemble (though not as closely) the effects of alcohol or cannabis and the familiar benzodiazepine drugs such as diazepam and alprazolam.[8] Such effects are not harmful unless they cause some immediate danger to go unrecognized and unaddressed. Once stabilized, the effects generally remain the same at a given depth, only worsening if the diver ventures deeper.[9]
The most dangerous aspects of narcosis are the impairment of judgement, multi-tasking and coordination, and the loss of decision-making ability and focus. Other effects include
The relation of depth to narcosis is sometimes informally known as "Martini's law", the idea that narcosis results in the feeling of one martini for every 10 m (33 ft) below 20 m (66 ft) depth. Professional divers use such a calculation only as a rough guide to give new divers a metaphor, comparing a situation they may be more familiar with.[14]
Reported signs and symptoms are summarized against typical depths in meters and feet of sea water in the following table, closely adapted from Deeper into Diving by Lippman and Mitchell:[10]
Pressure (bar) | Depth (m) | Depth (ft) | Comments |
---|---|---|---|
1–2 | 0–10 | 0–33 |
|
2–4 | 10–30 | 33–100 |
|
4–6 | 30–50 | 100–165 |
|
6–8 | 50–70 | 165–230 |
|
8–10 | 70–90 | 230–300 |
|
10+ | 90+ | 300+ |
|
Causes
Some components of breathing gases and their relative narcotic potencies:[2][FN 1][3] | |
Gas | Relative narcotic potency |
---|---|
He | 0.045 |
Ne | 0.3 |
H2 | 0.6 |
N2 | 1.0 |
O2 | 1.7 |
Ar | 2.3 |
Kr | 7.1 |
CO2 | 20.0 |
Xe | 25.6 |
The cause of narcosis is related to the increased solubility of gases in body tissues, as a result of the elevated pressures at depth (
A divers' cognition may be affected on dives as shallow as 10 m (33 ft), but the changes are not usually noticeable.[21] There is no reliable method to predict the depth at which narcosis becomes noticeable, or the severity of the effect on an individual diver, as it may vary from dive to dive even on the same day.[6][20]
Significant impairment due to narcosis is an increasing risk below depths of about 30 m (100 ft), corresponding to an ambient pressure of about 4 bar (400 kPa).[6] Most sport scuba training organizations recommend depths of no more than 40 m (130 ft) because of the risk of narcosis.[14] When breathing air at depths of 90 m (300 ft) – an ambient pressure of about 10 bar (1,000 kPa) – narcosis in most divers leads to hallucinations, loss of memory, and unconsciousness.[19][22] A number of divers have died in attempts to set air depth records below 120 m (400 ft). Because of these incidents, Guinness World Records no longer reports on this figure.[23]
Narcosis has been compared with
Narcosis is known to be additive to even minimal alcohol intoxication,[26][27] and also to the effects of other drugs such as cannabis (which is more likely than alcohol to have effects that last into a day of abstinence from use).[28] Other sedative and analgesic drugs, such as opiate narcotics and benzodiazepines, add to narcosis.[26]
Mechanism
The precise mechanism is not well understood, but it appears to be the direct effect of gas dissolving into nerve membranes and causing temporary disruption in nerve transmissions. While the effect was first observed with air, other gases including argon, krypton and hydrogen cause very similar effects at higher than atmospheric pressure.
