OBJECTIVES To describe the cancer pattern in a cohort of commercial pilots by follow up through the Icelandic Cancer Registry.
METHODS This is a retrospective cohort study of 458 pilots with emphasis on subcohort working for an airline operating on international routes. A computerised file of the cohort was record linked to the Cancer Registry by making use of personal identification numbers. Expected numbers of cancer cases were calculated on the basis of number of person-years and incidences of cancer at specific sites for men provided by the Cancer Registry. Numbers of separate analyses were made according to different exposure variables.
RESULTS The standardised incidence ratio (SIR) for all cancers was 0.97 (95% confidence interval (95% CI) 0.62 to 1.46) in the total cohort and 1.16 (95% CI 0.70 to 1.81) among those operating on international routes. The SIR for malignant melanoma of the skin was 10.20, 95% CI 3.29 to 23.81 in the total cohort and 15.63, 95% CI 5.04 to 36.46 in the restricted cohort. Analyses according to number of block-hours and radiation dose showed that malignant melanomas were found in the subgroups with highest exposure estimates, the SIRs were 13.04 and 28.57 respectively. The SIR was 25.00 for malignant melanoma among those who had been flying over five time zones.
CONCLUSIONS The study shows a high occurrence of malignant melanoma among pilots. It is open to discussion what role exposure of cosmic radiation, numbers of block-hours flown, or lifestyle factors—such as possible excessive sunbathing—play in the aetiology of cancer among pilots. This calls for further and more powerful studies. The excess of malignant melanoma among those flying over five time zones suggests that the importance of disturbance of the circadian rhythm should be taken into consideration in future studies.
- cancer registry
- malignant melanoma of the skin
- cosmic radiation
- time zones
Statistics from Altmetric.com
If you wish to reuse any or all of this article please use the link below which will take you to the Copyright Clearance Center’s RightsLink service. You will be able to get a quick price and instant permission to reuse the content in many different ways.
Recent retrospective cohort studies on commercial pilots have results which are inconsistent for risk of cancer.1-4 The first Canadian study showed increased mortalities for rectal and brain cancers and increased incidences of non-melanoma skin cancer, cancer of the brain, and Hodgkin's disease, and non-significant excess for malignant melanoma, and cancer of the rectum and prostate.1 In the second Canadian study the incidence of prostate cancer and acute myeloid leukaemia was increased and there was a non-significant excess for malignant melanoma, brain tumours, and non-chronic lymphoid leukaemia.2 In a study from Japan the mortality for all cancers was averaged, and apparently because of the small numbers in the study the rates were not calculated for different cancers.3 A recent study of British Airways pilots showed a standardised mortality ratio (SMR) of 333 for malignant melanoma, and non-significant excess of cancer of the brain, central nervous system, and colon.4
Other studies have indicated increased risk of cancer of the colon, brain, Hodgkin's disease, and malignant melanoma in pilots.5-7 Studies on air force and navy pilots have also indicated increased risk of some cancer sites notably testis, urinary bladder, Hodgkin's disease, and malignant melanoma.8 9However, these studies are in many ways not comparable with the studies on commercial airline pilots. Further evaluations on the relation between cancer of the brain and nervous system and exposure to radiation have been done in nested case-control studies in the United States air force.10 11
Occupational or occupationally related exposures of commercial airline pilots have been mentioned previously.12 The discussion has mainly focused on ionising radiation, engine exhaust gases, ozone, electromagnetic fields, and radiofrequency radiation; and lifestyle factors—such as irregular working hours, disturbance of the circadian rhythm, and easy access to tax free tobacco and alcohol. Cosmic radiation has been considered to be the most important risk factor.13-16 Cosmic radiation differs from the exposure in the nuclear industry because of a larger proportion of neutrons. Cancer risk among pilots has recently attracted attention and the possible causes have often been discussed. The well known risk of colorectal cancer among workers with sedentary occupations17 has been mentioned in former studies.2 5 The excess risk of malignant melanoma has also been explained by excessive sunbathing,6 7 but no study has yet documented the sun exposure habits of pilots, although the opportunity for intense sun bathing has been predicted for British and Swedish pilots.7
Studies on pilots have thus not yet shown consistent cancer patterns. This study was intended to contribute to the picture by following a cohort of commercial airline pilots in the Icelandic Cancer Registry.
The cohort comprised 458 men. These were all licensed commercial pilots in Iceland according to computerised files from the Icelandic Aviation Authority. These files and the other registers mentioned later were used to compile a computer file of pilots. Permission was obtained from the Data Protection Commission to produce this file and to link the records with other registers. Each pilot's personal identification number, which includes his date of birth, was obtained from the National Registry using the name, date of birth, and home address. A computerised member list from the Icelandic Pilots Association and the published Book of pilots(Flugmannatal)18 were complementary to the information from the aviation authority. The Book of pilots included information on the pilots' professional careers. The subjects entered the study the year they became licensed.
