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Increased Skin Cancer Rates in Pilots and Air Crews
I made my 6 month check up visit to my skin doctor yesterday, and in
our conversations I mentioned I was a glider pilot and was trying my best to not have any more malignancies. I was pleased that nothing was found that needed to be cut off (for a change), but still had the usual substantial number of spots that got sprayed with liquid nitrogen to kill "pre cancers". She mentioned that a substantial increase in melanoma and other skin cancers being found in pilots was "quite the buzz" among dermatologists right now. It makes sense that glider pilots might have an even greater tendency for such than the general pilot community, as we are exposed at the airport and in the air. I went to the physics department at the college where I used to teach and picked up a device for testing for UV, placed it inside my canopy, and it lit up like a light bulb...LOTS of UV coming through. The entire UV spectrum is hazardous to our skin, along with gamma rays from space. Most sun screen on the market does not filter out all UV, so buyer beware. Handily, there are now some clothing products like long sleeve shirts on the market that are claiming an SPF of 35 that should help protect much of your upper torso, and gloves and hats, too. Its not just mental lapses in your flying that can get you pushing daisies, although skin cancer is not as instantaneous. Older folks are more apt to be affected, yet all ages are elligible to be afflicted. |
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Increased Skin Cancer Rates in Pilots and Air Crews
Bob,
Increased cancer rates in commercial pilots and crew are likely due to higher exposures to radiation (cosmic rays) at high altitude for long periods of time rather than UV light. Additionally, when these rays strike the metal skin of the aircraft, they scatter, changing energy levels and actually producing more damage to tissue than direct exposure. In contrast, glider pilots don't usually fly that high, or for as long, and don't have that metal skin effect to deal with. As far as the UV exposure goes, it would be helpful to see some readings from the meter, measured both inside and outside the cockpit. Typically, clear plexiglass will knock out 50-70% of UV from the sun depending on thickness, etc. (see http://www.rplastics.com/plexiglass-transmittance.html for example) Simple plastic sunglasses can be made to absorb harmful UV rays in the same way. Of course we must still wear protection, (mostly from our exposure on the ground when putting the bird together) but we don't want to leave the impression that flying gliders significantly increases your chances of getting skin cancer. Matt |
#3
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Increased Skin Cancer Rates in Pilots and Air Crews
Bob wrote:
Most sun screen on the market does not filter out all UV, so buyer beware. Handily, there are now some clothing products like long sleeve shirts on the market that are claiming an SPF of 35 that should help protect much of your upper torso, and gloves and hats, too. Consumer Reports and many other reputable sources says it does an excellent job if it's spf 30 and higher, and properly applied, even it it doesn't get "all" of it. You didn't mention what kind of UV meter you used, and "lighting up like a light bulb" doesn't tell us anything. Was it measuring UVB, or UVA, both? and what fraction of each? What percentage reduction did the canopy provide? The type of plastic and it's tinting can make an important difference: for example, the canopy on my previous glider blocked all the UVB and over 70% of the UVA as measured with a spectrophotometer, but not all canopies are not that good. I have a "sports" UV meter that is calibrated in UV index. It shows essentially zero UV coming through the canopy on my ASH 26 E. While it's not a calibrated spectrophotometer, it suggests sitting inside the cockpit is a lot safer than standing around outside it. Practically speaking, I think if you are properly protected with clothing and sunscreen for the rigging and waiting in the towline, you have more than sufficient protection while flying. -- Eric Greenwell - Washington State, USA (netto to net to email me) |
#4
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Increased Skin Cancer Rates in Pilots and Air Crews
On Mar 25, 9:10*pm, Eric Greenwell wrote:
Bob wrote: Most sun screen on the market does not filter out all UV, so buyer beware. * Handily, there are now some clothing products like long sleeve shirts on the market that are claiming an SPF of 35 that should help protect much of your upper torso, and gloves and hats, too. * Consumer Reports and many other reputable sources says it does an excellent job if it's spf 30 and higher, and properly applied, even it it doesn't get "all" of it. You didn't mention what kind of UV meter you used, and "lighting up like a light bulb" doesn't tell us anything. Was it measuring UVB, or UVA, both? and what fraction of each? What percentage reduction did the canopy provide? The type of plastic and it's tinting can make an important difference: for example, the canopy on my previous glider blocked all the UVB and over 70% of the UVA as measured with a spectrophotometer, but not all canopies are not that good. I have a "sports" UV meter that is calibrated in UV index. It shows essentially zero UV coming through the canopy on my ASH 26 E. While it's not a calibrated spectrophotometer, it