Similar to the mechanism of
An early theory, the Meyer-Overton hypothesis, suggested that narcosis happens when the gas penetrates the lipids of the brain's nerve cells, causing direct mechanical interference with the transmission of signals from one nerve cell to another.[15][16][20] More recently, specific types of chemically gated receptors in nerve cells have been identified as being involved with anesthesia and narcosis. However, the basic and most general underlying idea, that nerve transmission is altered in many diffuse areas of the brain as a result of gas molecules dissolved in the nerve cells' fatty membranes, remains largely unchallenged.[17][34]
Management and diagnosis
The management of narcosis is simply to ascend to shallower depths; the effects then disappear within minutes.[35] In the event of complications or other conditions being present, ascending is always the correct initial response. Should problems remain, then it is necessary to abort the dive. The decompression schedule can still be followed unless other conditions require emergency assistance.[36]
The symptoms of narcosis may be caused by other factors during a dive: ear problems causing disorientation or nausea;[37] early signs of oxygen toxicity causing visual disturbances;[38] or hypothermia causing rapid breathing and shivering.[39] Nevertheless, the presence of any of these symptoms should imply narcosis. Alleviation of the effects upon ascending to a shallower depth will confirm the diagnosis. Given the setting, other likely conditions do not produce reversible effects. In the rare event of misdiagnosis when another condition is causing the symptoms, the initial management – ascending closer to the surface – is still essential.[7]
Prevention
The most straightforward way to avoid nitrogen narcosis is for a diver to limit the depth of dives. Since narcosis becomes more severe as depth increases, a diver keeping to shallower depths can avoid serious narcosis. Most recreational dive schools will only certify basic divers to depths of 18 m (60 ft), and at these depths narcosis does not present a significant risk. Further training is normally required for certification up to 30 m (100 ft) on air, and this training should include a discussion of narcosis, its effects, and cure. Some diver training agencies offer specialized training to prepare recreational divers to go to depths of 40 m (130 ft), often consisting of further theory and some practice in deep dives under close supervision.[40][FN 2] Scuba organizations that train for diving beyond recreational depths,[FN 3] may forbid diving with gases that cause too much narcosis at depth in the average diver, and strongly encourage the use of other breathing gas mixes containing helium in place of some or all of the nitrogen in air – such as trimix and heliox – because helium has no narcotic effect.[2][41] The use of these gases forms part of technical diving and requires further training and certification.[14]
While the individual diver cannot predict exactly at what depth the onset of narcosis will occur on a given day, the first symptoms of narcosis for any given diver are often more predictable and personal. For example, one diver may have trouble with eye focus (close accommodation for middle-aged divers), another may experience feelings of euphoria, and another feelings of claustrophobia. Some divers report that they have hearing changes, and that the sound their exhaled bubbles make becomes different. Specialist training may help divers to identify these personal onset signs, which may then be used as a signal to ascend to avoid the narcosis, although severe narcosis may interfere with the judgement necessary to take preventive action.[35]
Deep dives should be made only after a gradual training to test the individual diver's sensitivity to increasing depths, with careful supervision and logging of reactions. Diving organizations such as Global Underwater Explorers (GUE) emphasize that such sessions are for the purpose of gaining experience in recognizing the onset symptoms of narcosis for an individual [citation needed], which are somewhat more repeatable than for the average group of divers. Scientific evidence does not show that a diver can train to overcome any measure of narcosis at a given depth or become tolerant of it.[42]
Because of similar and additive effects, divers should avoid sedating medications and drugs, such as marijuana and alcohol before any dive. A hangover, combined with the reduced physical capacity that goes with it, makes nitrogen narcosis more likely.[26] Experts recommend total abstinence from alcohol for at least 12 hours before diving, and longer for other drugs.[48] Abstinence time needed for marijuana is unknown, but owing to the much longer half-life of the active agent of this drug in the body, it is likely to be longer than for alcohol.[28]
Prognosis and epidemiology
Narcosis is potentially one of the most dangerous conditions to affect the scuba diver below about 30 m (100 ft). Except for occasional amnesia of events at depth, the effects of narcosis are entirely removed on ascent and therefore pose no problem in themselves, even for repeated, chronic or acute exposure.[6][20] Nevertheless, the severity of narcosis is unpredictable and it can be fatal while diving, as the result of illogical behavior in a dangerous environment.[20]
Tests have shown that all divers are affected by nitrogen narcosis, though some experience lesser effects than others. Even though it is possible that some divers can manage better than others because of learning to cope with the
History
French researcher Victor T. Junod was the first to describe symptoms of narcosis in 1834, noting "the functions of the brain are activated, imagination is lively, thoughts have a peculiar charm and, in some persons, symptoms of intoxication are present."
