If this is your first visit, be sure to check out the FAQ by clicking the link above. You may have to register before you can post: click the register link above to proceed. To start viewing messages, select the forum that you want to visit from the selection below. |
|
|
Thread Tools | Display Modes |
#1
|
|||
|
|||
Reprise - Oxygen concerns
BlankThanks to all who have replied to my previous messages. I admit I may not have
been clear in why I am asking for feedback/information on flight testing of oxygen delivery systems. Apologies. Let me explain and ask for HELPFUL feedback. My concern is with the lack of scientifically-valid information available on the performance of light aircraft/glider oxygen systems. As an anesthesia doc (and former USAF fighter jock) I feel have some background in this area. In addition I have done significant medical literature research, been to CAMI to speak with the honchos there, had contact with the Brits, in-person chats with several New Zealanders at Omarama, etc. When I started to fly gliders out of Boulder several years ago I was surprised at the masks that pilots were taking up into the wave. Having had a cardiac bypass operation myself perhaps I was unusually concerned. I began to do National Library of Medicine research and found no published studies that dealt with the use of nasal cannulae or masks performance at altitude. I then got access (with permission from the CEO as long as I didn't mention the name) to company data that had to do with a flight to 18,000 during which 6 subjects using an A4 had pulse-ox readings taken at FAA-mandated flow rates. In the process the Oxymizer was compared with the "regular" cannula. At each altitude from 13,000 to 18,000 at least one subject was hypoxic with one subject, at 18,000, saturating at 78% on an Oxymizer at the FAA rate of 1.46. All six were supposedly all fit and healthy people. One had a bypass operation, but he was never one of the hypoxic ones. No physician had been involved. I then discovered that FAA mandates oxygen flow rates only - not oxygen saturations. The mandates, so I discovered, are at least 40 years out of date and relate to tracheal oxygen measurements - two levels of medical monitoring sophistication out of date (arterial blood gases, pulse oximetry). Of course the modern "pulse" systems are not mentioned. I then discovered that there are no FAA mandates requiring an oxygen delivery system to meet any specific performance requirements as long as it is "portable". I noticed that manufacturers were making remarkable claims for the oxygen-saving abilities of their systems but - as I discussed above - not based on any form of objective peer-reviewed published study. It seemed to me that I could show that the A4 at FAA rates probably produced some hypoxia, and the Oxymizer probably did not have the characteristics claimed for it, but how about "pulsed" systems and mask performance over 18,000? Please note - I am not saying they are wrong - but before trusting my pink body and those of my passengers to a strange-looking system I'd like some objective and verifiable proof. I use a D1 and I think the modern pulse systems are magnificent - probably - at least as far as their use up to 18,000 with cannulae are concerned (but I cannot prove this - no releasable data). They have been in use for many years with no apparent untoward events. I am more concerned, however, at how the pulsed systems perform with mask systems above 18,000. Several of the mask systems I have seen in use appear to me to be dangerous regardless of the system used to deliver the oxygen. Again - no data. It doesn't make sense to me that a pulsed system should work with the sorts of reservoir-style masks that should be used at altitude. But I may be wrong, that is why I am asking if anyone out there has any information/data (preferable data) that could answer these questions. I have asked several other companies but they (rightly) regard what they have done (or possibly not done)as proprietary information. So - no objective information. I agree - pulse oximetry should solve the problem, IF one doesn't consider the realities of what pilots are ACTUALLY liable to do as far as non-use. Will every pilot who might go over 14,000 buy a pulse ox just in case? Probably not. Is it realistic for an FBO to rent out a pulse ox? Probably not. It seems more sensible to me to make sure the claims manufacturers make are objectively valid, then use the pulse-ox (if you have one, didn't leave it at home, didn't realize how good the thermals/wave were so didn't bring it along, its battery is OK, the ambient temp isn't frigid, you have a glove over your finger, etc., etc.) to make sure. In summary - In my opinion FAA mandates are way, way out of date and should be brought up to modern standards reflecting pulse oximetry. Studies need to be done in an open published manner documenting that manufactured equipment will produce non-hypoxic saturation levels in every day use for "most" pilots. In my opinion it isn't enough for a manufacturer to say "yep, we haven't flight-tested the gadget because we don't have to, but trust me - it is OK". Please let me know what you think in a helpful manner - after all I am only trying to make flying safer for all of us and I have no hidden agendas. David Reed M.D, Boulder CO |
#2
|
|||
|
|||
BlankYou didn't mention if you had contacted the US military. They have an interest in seeing to it that their expensively trained personnel operating even more expensive equipment are performing at an optimum level. They also spend a lot of money on aeromedicine. I would expect that the Pentagon has public access records on their research. Start with the Virtual Naval Hospital. ( www.vnh.org search keyword "oxygen")
