It shows a bubble formed extravascularly (in a decompressed mouse) rupturing into a capillary (that is, becoming intravascular).[1] The rupture is occurring at the point labelled "a", and the capillary is the space containing the blackish shapes which are red blood cells (labelled RBCs). This bubble will soon appear downstream as a venous gas embolus. Can you explain how your model is going to treat the extravascular and intravascular parts of that bubble separately?
Your references state... "...decompression sickness..."
This diagram is of DCS injury. The animal was deliberately forced into a severe injury through aggressive procedure. We are looking at damage from a DCS injury. There is no fix or shallow stop to correct for that.
You are using a picture of severe injury, to then show it as evidence of normal VGE growth. Not good enough Simon - you know the difference. That is not normal VGE growth.
Conversely this example DCS injury presents you with a conundrum. If a neurological DCS injury, is partly the process of bursting of extravascular gas into the intravascular, then it stands to reason the higher VGE registered during neurologaic DCS events, comes from the injury site, and not normal VGE growth processes. Which would further enforce that high VGE in non-injured persons, is not a precursor to DCS (which is exactly the case now).
The model doesn't need to address the situation shown here (and its not "my" model). Deco models are designed and calibrated to avoid DCS, so the extreme damage in the picture is unlikely to be part of normal diving, or VGE growth.
No one is suggesting a 1:1 relation; just that you can't unlink extravascular and intravascular bubble formation as you are trying to do. Your attempt to suggest that VGE are irrelevant because lots of divers have them without DCS has been addressed by Neal and I many times. If you don't get it now you never will.
And you don't seem to get it. You are trying to play scare tactics on people about the VGE which they have already, and that does not cause them harm. You are then maneuvering to make VGE and tissue micro-bubbles the same thing, so you can pretend that bubble models don't work as more scare tactics.
Of course you are an intelligent man and you know its a deception to play tricks, but you do it anyway just to sell the message.
A comment that illustrates why you should stay away from discussions like this. You are assuming that the bubble would also have to be 20 - 200um in the capillary. Here is another photo for you to look at (bubbles growing in the skeletal muscle microcirculation in a decompressed rat) [2]:
Fairly self explanatory isn't it? The bubble does not have to have the same diameter in the capillary as it does in a larger vessel because bubbles form into sausages in smaller vessels. The commentary that goes with this is interesting for you to consider as well:
You are showing us pictures of a subject with DCS injury... not VGE.
Then do some math to calculate the volume in that bubble, and see how much dissolved gas in saturated tissue is needed to make such a bubble, and ask yourself if it all comes from one capillary?
Couple of important messages for you in there Ross. First, these authors postulate that these microbubbles growing in the tissue capillaries from supersaturated gas in the tissue can cause damage in their own right. This is independent of the possibility that they will later cross a right to left shunt and be carried to other tissues in the arteries. Second, these bubbles, forming in the tissue capillaries, are the ones we subsequently detect with Doppler.
Yes, I'm sure that given the right conditions, that is all possible, but does it normally happen?
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So, none of the above is actually normal VGE, but instead serious DCS injury information.
Do you have any pictures of normal VGE growth? Do you have evidence that normal VGE is directly related to extravascular micro-bubbles?
The latest published Jay Buckey study describes the two bubble types as separate bubbles.
The Bennett Elliot makes it clear that extra/intra vascular bubble are different. Here is the introductory passage again:
"While pulmonary DCS can be explained entirely by the formation of inert gas bubbles in the venous blood (intravascular VGE), DCS in other organ systems described below may be due partly or entirely to bubble formation within the tissue themselves. [referring to: spinal, joint, fatty connective, inner ear]".
If you want to modify your view since writing that 10+ years ago, then do so, but please do not try to distort it into saying something else.
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