- In-water recompression
In-water recompression or underwater oxygen treatment (IWR) is the emergency treatment of
decompression sickness (DCS) of sending the diver backunderwater to allow the gas bubbles in the tissues, which are causing the symptoms, to resolve. It is arisk y procedure that should only ever be used when the time to travel to the nearestrecompression chamber is too long to save the victim's life.cite book |last=Kay |first=E. |coauthors=M. P. Spencer. |title=In water recompression. 48th Undersea and Hyperbaric Medical Society Workshop. |year=1999 |publisher=Undersea and Hyperbaric Medical Society |volume=UHMS Publication Number RC103.C3 |location=United States |pages=108 |url=http://archive.rubicon-foundation.org/5629 |accessdate=2008-06-08 ] cite journal |last=Pyle |first=R. L. |coauthors=D. A. Youngblood. |title=In-water Recompression as an emergency field treatment of decompression illness |journal=AquaCorp |volume=11 |date=1995 |url=http://archive.rubicon-foundation.org/6083 |accessdate=2008-06-08 ]Carrying out in-water recompression when there is a nearby recompression chamber or without special equipment and training is never a favoured option. The risk of the procedure comes from the fact that a diver suffering from DCS is seriously ill and may become
paralysed , unconscious or stop breathing whilst under water. Any one of these events is likely to result in the diverdrowning or further injury to the diver during a subsequent rescue to the surface.Background
Treatment of DCS utilizing the US Navy Treatment Table 6 with oxygen at 18m is a
standard of care . [cite journal |last=Moon |first=RE |title=Recompression treatments should be to a pressure equivalent to 18 m depth. (Part 2 of 5 part Pro Con Debate) |journal=South Pacific Underwater Medicine Society journal |volume=30 |issue=3 |date=2000 |issn=0813-1988 |oclc=16986801 |url=http://archive.rubicon-foundation.org/5865 |accessdate=2008-06-08 ] [cite journal |last=Berghage |first=T. E. |coauthors=J. Vorosmarti Jr; E. E. P. Barnard. |title=Recompression treatment tables used throughout the world by government and industry |journal=US Naval Medical Research Center Technical Report |volume=NMRI-78-16 |date=1978 |url=http://archive.rubicon-foundation.org/3414 |accessdate=2008-06-08 ] cite book |title=US Navy Diving Manual, 6th revision |year=2006 |publisher=US Naval Sea Systems Command |location=United States |url=http://www.supsalv.org/00c3_publications.asp?destPage=00c3&pageID=3.9 |accessdate=2008-06-08 ] [cite journal |last=Yarbrough |first=O. D. |coauthors=A. R. Behnke |title=The treatment of compressed air illness using oxygen |journal=J Ind Hyg Toxicol |volume=21 |pages=213–218 |date=1939 |issn=0095-9030 ] Significantdelay to treatment, difficult transport, and facilities with limited experience may lead one to consider on site treatment. [cite journal |last=Brubakk |first=AO |title=On-site recompression treatment is acceptable for DCI. (Part 5 of 5 part Pro Con Debate) |journal=South Pacific Underwater Medicine Society journal |volume=30 |issue=3 |date=2000 |issn=0813-1988 |oclc=16986801 |url=http://archive.rubicon-foundation.org/5871 |accessdate=2008-06-08 ] Surface oxygen for first aid has been proven to improve the efficacy of recompression and decreased the number of recompression treatments required when administered within four hours post dive.cite journal |last=Longphre |first=J. M. |coauthors=P. J. DeNoble; R. E. Moon; R. D. Vann; J. J. Freiberger |title=First aid normobaric oxygen for the treatment of recreational diving injuries |journal=Undersea Hyperb Med. |volume=34 |issue=1 |pages=43–49 |date=2007 |issn=1066-2936 |oclc=26915585 |pmid=17393938 |url=http://archive.rubicon-foundation.org/5514 |accessdate=2008-06-08 ] IWR to 9 m breathing oxygen is one option that has shown success over the years [cite journal |last=Pyle |first=RL |title=In-water Recompression (Letter to Editor) |journal=South Pacific Underwater Medicine Society journal |volume=27 |issue=3 |date=1997 |issn=0813-1988 |oclc=16986801 |url=http://archive.rubicon-foundation.org/6076 |accessdate=2008-06-08 ] cite journal |author=Farm, Hayashi, and Beckman. |title=Diving and decompression sickness treatment practices among Hawaii's diving fishermen |journal=Sea Grant Technical Report |volume=UNIHI-TP-86-01 |date=1986 |url=http://nsgl.gso.uri.edu/hawau/hawaut86001.pdf |accessdate=2008-06-08 ] IWR is not without risk and should be undertaken with certain precautions. [cite journal |last=Knight |first=J. |title=In-water oxygen recompression therapy for decompression sickness |journal=South Pacific Underwater Medicine Society journal |volume=14 |issue=3 |date=1984 |issn=0813-1988 |oclc=16986801 |url= ] cite journal |last=Edmonds |first=C. |title=Underwater oxygen treatment of decompression sickness |journal=South Pacific Underwater Medicine Society journal |volume=9 |issue=1 |date=1979 |issn=0813-1988 |oclc=16986801 |url=http://archive.rubicon-foundation.org/6221 |accessdate=2008-06-08 ] IWR would only be suitable for an organised and disciplined group of divers with suitable equipment and practical training in the procedure.The principle behind IWR treatment is the same as that behind the treatment of DCS in a recompression chamber: an increase in ambient pressure will reduce the volume of the bubbles allowing better blood transport downstream of the bubbles. If the casualty can breathe pure
oxygen further improvements will occur because the increase in the proportion of oxygen in the blood may keep previously oxygen-starved tissues alive and the oxygen will remove other inert gases from the bubbles making the bubbles smaller.Brief History and Risks
The Royal Australian Navy School of Underwater Medicine was charged to supervise the then, non-sanctioned, practice of IWR.cite journal |last=Edmonds |first=C. |title=Underwater oxygen for treatment of decompression sickness: A review |journal=South Pacific Underwater Medicine Society journal |volume=25 |issue=3 |date=
1995 |issn=0813-1988 |oclc=16986801 |url=http://archive.rubicon-foundation.org/6428 |accessdate=2008-06-08 ] This charge was in response to the very long delays that were associated between the presentation of DCS and recompression treatment. Dr Edmonds also described the debates about underwater oxygen treatment for DCS that are not unlike current concerns.