It's possibly worth noting that no military oxygen system uses a cannula. Constant flow oxygen systems were discarded early in WWII when they were found inadequate above 18,000 feet. If you need oxygen as a military pilot today you will use a well fitted and sealed full-face mask connected to a pressure demand regulator. Anything less is inadequate. My reading of the literature indicates that pressure demand systems have been extensively tested at cabin altitudes up to 45,000 and found safe for healthy personnel. I have used both a cannula and a pressure demand system with a pulse oxymeter on wave flights. I found that the constant flow cannula system could not maintain a steady SpO2 with fluctuations above and below 90% but the pressure demand system delivered a rock solid 98% - 99% SpO2 readings at all altitudes. I'd like to see all wave flights use pressure demand O2 systems. Bill Daniels "Neptune" wrote in message ... Thanks to all who have replied to my previous messages. I admit I may not have been clear in why I am asking for feedback/information on flight testing of oxygen delivery systems. Apologies. Let me explain and ask for HELPFUL feedback. My concern is with the lack of scientifically-valid information available on the performance of light aircraft/glider oxygen systems. As an anesthesia doc (and former USAF fighter jock) I feel have some background in this area. In addition I have done significant medical literature research, been to CAMI to speak with the honchos there, had contact with the Brits, in-person chats with several New Zealanders at Omarama, etc. When I started to fly gliders out of Boulder several years ago I was surprised at the masks that pilots were taking up into the wave. Having had a cardiac bypass operation myself perhaps I was unusually concerned. I began to do National Library of Medicine research and found no published studies that dealt with the use of nasal cannulae or masks performance at altitude. I then got access (with permission from the CEO as long as I didn't mention the name) to company data that had to do with a flight to 18,000 during which 6 subjects using an A4 had pulse-ox readings taken at FAA-mandated flow rates. In the process the Oxymizer was compared with the "regular" cannula. At each altitude from 13,000 to 18,000 at least one subject was hypoxic with one subject, at 18,000, saturating at 78% on an Oxymizer at the FAA rate of 1.46. All six were supposedly all fit and healthy people. One had a bypass operation, but he was never one of the hypoxic ones. No physician had been involved. I then discovered that FAA mandates oxygen flow rates only - not oxygen saturations. The mandates, so I discovered, are at least 40 years out of date and relate to tracheal oxygen measurements - two levels of medical monitoring sophistication out of date (arterial blood gases, pulse oximetry). Of course the modern "pulse" systems are not mentioned. I then discovered that there are no FAA mandates requiring an oxygen delivery system to meet any specific performance requirements as long as it is "portable". I noticed that manufacturers were making remarkable claims for the oxygen-saving abilities of their systems but - as I discussed above - not based on any form of objective peer-reviewed published study. It seemed to me that I could show that the A4 at FAA rates probably produced some hypoxia, and the Oxymizer probably did not have the characteristics claimed for it, but how about "pulsed" systems and mask performance over 18,000? Please note - I am not saying they are wrong - but before trusting my pink body and those of my passengers to a strange-looking system I'd like some objective and verifiable proof. I use a D1 and I think the modern pulse systems are magnificent - probably - at least as far as their use up to 18,000 with cannulae are concerned (but I cannot prove this - no releasable data). They have been in use for many years with no apparent untoward events. I am more concerned, however, at how the pulsed systems perform with mask systems above 18,000. Several of the mask systems I have seen in use appear to me to be dangerous regardless of the system used to deliver the oxygen. Again - no data. It doesn't make sense to me that a pulsed system should work with the sorts of reservoir-style masks that should be used at altitude. But I may be wrong, that is why I am asking if anyone out there has any information/data (preferable data) that could answer these questions. I have asked several other companies but they (rightly) regard what they have done (or possibly not done)as proprietary information. So - no objective information. I agree - pulse oximetry should solve the problem, IF one doesn't consider the realities of what pilots are ACTUALLY liable to do as far as non-use. Will every pilot who might go over 14,000 buy a pulse ox just in case? Probably not. Is it realistic for an FBO to rent out a pulse ox? Probably not. It seems more sensible to me to make sure the claims manufacturers make are objectively valid, then use the pulse-ox (if you have one, didn't leave it at home, didn't realize how good the thermals/wave were so didn't bring it along, its battery is OK, the ambient temp isn't frigid, you have a glove over your finger, etc., etc.) to make sure. In summary - In my opinion FAA mandates are way, way out of date and should be brought up to modern standards reflecting pulse oximetry. Studies need to be done in an open published manner documenting that manufactured equipment will produce non-hypoxic saturation levels in every day use for "most" pilots. In my opinion it isn't enough for a manufacturer to say "yep, we haven't flight-tested the gadget because we don't have to, but trust me - it is OK". Please let me know what you think in a helpful manner - after all I am only trying to make flying safer for all of us and I have no hidden agendas. David Reed M.D, Boulder CO |
#3
|
|||
|
|||
Bill Daniels wrote:
At 16,000 ft., I can't tell the difference with or without O2. Unfortunately, feeling fine can be one of the first symptoms of hypoxia. How you FEEL means little. The only quantitative measure of hypoxia is a pulse oxymeter. Borrow one the next time you fly. The numbers will likely surprise you. Since he feels (or at least "can't tell the difference") the same with and without oxygen, are you suggesting he was hypoxic without the oxygen but just couldn't tell that he was functioning differently than with the oxygen? I often do a similar test when flying with oxygen: I go to 100% for a couple of minutes; if I then still feel the same and my decisions still seem sensible, I assume I've been getting enough oxygen. Does seem like an adequate test for altitudes up to 25,000', the highest I've gone? I've not used an oximeter, so I don't know what my readings are before or after. -- Change "netto" to "net" to email me directly Eric Greenwell Washington State USA |
#4
|
|||
|
|||
Thank you Eric.