In 1939,
Further research into the possible mechanisms of narcosis by anesthetic action led to the "minimum alveolar concentration" concept in 1965. This measures the relative concentration of different gases required to prevent motor response in 50% of subjects in response to stimulus, and shows similar results for anesthetic potency as the measurements of lipid solubility.[59] The (NOAA) Diving Manual was revised to recommend treating oxygen as if it were as narcotic as nitrogen, following research by Christian J. Lambertsen et al. in 1977 and 1978.[60]
See also
Footnotes
- ^ Value for Krypton from 4th Edition, p. 176.
- ^ A number of technical diving agencies, such as TDI and IANTD teach "extended range" or "deep air" courses which teach diving to depths of up to 55 m (180 ft) without helium.
- ^ BSAC, SAA and other European training agencies teach recreational diving to a depth limit of 50 m (160 ft).
References
Notes
- ^ Askitopoulou, Helen; Ramoutsaki, Ioanna A; Konsolaki, Eleni (April 12, 2000). "Etymology and Literary History of Related Greek Words". Analgesia and Anesthesia. International Anesthesia Research Society. Retrieved 2010-06-09.
- ^ a b c d e Bennett & Rostain (2003), p. 305.
- ^ a b Bauer, Ralph W.; Way, Robert O. (1970). "Relative narcotic potencies of hydrogen, helium, nitrogen, and their mixtures".
- ^ PMID 734806. Retrieved 2009-07-29.
- ^ Burov, NE; Kornienko, Liu; Makeev, GN; Potapov, VN (November–December 1999). "Clinical and experimental study of xenon anesthesia". Anesteziol Reanimatol (6): 56–60. Retrieved 2008-11-03.
- ^ a b c d e f g Bennett & Rostain (2003), p. 301.
- PMID 18619113. Retrieved 2009-08-07.
- ^ Lippmann & Mitchell (2005), p. 103.
- ^ a b Lippmann & Mitchell (2005), p. 105.
- ^ ISBN 978-0-915539-10-9.
- PMID 8180569. Retrieved 26 December 2011.)
{{cite journal}}
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(help - )
- ^ ISBN 1-878663-01-1.
- ^ a b Bennett & Rostain (2003), p. 308.
- ^ a b Paton, William (1975). "Diver narcosis, from man to cell membrane". Journal of the South Pacific Underwater Medicine Society (first published at Oceans 2000 Conference). 5 (2). Retrieved 2008-12-23.
- ^ PMID 16869533. Retrieved 2008-12-23.
- PMID 20475589.)
{{cite journal}}
: CS1 maint: multiple names: authors list (link - ^ a b Bennett & Rostain (2003), p. 303.
- ^ a b c d e Hamilton, RW; Kizer, KW (eds) (1985). "Nitrogen Narcosis". 29th Undersea and Hyperbaric Medical Society Workshop (UHMS Publication Number 64WS(NN)4-26-85). Bethesda, MD: Undersea and Hyperbaric Medical Society. Retrieved 2008-12-23.
{{cite journal}}
:|author=
has generic name (help)CS1 maint: multiple names: authors list (link) - PMID 14756232. Retrieved 2008-12-23.
- ^ Hill, Leonard; David, RH; Selby, RP; et al. (1933). "Deep diving and ordinary diving". Report of a Committee Appointed by the British Admiralty.
- ^ PSAI Philippines. "Professional Scuba Association International History". Professional Scuba Association International – Philippines. Retrieved 2008-10-31.
- PMID 16695569.
- ^ Lippmann & Mitchell (2005), pp. 110–3.
- ^ PMID 3775969. Retrieved 2008-12-23.
- PMID 3612064.
- ^ PMID 11576028. Retrieved 2008-10-31.
- ^ Bennett & Rostain (2003), p. 304.
- PMID 11094015. Retrieved 2009-07-29.
- ^ PMID 7742709. Retrieved 2009-07-29.
- ^ PMID 7509043.
- PMID 9706942. Retrieved 2008-12-01.
- PMID 3307084. Retrieved 2009-07-29.
- ^ a b Lippmann & Mitchell (2005), p. 106.
- OCLC 51607923.
- OCLC 51607923.
- OCLC 51607923.
- ^ "Extended Range Diver". International Training. 2009. Retrieved 2013-01-24.
