serpentara
New Member
Maybe it is limited to us back mount counter lung guys (rEvo here) who cant adjust their OPV.Interesting, this is what I was taught too on the JJ.
Regards
Was your instructor Robin Jacoway?
Maybe it is limited to us back mount counter lung guys (rEvo here) who cant adjust their OPV.Interesting, this is what I was taught too on the JJ.
Regards
Maybe it is limited to us back mount counter lung guys (rEvo here) who cant adjust their OPV.
Was your instructor Robin Jacoway?
I have found the buckles on the drager gags to be pretty iffy. They are very hard to adjust with gloves on beforehand (to snug up the strap) and then hard to loosen if you want the loop to hang lower in a bailout scenario. This is definitely a product which could be improved upon by a competitor, both price and function.
"Simon's talk was interesting at Oztek where he mentioned that a O2 convulsion can be delayed. E.g you've come off the high ppo2 and on to a lower O2 gas and you'll still tox. "
Having survived an O2 hit I would say that you cannot delay a hit. I felt it coming on and switched to air but it still hit me twice on the way up. You can only get rid of O2 by metabolism, so once the O2 is high it is high and unless you get it very very early on you will get a hit .... trust me I know. If you keep pumping more gas into you ( using a FFM ) then you will fit and fit and fit. What does that do - cook the brain maybe ???
I guess we need Simon to cover this for a firm answer ... me I'm just a bush lawyer or doctor in this case so its only theory and bull ... regards Baz
ABSTRACT Introduction: Rebreathers are routinely used by military divers, which lead to specific diving injuries. At present, there are no published epidemiologic data in this field of study. Methods: Diving disorders with rebreathers used in the French army were retrospectively analyzed since 1979 using military and medical reports. Results: One hun- dred and fifty-three accidents have been reported, with an estimated incidence rate of 1 event per 3,500 to 4,000 dives. Gas toxicities were the main disorders (68%). Loss of consciousness was present in 54 cases, but only 3 lethal drowning were recorded. Decompression sicknesses (13%) were exclusively observed using 30 and 40% nitrox mixtures for depth greater than 35 msw. Eleven cases of immersion pulmonary edema were also noted. Conclusion: Gas toxicities are fre- quently encountered by French military divers using rebreathers, but the very low incidence of fatalities over 30 years can be explained by the strict application of safety diving procedures.
Hello,
I think there is some misunderstanding at play here. Indeed, I think both of you are saying the same thing. I think that "delay" in the original post was intended to mean that a convulsion could still occur even after a diver stopped breathing a high PO2, basically because the epileptogenic stimulus had reached a point where it was going to happen no matter what the diver did. Baz is effectively saying the same thing.
In answer to this:
"Any stats on how many people have survived an Ox TOx, verus fatalities?"
Not for the general diving population. However, there were some stunning data published by the French Navy in the journal "Military Medicine" in 2011. They reported a series of ~50 loss of consciousness events during diving by French Navy divers, and only two of these resulted in fatalities (IIRC). To those of us accustomed to hearing of such events and learning their outcomes this seemed like a very low rate of fatalities. There may be a number of contributing factors, but one of them (almost certainly) is that all the divers were wearing mouthpiece retaining straps. This is the best data of relevance to this issue we are ever likely to have, and I think it makes a powerful argument for using of these straps.
Simon M
Hello again,
I completely agree that strict buddy systems / tethering etc played a part in the result reported in the French paper. But even allowing for that, a tiny number of deaths in a large number of LOC events is a surprising result. I would be certain that the prevention of water aspiration while a buddy effected a rescue would have played a large part.
Simon M
Appears that high workload (elevated CO2?) and high pO2 were predominate causes for the high OxTox numbers.I was most surprised by the number of LOC whether they lived or not. Seems awfully high to me. Glad the straps and FFM minimize the fatality rate but hopefully they are also working to not have so many LOCs to begin with.
A great majority of these biochemical troubles were encoun-tered by student divers in whom the intensity of physical exer-tion (sustained finning), difficulty to adapt breathing to thedevice at the start of the course, and the long duration of trainingdives led to an imbalance between CO2 production and elimina-tion with subsequent arterial CO2 build-up. Additionally, exces-sive work of breathing and exercising for any length of timeare prone to make a diver less tolerant to high oxygen levels,5and consequently, acute hyperoxia was also predominant in CSstudent during the initial part of their course. The associationbetween hypercapnia and susceptibility to CNS-O2 toxicity wasascribed mainly to the vasodilatory effect of CO2 antagonizingthe protective O2-induced cerebral vasoconstriction,6,7 therebyincreasing delivery of O2 to neural tissue, resulting in increasedproduction of deleterious reactive oxygen species.
Hello again,
I completely agree that strict buddy systems / tethering etc played a part in the result reported in the French paper. But even allowing for that, a tiny number of deaths in a large number of LOC events is a surprising result. I would be certain that the prevention of water aspiration while a buddy effected a rescue would have played a large part.
Simon M
In my case I was out of it (on the deck of the boat, fortunately) for around 20 minutes, although it was many hours before I regained what little lucidity I normally get-by on.
The big thing with a full O2 seizure is your not breathing and exchanging gas. That's why during a tox you DO NOT change depth as barotrauma is very likely.