I didn't say I felt fine, I said I can't tell the difference. Above about 20,000 ft or so, I can tell the difference. I start to get a headache and my ears tingle. In addition, even at lower altitudes, if I divert blood from my brain, (how does he do that, you ask?) by eating a sandwich or the like, I have to get on O2 immediately. I can really tell the difference. No Bill, I am not a Sherpa and I can't quarrel with the acclimatization point. I can only tell you what I experience. There is no such thing as too much education and/or knowledge, so I can't disagree with you there. I haven't gone over 26,000 ft so my descriptions are only valid - for me - up to that altitude. I'm not really disagreeing with what you say, only with the thought that regulations are required to make it work. All the regulations in the world have not stopped stall-spin accidents. How about we work on that one? Allan "Eric Greenwell" wrote in message ... Bill Daniels wrote: At 16,000 ft., I can't tell the difference with or without O2. Unfortunately, feeling fine can be one of the first symptoms of hypoxia. How you FEEL means little. The only quantitative measure of hypoxia is a pulse oxymeter. Borrow one the next time you fly. The numbers will likely surprise you. Since he feels (or at least "can't tell the difference") the same with and without oxygen, are you suggesting he was hypoxic without the oxygen but just couldn't tell that he was functioning differently than with the oxygen? ...Snip.... |
#5
|
|||
|
|||
"Eric Greenwell" wrote in message ... Bill Daniels wrote: At 16,000 ft., I can't tell the difference with or without O2. Unfortunately, feeling fine can be one of the first symptoms of hypoxia. How you FEEL means little. The only quantitative measure of hypoxia is a pulse oxymeter. Borrow one the next time you fly. The numbers will likely surprise you. Since he feels (or at least "can't tell the difference") the same with and without oxygen, are you suggesting he was hypoxic without the oxygen but just couldn't tell that he was functioning differently than with the oxygen? Exactly. I often do a similar test when flying with oxygen: I go to 100% for a couple of minutes; if I then still feel the same and my decisions still seem sensible, I assume I've been getting enough oxygen. Does seem like an adequate test for altitudes up to 25,000', the highest I've gone? I've not used an oximeter, so I don't know what my readings are before or after. -- Change "netto" to "net" to email me directly Eric Greenwell Washington State USA As one AME put it to me, "If you are self-diagnosing hypoxia without a pulse oxymeter, you have a fool for a doctor". I think this is one of the central danger points of aviation oxygen use. The presumption that a pilot who has a lot on his plate can self-diagnose hypoxia symptoms has been in use since before WWII with dubious results to say the least. Inexpensive pulse oxymeters have finally brought some objectivity to oxygen use. I highly recommend them. This is especially true with inconsistent oxygen delivery systems like nasal cannulas. Bill Daniels |
#6
|
|||
|
|||
"ADP" wrote in message ... Thank you Eric. I didn't say I felt fine, I said I can't tell the difference. Above about 20,000 ft or so, I can tell the difference. I start to get a headache and my ears tingle. In addition, even at lower altitudes, if I divert blood from my brain, (how does he do that, you ask?) by eating a sandwich or the like, I have to get on O2 immediately. I can really tell the difference. No Bill, I am not a Sherpa and I can't quarrel with the acclimatization point. I can only tell you what I experience. There is no such thing as too much education and/or knowledge, so I can't disagree with you there. I haven't gone over 26,000 ft so my descriptions are only valid - for me - up to that altitude. I'm not really disagreeing with what you say, only with the thought that regulations are required to make it work. All the regulations in the world have not stopped stall-spin accidents. How about we work on that one? Allan Allan, we absolute agree about additional regulation. My point is that we should use good oxygen systems, a pulse oxymeter and read all the important literature. Bill Daniels |
#7
|
|||
|
|||
BlankThanks, Bill - actually I was recently involved in a study at USAFA (I am a 1960 graduate) in which it was shown that jumpers could wear cannulae up to their highest jump altitude of 18,000 using "regular" nasal cannulae at flow reates of around 2.5. and not saturate at under 90%. Prior to this they had to wear a mask, and you can imagine the hassle of getting out of a mask with all the jump gear all over the place. They are awaiting approval from HQ but it seems like this will be approved. Just how low the flow could get and stil saturate at over 90% unfortunately was not part of the protocol.