* Inappropriate cases for treatment,
*Oxygen toxicity ,
* Emergency Termination of Treatment,
*Hypothermia
* Adequacy of Equipment in Remote Areas,
*Seasickness ,
* Operator Expertise and Training,
* Safety of the Diving Attendant and the Boat Tenders,
* Requirement for Medical Supervision,
* Transport Availability,
* Misuse of Equipment,
* PulmonaryBarotrauma Cases.Equipment
Some of the equipment needed includes:
* a means of securely holding the casualty at a measured depth, such as a harness and 20 metre line with a 20 kg lead weight at the bottom and 40 litre buoy at the top
* a means of allowing the casualty to ascend slowly, such as loops in the line to which the harness could be clipped
*full face diving mask s for the casualty and for an in-water tending diver including two-way communication to the surface and an umbilical gas supply
* surface suppliedbreathing gas es including pureoxygen andair delivered to the casualty by umbilical
* voice communications equipment to the divers
* use IWR treatment "table"In-Water Recompression Tables
Six IWR treatment tables have been published in the
scientific literature . Each of these methods have several commonalities including the use of a full face mask, a tender to supervise the diver during treatment, a weighted recompression line and a means of communication. The history of the three older methods for providing oxygen at 9m (30 fsw) was described in great detail by Drs. Pyle and Youngblood. The fourth method for providing oxygen at 7.5 m (25 fsw) was described by Pyle at the 48th Annual UHMS Workshop on In-water Recompression in 1999. The Clipperton method involves recompression to 9m (30 fsw) while the Clipperton(a)rebreather method involves a recompression to 30m (98 fsw).cite journal |author=Blatteau JE, Jean F, Pontier JM, "et al" |title= [Decompression sickness accident management in remote areas. Use of immediate IWR therapy. Review and elaboration of a new protocol targeted for a mission at Clipperton atoll] |language=French |journal=Ann Fr Anesth Reanim |volume=25 |issue=8 |pages=874–83 |year=2006 |month=August |pmid=16860525 |doi=10.1016/j.annfar.2006.04.007 |url=http://linkinghub.elsevier.com/retrieve/pii/S0750-7658(06)00215-2 |accessdate=2008-06-08]Australian In-water Recompression Table
The Australian IWR Tables were developed by the
Royal Australian Navy in the 1960's in response to their need for treatment in remote locations far away from recompression chambers. It was the shallow portion of the table developed for recompression chamber use.Oxygen is breathed the entire portion of the treatment without any air breaks and is followed by alternating periods (12 hours) of oxygen and air breathing on the surface.
Clipperton In-water Recompression Tables
The Clipperton and Clipperton(a) methods were developed for use on a scientific mission to the atoll of Clipperton, 1,300 km from the Mexican coasts. The two versions are based on the equipment available for treatment with the Clipperton(a) table being designed for use with rebreathers.
Both methods begin with 10 minutes of surface oxygen. For the Clipperton IWR table, oxygen is then breathed the entire portion of the treatment without any air breaks. For the Clipperton IWR table, descent is made to the initial treatment depth maintaining a
partial pressure of 1.4 ATA. Oxygen breathing on the surface for 6 hours post treatment and intravenous fluids are also administered following both treatment tables.Hawaiian In-water Recompression Table
The Hawaiian IWR table was first described by Farm et al. while studying the diving habits of
Hawaii 's divingfishermen .The initial portion of the treatment involves decent on air to the depth of relief plus 30 fsw or a maximum of 165 fsw for ten minutes. Ascent from initial treatment depth to 30 fsw occurs over 10 minutes. The diver then completes the treatment breathing oxygen and is followed by oxygen breathing on the surface for 30 minutes post treatment.
The Hawaiian IWR Table with Pyle modifications can be found in the proceedings of the DAN 2008 Technical Diving Conference (In Press) or through download from DAN [http://www.diversalertnetwork.org/FastAccess/2008TechnicalDiving.aspx here] .
Pyle In-water Recompression Table
The Pyle IWR table was developed by Dr. Richard Pyle as a method for treating DCS in the field following scientific dives.
This method begins with a 10 minute surface oxygen evaluation period. Compression to 25 fsw on oxygen for another 10 minute evaluation period. The table is best described by the treatment
algorithm ( [http://rubicon-foundation.org/IWR.html Pyle IWR algorithm] ). This table does include alternating air breathing periods or "air breaks".US Navy In-water Recompression Tables
The
US Navy developed two IWR treatment tables. The table used depends on the symptoms diagnosed by the medical officer.Oxygen is breathed the entire portion of the treatment without any air breaks and is followed by 3 hours of oxygen breathing on the surface.
References
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