suggests sitting inside the cockpit is a lot safer than standing around outside it. Practically speaking, I think if you are properly protected with clothing and sunscreen for the rigging and waiting in the towline, you have more than sufficient protection while flying. -- Eric Greenwell - Washington State, USA (netto to net to email me) I use a Littlemore Scientific UV meter that was developed at Oxford University to measure UV transmission through different materials and in spaces where art is displayed and I believe it to be very accurate. It reads out in mW/M² or µW/lumen and it is mW/M² we are concerned with here. I once took it out to the airport and expected to see very little UV transmission through the canopies, based on past experience with UV through plastic. What I found was that mostly the nicer newer gliders had canopies that stopped almost all UV, but some of the older gliders had canopies that let in more than seemed safe, there was an LS1 with a replacement section that was transparent to UV. The spectrum of UV you want to block is everything above 420nm or so if possible. Tinting can be misleading as I have seen tinted glass before that reduced visible light without affecting the UV and that is a worst case situation, as the tinting leads you to think there is protection when there isn't. However in glider canopies I suspect tinting means a higher quality product and that would tend to have more UV doping. I don't think the manufacturers are primarily concerned with human health as much as the life span of the plastic, the addition of UV doping agents protects the plastic from the sunlight and blocks UV as a side benefit. As has been stated the problem is going to be while rigging and not flying for most of us in newer gliders. Brian Brian Brian |
#5
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Increased Skin Cancer Rates in Pilots and Air Crews
The portion of the UV spectrum that causes burning is 320 nm and
below. Plexiglas filters 98-99% of these frequencies. I have literally spent hours in my DG at altitudes above 15k w/o any sunburn whatsoever. I have, however, been severly sunburned on a mountain at a few hours under 9k. Your greatest UV exposure is the time you spend on the ramp, before and after you fly. Bewa long sleeve shirts may be a poor UV filter, so back it up with sunscreen. You can improve your clothings protection with Sunguard detergent (https:// sunguardsunprotection.com). Tom (On Mar 25, 11:14*pm, brianDG303 wrote: On Mar 25, 9:10*pm, Eric Greenwell wrote: Bob wrote: Most sun screen on the market does not filter out all UV, so buyer beware. * Handily, there are now some clothing products like long sleeve shirts on the market that are claiming an SPF of 35 that should help protect much of your upper torso, and gloves and hats, too. * Consumer Reports and many other reputable sources says it does an excellent job if it's spf 30 and higher, and properly applied, even it it doesn't get "all" of it. You didn't mention what kind of UV meter you used, and "lighting up like a light bulb" doesn't tell us anything. Was it measuring UVB, or UVA, both? and what fraction of each? What percentage reduction did the canopy provide? The type of plastic and it's tinting can make an important difference: for example, the canopy on my previous glider blocked all the UVB and over 70% of the UVA as measured with a spectrophotometer, but not all canopies are not that good. I have a "sports" UV meter that is calibrated in UV index. It shows essentially zero UV coming through the canopy on my ASH 26 E. While it's not a calibrated spectrophotometer, it suggests sitting inside the cockpit is a lot safer than standing around outside it. Practically speaking, I think if you are properly protected with clothing and sunscreen for the rigging and waiting in the towline, you have more than sufficient protection while flying. -- Eric Greenwell - Washington State, USA (netto to net to email me) I use a *Littlemore Scientific UV meter that was developed at Oxford University to measure UV transmission through different materials and in spaces where art is displayed and I believe it to be very accurate. It reads out in mW/M² or µW/lumen and it is mW/M² we are concerned with here. I once took it out to the airport and expected to see very little UV transmission through the canopies, based on past experience with UV through plastic. What I found was that mostly the nicer newer gliders had canopies that stopped almost all UV, but some of the older gliders had canopies that let in more than seemed safe, there was an LS1 with a replacement section that was transparent to UV. The spectrum of UV you want to block is everything above 420nm or so if possible. Tinting can be misleading as I have seen tinted glass before that reduced visible light without affecting the UV and that is a worst case situation, as the tinting leads you to think there is protection when there isn't. However in glider canopies I suspect tinting means a higher quality product and that would tend to have more UV doping. I don't think the manufacturers are primarily concerned with human health as much as the life span of the plastic, the addition of UV doping agents protects the plastic from the sunlight and blocks UV as a side benefit. As has been stated the problem is going to be while rigging and not flying for most of us in newer gliders. Brian Brian Brian- Hide quoted text - - Show quoted text - |
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