I did try to contact the Army Flight Surgeons at Fort Carson but didn't get any replies to my phone messages. Shortly after this I departed for six months in New Zealand so didn't follow it up. This summer there is going to be a series of studies starting at AFA level and going up to Pikes Peak where the Army has a facility. Unfortunately this will not involve oxygen delivery systems asit has to do moreso with exercise physiology, but I will get a chance to meet the Army docs out of their facility at Natick, Mass who will be coming to Colorado. So thanks for the thought - I'm onto this one, thought. Any other thoughts for getting data? Have any ides as to whether anyone has done objective medical research on nasal cannulae and pulsed systems, or even masks and pulsed systems over 18,000? Dave Reed M.D., Boulder CO. "Bill Daniels" wrote in message news:MsAqc.4202$zw.1832@attbi_s01... You didn't mention if you had contacted the US military. They have an interest in seeing to it that their expensively trained personnel operating even more expensive equipment are performing at an optimum level. They also spend a lot of money on aeromedicine. I would expect that the Pentagon has public access records on their research. Start with the Virtual Naval Hospital. ( www.vnh.org search keyword "oxygen") It's possibly worth noting that no military oxygen system uses a cannula. Constant flow oxygen systems were discarded early in WWII when they were found inadequate above 18,000 feet. If you need oxygen as a military pilot today you will use a well fitted and sealed full-face mask connected to a pressure demand regulator. Anything less is inadequate. My reading of the literature indicates that pressure demand systems have been extensively tested at cabin altitudes up to 45,000 and found safe for healthy personnel. I have used both a cannula and a pressure demand system with a pulse oxymeter on wave flights. I found that the constant flow cannula system could not maintain a steady SpO2 with fluctuations above and below 90% but the pressure demand system delivered a rock solid 98% - 99% SpO2 readings at all altitudes. I'd like to see all wave flights use pressure demand O2 systems. Bill Daniels "Neptune" wrote in message ... Thanks to all who have replied to my previous messages. I admit I may not have been clear in why I am asking for feedback/information on flight testing of oxygen delivery systems. Apologies. Let me explain and ask for HELPFUL feedback. My concern is with the lack of scientifically-valid information available on the performance of light aircraft/glider oxygen systems. As an anesthesia doc (and former USAF fighter jock) I feel have some background in this area. In addition I have done significant medical literature research, been to CAMI to speak with the honchos there, had contact with the Brits, in-person chats with several New Zealanders at Omarama, etc. When I started to fly gliders out of Boulder several years ago I was surprised at the masks that pilots were taking up into the wave. Having had a cardiac bypass operation myself perhaps I was unusually concerned. I began to do National Library of Medicine research and found no published studies that dealt with the use of nasal cannulae or masks performance at altitude. I then got access (with permission from the CEO as long as I didn't mention the name) to company data that had to do with a flight to 18,000 during which 6 subjects using an A4 had pulse-ox readings taken at FAA-mandated flow rates. In the process the Oxymizer was compared with the "regular" cannula. At each altitude from 13,000 to 18,000 at least one subject was hypoxic with one subject, at 18,000, saturating at 78% on an Oxymizer at the FAA rate of 1.46. All six were supposedly all fit and healthy people. One had a bypass operation, but he was never one of the hypoxic ones. No physician had been involved. I then discovered that FAA mandates oxygen flow rates only - not oxygen saturations. The mandates, so I discovered, are at least 40 years out of date and relate to tracheal oxygen measurements - two levels of medical monitoring sophistication out of date (arterial blood gases, pulse oximetry). Of course the modern "pulse" systems are not mentioned. I then discovered that there are no FAA mandates requiring an oxygen delivery system to meet any specific performance requirements as long as it is "portable". I noticed that manufacturers were making remarkable claims for the oxygen-saving abilities of their systems but - as I discussed above - not based on any form of objective peer-reviewed published study. It seemed to me that I could show that the A4 at FAA rates probably produced some hypoxia, and the Oxymizer probably did not have the characteristics claimed for it, but how about "pulsed" systems and mask performance over 18,000? Please note - I am not saying they are wrong - but before trusting my pink body and those of my passengers to a strange-looking system I'd like some objective and verifiable proof. I use a D1 and I think the modern pulse systems are magnificent - probably - at least as far as their use up to 18,000 with cannulae are concerned (but I cannot prove this - no releasable data). They have been in use for many years with no apparent untoward events. I am more concerned, however, at how the pulsed systems perform with mask systems above 18,000. Several of the mask systems I have seen in use appear to me to be dangerous regardless of the system used to deliver the oxygen. Again - no data. It doesn't make sense to me that a pulsed system should work with the sorts of reservoir-style masks that should be used at