- ^ Hamilton Jr, RW; Schreiner, HR (eds) (1975). "Development of Decompression Procedures for Depths in Excess of 400 feet". 9th Undersea and Hyperbaric Medical Society Workshop (UHMS Publication Number WS2-28-76). Bethesda, MD: Undersea and Hyperbaric Medical Society: 272. Retrieved 2008-12-23.
{{cite journal}}
:|author=
has generic name (help)CS1 maint: multiple names: authors list (link) - PMID 1417647.
- IANTD (January 1, 2009). "IANTD Scuba & CCR, PSCR & SCR Rebreather Diver Programs (Recreational Trimix Diver)". IANTD. Retrieved 2009-03-22.
- ^ "Mixed-Gas & Oxygen". NOAA Diving Manual, Diving for Science and Technology. 4th. National Oceanic and Atmospheric Administration. 2002.
[16.3.1.2.4] ... since oxygen has some narcotic properties, it is appropriate to include the oxygen in the END calculation when using trimixes (Lambersten et al. 1977,1978). The non-helium portion (i.e., the sum of the oxygen and the nitrogen) is to be regarded as having the same narcotic potency as an equivalent partial pressure of nitrogen in air, regardless of the proportions of oxygen and nitrogen.
- ^ Anttila, Matti (2000). "Narcotic factors of gases". Archived from the original on 2013-12-09. Retrieved 2008-06-10.
{{cite web}}
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suggested) (help) - OCLC 51607923.
- ^ Lippmann & Mitchell (2005), pp. 430–1.
- ^ St Leger Dowse, Marguerite (2008). "Diving Officer's Conference presentations". British Sub-Aqua Club. Retrieved 2009-08-16.
- PMID 4082343. Retrieved 2009-07-29.
- PMID 2741255. Retrieved 2009-07-29.
- ^ Bennett & Rostain (2003), p. 300.
- ^ Junod, Victor T (1834). "Recherches physiologiques et thérapeutiques sur les effets de la compression et de la raréfaction de l'air". Revue médicale française et étrangère: journal des progrès de la médecine hippocratique. Chez Gabon et compagnie: 350–68. Retrieved 2009-06-04.
- ^ Bennett & Rostain (2003), p. 306.
- PMID 20749844.
- ^ Overton, Charles Ernest (1901). "Studien Über Die Narkose". Allgemeiner Pharmakologie (in German). Institut für Pharmakologie.
- ^ Behnke, AR; Yarborough, OD (1939). "Respiratory resistance, oil-water solubility and mental effects of argon compared with helium and nitrogen". American Journal of Physiology (126): 409–15.
- ISSN 0347-7665.
- ISBN 0-7922-6796-6.)
{{cite book}}
: CS1 maint: multiple names: authors list (link - PMID 5844267.
- ^ Lambertsen, Christian J; Gelfand, R; Clark, JM (1978). "University of Pennsylvania Institute for Environmental Medicine report, 1978". University of Pennsylvania. Institute for Environmental Medicine. Archived from the original on June 12, 2010. Retrieved 2009-03-22.
Sources
- Bennett, Peter; Rostain, Jean Claude (2003). "Inert Gas Narcosis". In Brubakk, Alf O; Neuman, Tom S (eds.). Bennett and Elliott's physiology and medicine of diving (5th ed.). United States: Saunders. )
- Lippmann, John; )
- U.S. Navy Supervisor of Diving (2008). U.S. Navy Diving Manual (PDF). SS521-AG-PRO-010, revision 6. U.S. Naval Sea Systems Command. Retrieved 2014-01-21.
External links
- Undersea and Hyperbaric Medical Society Scientific body, publications about nitrogen narcosis.
- Rubicon Research Repository Searchable repository of Diving and Environmental Physiology Research.
- Diving Diseases Research Centre (DDRC) UK charity dedicated to treatment of diving diseases.
- Campbell, Ernest S. (2009-06-25). "Diving While Using Marijuana". Retrieved 2009-08-25. ScubaDoc's overview of marijuana and diving.
- Campbell, Ernest S. (2009-05-03). "Alcohol and Diving". Retrieved 2009-08-25. ScubaDoc's overview of alcohol and diving.
- Campbell, George D. (2009-02-01). "Nitrogen Narcosis". Diving with Deep-Six. Retrieved 2009-08-25.