altitude. But I may be wrong, that is why I am asking if anyone out there has any information/data (preferable data) that could answer these questions. I have asked several other companies but they (rightly) regard what they have done (or possibly not done)as proprietary information. So - no objective information. I agree - pulse oximetry should solve the problem, IF one doesn't consider the realities of what pilots are ACTUALLY liable to do as far as non-use. Will every pilot who might go over 14,000 buy a pulse ox just in case? Probably not. Is it realistic for an FBO to rent out a pulse ox? Probably not. It seems more sensible to me to make sure the claims manufacturers make are objectively valid, then use the pulse-ox (if you have one, didn't leave it at home, didn't realize how good the thermals/wave were so didn't bring it along, its battery is OK, the ambient temp isn't frigid, you have a glove over your finger, etc., etc.) to make sure. In summary - In my opinion FAA mandates are way, way out of date and should be brought up to modern standards reflecting pulse oximetry. Studies need to be done in an open published manner documenting that manufactured equipment will produce non-hypoxic saturation levels in every day use for "most" pilots. In my opinion it isn't enough for a manufacturer to say "yep, we haven't flight-tested the gadget because we don't have to, but trust me - it is OK". Please let me know what you think in a helpful manner - after all I am only trying to make flying safer for all of us and I have no hidden agendas. David Reed M.D, Boulder CO |
#8
|
|||
|
|||
Blank
Dave, keep your eye open for a surplus source of 0 - 2000 PSI panel mounted regulators like the MD-2, CRU-72/A, 29255-6B1 or 29255-6B-A1. These regulators are proving very hard to find. The masks that work with them are very easy to find though. Bill Daniels "Neptune" wrote in message ... Thanks, Bill - actually I was recently involved in a study at USAFA (I am a 1960 graduate) in which it was shown that jumpers could wear cannulae up to their highest jump altitude of 18,000 using "regular" nasal cannulae at flow reates of around 2.5. and not saturate at under 90%. Prior to this they had to wear a mask, and you can imagine the hassle of getting out of a mask with all the jump gear all over the place. They are awaiting approval from HQ but it seems like this will be approved. Just how low the flow could get and stil saturate at over 90% unfortunately was not part of the protocol. I did try to contact the Army Flight Surgeons at Fort Carson but didn't get any replies to my phone messages. Shortly after this I departed for six months in New Zealand so didn't follow it up. This summer there is going to be a series of studies starting at AFA level and going up to Pikes Peak where the Army has a facility. Unfortunately this will not involve oxygen delivery systems asit has to do moreso with exercise physiology, but I will get a chance to meet the Army docs out of their facility at Natick, Mass who will be coming to Colorado. So thanks for the thought - I'm onto this one, thought. Any other thoughts for getting data? Have any ides as to whether anyone has done objective medical research on nasal cannulae and pulsed systems, or even masks and pulsed systems over 18,000? Dave Reed M.D., Boulder CO. "Bill Daniels" wrote in message news:MsAqc.4202$zw.1832@attbi_s01... You didn't mention if you had contacted the US military. They have an interest in seeing to it that their expensively trained personnel operating even more expensive equipment are performing at an optimum level. They also spend a lot of money on aeromedicine. I would expect that the Pentagon has public access records on their research. Start with the Virtual Naval Hospital. ( www.vnh.org search keyword "oxygen") It's possibly worth noting that no military oxygen system uses a cannula. Constant flow oxygen systems were discarded early in WWII when they were found inadequate above 18,000 feet. If you need oxygen as a military pilot today you will use a well fitted and sealed full-face mask connected to a pressure demand regulator. Anything less is inadequate. My reading of the literature indicates that pressure demand systems have been extensively tested at cabin altitudes up to 45,000 and found safe for healthy personnel. I have used both a cannula and a pressure demand system with a pulse oxymeter on wave flights. I found that the constant flow cannula system could not maintain a steady SpO2 with fluctuations above and below 90% but the pressure demand system delivered a rock solid 98% - 99% SpO2 readings at all altitudes. I'd like to see all wave flights use pressure demand O2 systems. Bill Daniels "Neptune" wrote in message ... Thanks to all who have replied to my previous messages. I admit I may not have been clear in why I am asking for feedback/information on flight testing of oxygen delivery systems. Apologies. Let me explain and ask for HELPFUL feedback. My concern is with the lack of scientifically-valid information available on the performance of light aircraft/glider oxygen systems. As an anesthesia doc (and former USAF fighter jock) I feel have some background in this area. In addition I have done significant medical literature research, been to CAMI to speak with the honchos there, had contact with the Brits, in-person chats with several New Zealanders at Omarama, etc. When I started to fly gliders out of Boulder several years ago I was surprised at the masks that pilots were taking up into the wave. Having had a cardiac bypass operation myself perhaps I was unusually concerned. I began to do National Library of Medicine research and found no published studies that dealt with the use of nasal cannulae or masks performance at altitude. I then got access (with permission from the CEO as long as I didn't mention the name) to company data that had to do with a flight to 18,000 during which 6 subjects using an A4 had pulse-ox readings taken at FAA-mandated flow rates. In the process the Oxymizer was compared with the "regular" cannula. At each altitude from 13,000 to 18,000 at least one subject was hypoxic with one subject, at 18,000, saturating at 78% on an Oxymizer at the FAA rate of 1.46. All six were supposedly all fit and healthy people. One had a bypass operation, but he was never one of the hypoxic ones. No physician had been involved. I then discovered that FAA mandates oxygen flow rates only - not oxygen saturations. The mandates, so I discovered, are at least 40 years out of date and relate to tracheal oxygen measurements - two levels of medical monitoring sophistication out of date (arterial blood gases, pulse oximetry). Of course the modern "pulse" systems are not mentioned. I then discovered that there are no FAA mandates requiring an oxygen delivery system to meet any specific performance requirements as long as it is "portable". I noticed that manufacturers were making remarkable claims for the oxygen-saving abilities of their systems but - as I discussed above - not based on any form of objective peer-reviewed published study. It seemed to me that I could show that the A4 at FAA rates probably produced some hypoxia, and the Oxymizer probably did not have the characteristics claimed for it, but how about "pulsed" systems and mask performance over 18,000? Please note - I am not saying they are wrong - but before trusting my pink body and those of my passengers to a strange-looking system I'd like some objective and verifiable proof. I use a D1 and I think the modern pulse systems are magnificent - probably - at least as far as their use up to 18,000 with cannulae are concerned (but I cannot prove this - no releasable data). They have been in use for many years with no apparent untoward events. I am more concerned, however, at how the pulsed systems perform with mask systems above 18,000. Several of the mask systems I have seen in use appear to me to be dangerous regardless of the system used to deliver the oxygen. Again - no data. It doesn't make sense to me that a pulsed system should work with the sorts of reservoir-style masks that should be used at altitude. But I may be wrong, that is why I am asking if anyone out there has any information/data (preferable data) that could answer these questions. I have asked several other companies but they (rightly) regard what they have done (or possibly not done)as proprietary information. So - no objective information. I agree - pulse oximetry should solve the problem, IF one doesn't consider the realities of what pilots are ACTUALLY liable to do as far as non-use. Will every pilot who might go over 14,000 buy a pulse ox just in case? Probably not. Is it realistic for an FBO to rent out a pulse ox? Probably not. It seems more sensible to me to make sure the claims manufacturers make are objectively valid, then use the pulse-ox (if you have one, didn't leave it at home, didn't realize how good the thermals/wave were so didn't bring it along, its battery is OK, the ambient temp isn't frigid, you have a glove over your finger, etc., etc.) to make sure. In summary - In my opinion FAA mandates are way, way out of date and should be brought up to modern standards reflecting pulse oximetry. Studies need to be done in an open published manner documenting that manufactured equipment will produce non-hypoxic saturation levels in every day use for "most" pilots. In my opinion it isn't enough for a manufacturer to say "yep, we haven't flight-tested the gadget because we don't have to, but trust me - it is OK". Please let me know what you think in a helpful manner - after all I am only trying to make flying safer for all of us and I have no hidden agendas. David Reed M.D, Boulder CO |
#9
|
|||
|
|||
One issue that I haven't seen mentioned in these posts is the fact
that demand end-tidal pulse devices like the Mountain High assume that you are breathing through your nose. They also assume that you clear the physiogical dead-space sufficiently with each tidal breath to deliver a reasonable concentration of O2 to the alveoli. The only mammals I'm aware of that are obligate nose-breathers are rodents, so, unless you're a rat, you've got one more reason to use that oxymeter. The Nonin Company showed some neat recording oxymeters with alarms at a meeting I'm attending and at least one company showed a combination ECG monitor and oxymeter on a single PCMCIA card which fits in the accessory backpack of an IPAQ. These devices cost less than a grand. A bit of programing should be capable of integrating this information and alarm ranges based on it with existing flight software like Winpilot which more and more folks are using as primary flight displays. If you store the information, you've got a cheap, quick and dirty research project. There's no doubt that pressure-demand systems using fitted masks are the way to go for flights to high altitude(18,000 feet). My concern is with what happens down low (between 5,000 and 18,000 feet). My suspicion and concern is that more than a few pilots are, at relatively low altitudes, desaturated sufficient to experience measurable performance decrements. Raphael Warshaw Claremont, CA PS: According to my oxymeter, my Mountain High device maintains my O2 sat at 94-96 % at altitudes up to 16,400 ft which is as high as I've gotten with it. This is, however, limited data on a single individual; your results may vary. "Bill Daniels" wrote in message news:hMusc.111328$xw3.6407916@attbi_s04... Blank Dave, keep your eye open for a surplus source of 0 - 2000 PSI panel mounted regulators like the MD-2, CRU-72/A, 29255-6B1 or 29255-6B-A1. These regulators are proving very hard to find. The masks that work with them are very easy to find though. Bill Daniels "Neptune" wrote in message ... Thanks, Bill - actually I was recently involved in a study at USAFA (I am a 1960 graduate) in which it was shown that jumpers could wear cannulae up to their highest jump altitude of 18,000 using "regular" nasal cannulae at flow reates of around 2.5. and not saturate at under 90%. Prior to this they had to wear a mask, and you can imagine the hassle of getting out of a mask with all the jump gear all over the place. They are awaiting approval from HQ but it seems like this will be approved. Just how low the flow could get and stil saturate at over 90% unfortunately was not part of the protocol. I did try to contact the Army Flight Surgeons at Fort Carson but didn't get any replies to my phone messages. Shortly after this I departed for six months in New Zealand so didn't follow it up. This summer there is going to be a series of studies starting at AFA level and going up to Pikes Peak where the Army has a facility. Unfortunately this will not involve oxygen delivery systems asit has to do moreso with exercise physiology, but I will get a chance to meet the Army docs out of their facility at Natick, Mass who will be coming to Colorado. So thanks for the thought - I'm onto this one, thought. Any other thoughts for getting data? Have any ides as to whether anyone has done objective medical research on nasal cannulae and pulsed systems, or even masks and pulsed systems over 18,000? Dave Reed M.D., Boulder CO. "Bill Daniels" wrote in message news:MsAqc.4202$zw.1832@attbi s01... You didn't mention if you had contacted the US military. They have an interest in seeing to it that their expensively trained personnel operating even more expensive equipment are performing at an optimum level. They also spend a lot of money on aeromedicine. I would expect that the Pentagon has public access records on their research. Start with the Virtual Naval Hospital. ( www.vnh.org search keyword "oxygen") It's possibly worth noting that no military oxygen system uses a cannula. Constant flow oxygen systems were discarded early in WWII when they were found inadequate above 18,000 feet. If you need oxygen as a military pilot today you will use a well fitted and sealed full-face mask connected to a pressure demand regulator. Anything less is inadequate. My reading of the literature indicates that pressure demand systems have been extensively tested at cabin altitudes up to 45,000 and found safe for healthy personnel. I have used both a cannula and a pressure demand system with a pulse oxymeter on wave flights. I found that the constant flow cannula system could not maintain a steady SpO2 with fluctuations above and below 90% but the pressure demand system delivered a rock solid 98% - 99% SpO2 readings at all altitudes. I'd like to see all wave flights use pressure demand O2 systems. Bill Daniels "Neptune" wrote in message ... Thanks to all who have replied to my previous messages. I admit I may not have been clear in why I am asking for feedback/information on flight testing of oxygen delivery systems. Apologies. Let me explain and ask for HELPFUL feedback. My concern is with the lack of scientifically-valid information available on the performance of light aircraft/glider oxygen systems. As an anesthesia doc (and former USAF fighter jock) I feel have some background in this area. In addition I have done significant medical literature research, been to CAMI to speak with the honchos there, had contact with the Brits, in-person chats with several New Zealanders at Omarama, etc. When I started to fly gliders out of Boulder several years ago I was surprised at the masks that pilots were taking up into the wave. Having had a cardiac bypass operation myself perhaps I was unusually concerned. I began to do National Library of Medicine research and found no published studies that dealt with the use of nasal cannulae or masks performance at altitude. I then got access (with permission from the CEO as long as I didn't mention the name) to company data that had to do with a flight to 18,000 during which 6 subjects using an A4 had pulse-ox readings taken at FAA-mandated flow rates. In the process the Oxymizer was compared with the "regular" cannula. At each altitude from 13,000 to 18,000 at least one subject was hypoxic with one subject, at 18,000, saturating at 78% on an Oxymizer at the FAA rate of 1.46. All six were supposedly all fit and healthy people. One had a bypass operation, but he was never one of the hypoxic ones. No physician had been involved. I then discovered that FAA mandates oxygen flow rates only - not oxygen saturations. The mandates, so I discovered, are at least 40 years out of date and relate to tracheal oxygen measurements - two levels of medical monitoring sophistication out of date (arterial blood gases, pulse oximetry). Of course the modern "pulse" systems are not mentioned. I then discovered that there are no FAA mandates requiring an oxygen delivery system to meet any specific performance requirements as long as it is "portable". I noticed that manufacturers were making remarkable claims for the oxygen-saving abilities of their systems but - as I discussed above - not based on any form of objective peer-reviewed published study. It seemed to me that I could show that the A4 at FAA rates probably produced some hypoxia, and the Oxymizer probably did not have the characteristics claimed for it, but how about "pulsed" systems and mask performance over 18,000? Please note - I am not saying they are wrong - but before trusting my pink body and those of my passengers to a strange-looking system I'd like some objective and verifiable proof. I use a D1 and I think the modern pulse systems are magnificent - probably - at least as far as their use up to 18,000 with cannulae are concerned (but I cannot prove this - no releasable data). They have been in use for many years with no apparent untoward events. I am more concerned, however, at how the pulsed systems perform with mask systems above 18,000. Several of the mask systems I have seen in use appear to me to be dangerous regardless of the system used to deliver the oxygen. Again - no data. It doesn't make sense to me that a pulsed system should work with the sorts of reservoir-style masks that should be used at altitude. But I may be wrong, that is why I am asking if anyone out there has any information/data (preferable data) that could answer these questions. I have asked several other companies but they (rightly) regard what they have done (or possibly not done)as proprietary information. So - no objective information. I agree - pulse oximetry should solve the problem, IF one doesn't consider the realities of what pilots are ACTUALLY liable to do as far as non-use. Will every pilot who might go over 14,000 buy a pulse ox just in case? Probably not. Is it realistic for an FBO to rent out a pulse ox? Probably not. It seems more sensible to me to make sure the claims manufacturers make are objectively valid, then use the pulse-ox (if you have one, didn't leave it at home, didn't realize how good the thermals/wave were so didn't bring it along, its battery is OK, the ambient temp isn't frigid, you have a glove over your finger, etc., etc.) to make sure. In summary - In my opinion FAA mandates are way, way out of date and should be brought up to modern standards reflecting pulse oximetry. Studies need to be done in an open published manner documenting that manufactured equipment will produce non-hypoxic saturation levels in every day use for "most" pilots. In my opinion it isn't enough for a manufacturer to say "yep, we haven't flight-tested the gadget because we don't have to, but trust me - it is OK". Please let me know what you think in a helpful manner - after all I am only trying to make flying safer for all of us and I have no hidden agendas. David Reed M.D, Boulder CO -- |
#10
|
|||
|
|||
Raphael Warshaw wrote:
One issue that I haven't seen mentioned in these posts is the fact that demand end-tidal pulse devices like the Mountain High assume that you are breathing through your nose. Only when you are using a cannula. If you use a mask, as required by the FAA above 18,000', you may also breathe through your mouth. A mask should have come with your EDS unit. They also assume that you clear the physiogical dead-space sufficiently with each tidal breath to deliver a reasonable concentration of O2 to the alveoli. I don't even know what "demand end-tidal" and "tidal breath" mean, but I think they assume you take a normal breath, rather than a shallow one. Is that what you mean? The only mammals I'm aware of that are obligate nose-breathers are rodents, so, unless you're a rat, you've got one more reason to use that oxymeter. The Nonin Company showed some neat recording oxymeters with alarms at a meeting I'm attending and at least one company showed a combination ECG monitor and oxymeter on a single PCMCIA card which fits in the accessory backpack of an IPAQ. These devices cost less than a grand. A bit of programing should be capable of integrating this information and alarm ranges based on it with existing flight software like Winpilot which more and more folks are using as primary flight displays. If you store the information, you've got a cheap, quick and dirty research project. The Minolta Pulsox3 series is available with recording and alarms for about $750, the last time I checked (www.minolta.com). There's no doubt that pressure-demand systems using fitted masks are the way to go for flights to high altitude(18,000 feet). Are these systems supplying oxygen in the mask at above ambient pressure, even at low altitudes (18,000-24,000 feet)? My concern is with what happens down low (between 5,000 and 18,000 feet). My suspicion and concern is that more than a few pilots are, at relatively low altitudes, desaturated sufficient to experience measurable performance decrements. Pat McLaughlin, the owner of Mountain High oxygen, told me they first realized that when they began selling oximeters. Some people would call to complain the oximeter wasn't working properly, but the usual reason turned out to be their low saturation at low altitudes (like in Florida, in a particularly bad case). -- Change "netto" to "net" to email me directly Eric Greenwell Washington State USA |
Thread Tools | |
Display Modes | |
|
|
Similar Threads | ||||
Thread | Thread Starter | Forum | Replies | Last Post |
What's minimum safe O2 level? | PaulH | Piloting | 29 | November 9th 04 07:35 PM |
Need oxygen information | Neptune | Soaring | 3 | May 10th 04 06:06 AM |
Need oxygen information | Neptune | Soaring | 4 | May 6th 04 08:11 PM |
hi alt oxygen | Arquebus257WeaMag | Military Aviation | 62 | March 28th 04 04:57 PM |
Catastrophic Decompression; Small Place Solo | Aviation | Piloting | 193 | January 13th 04 08:52 PM |