Altogether 265 pilots out of the total cohort had been employed by Icelandair, formerly Flugfélag Íslands (Icelandair, established 1937) and Loftlei∂ir (Icelandic Airlines, established 1944). Since 1945 Icelandair has had regular European routes and from 1952 regular routes to North America and low priced transatlantic routes. As the company records contained extensive information about the pilot's career the study is mainly restricted to those ever employed at Icelandair. The company records included information on name, date of birth, and personal identification number, as well as information on time of employment, type of aeroplanes, and periods when in use. For all pilots employed in the year 1985 and thereafter the company files included information on the type of aeroplane, and number of block-hours flown each year by each pilot. Block-hours is a measurement of the time interval from the time the aircraft starts to move under its own power until it comes to a stop at the destination airport.
The personal identification number of each subject was used in record linkage to the National Registry to confirm date of death or date of emigration. In that way it was possible to ascertain the vital status of the total cohort. A second record linkage was made to the Icelandic Cancer Registry, which is a nation wide registry of cancer cases, more than 94% of which have been histologically verified.19
Person-years were calculated for each pilot, starting on the first year in the study or 1955, the first year of the Cancer Registry, whichever came later and ending with his date of death or emigration or at the end of 1997, the last year in the follow up period, whichever came first.20 The number of expected cancers was calculated on the basis of person-years for each 5 year age category and the incidences of cancer for the male population in Iceland obtained from the Icelandic Cancer Registry. The ratio between observed and expected numbers of cancer or the standardised incidence ratio (SIR) was calculated with the 95% confidence interval (95% CI) assuming a Poisson distribution and making use of Byar's approximation.20
Detailed information was available for those pilots who had been employed by Icelandair. Through information from the company and the pilots' association it was possible to estimate number of block-hours per aircraft type for the 265 pilots ever employed by Icelandair including the 57 who had ended their employment before 1985. Separate analysis was performed dividing the cohort into three subgroups according to accumulated block-hours: those with ⩽4999 hours, 5000–9999 hours, and ⩾10 000 hours as shown in table1.
The cohort was also analysed according to estimated dose of cumulative cosmic radiation. The types of aircraft were classified into three categories and assigned the appropriate amount of μSv/block-hour according to measurements made on SAS pilots.15 The first category included all propeller driven aircraft allocated a radiation dose of 0.2 μSv/block-hour, the second category included Boeing 727 and 737 allocated 2 μSv/block-hour, and the third category included Douglas DC 8 and DC 10, and Boeing 757 allocated 3 μSv/block-hour. The accumulated mSv for each pilot was calculated by multiplying the amount of μSv/block-hour by number of block-hours for each aircraft type and adding the products. The cohort was divided into four subgroups according to the following cumulative radiation dose: ⩽2.9 mSv, 3–9.9 mSv, 10–19.9 mSv, and ⩾20 mSv as shown in table 1.
In an attempt to evaluate the possible relation between disturbance of circadian rhythm, jet lag, and risk of cancer the cohort was divided into two groups: those who had ever flown between Iceland and North America and those who had only flown within Europe disregarding the flight time or the periods flown. There is a 5 hour time difference between Iceland (Greenwich mean time), and the east coast of North America, (eastern time). Trips to Europe were usually made by the same aircrew back and forth on the same day, whereas a trip to North America was followed by a stop over for some days.
To eliminate the effect of selection of pilots into different exposure groups in the separate analyses, we allowed 5 years to elapse before the counting of person-years began, as was recommended by McDonaldet al.21
Table 2 shows the results for the total cohort. The SIR for all cancers was 0.97. There was an excess for malignant melanoma (SIR 10.20 and the 95% confidence interval (95% CI) did not include unity). There was also an excess of prostate cancer, kidney cancer, and brain cancer; however, the 95% CIs were wide and included unity. For many sites the observed cancers were few. The categories with only one cancer case are shown for the sake of completeness and to explain why cancer sites were subsequently selected.
As malignant melanoma of the skin was so prominent in the results we looked for the histological type of the other cancer sites in the Cancer Registry and found that histologically ocular cancer was also malignant melanoma.
One of the malignant melanomas of the skin was on the head and neck, two were on the trunk and two were located on the limbs. The histology of the melanomas were of two types, four were superficial spreading and one was the lentigenous type.
Table 3 shows the results when a restriction was made to those ever employed by Icelandair. Altogether there were 19 cancers versus 16.43 expected. There was an excess for the same cancer sites as in the total cohort. The SIR for malignant melanoma was 15.63.
Table 4 shows the SIR for all cancers and malignant melanoma according to accumulated numbers of block-hours. Among those who had 5000–9999 block-hours the SIR for all cancers was 3.05 and for malignant melanoma the SIR was 40. The SIR for malignant melanoma was also high among those with ⩾10 000 block-hours.
Table 5 shows the observed and expected numbers of all cancers and malignant melanoma among pilots ever employed by Icelandair according to estimated dose of additional accumulated radiation from flying. There was no malignant melanoma among those with the lowest radiation dose and the SIR for malignant melanoma was high among those with large doses of accumulated radiation.
Table 6 shows the observed and expected number of cases for selected cancer sites according to whether the pilots had ever flown over five time zones. Four malignant melanomas, the ocular melanoma, and the leukaemia occurred in the subgroup ever flying over five time zones.
The excess of malignant melanoma of the skin is the most significant finding in the present study. However, this is based on few cases and the 95% CIs are broad. This is consistent with results from the study of British Airways pilots4 and the two studies by Band et al 1 2 which showed excess of malignant melanoma although the excess was not significant in all analyses. Other studies have also found an excess of malignant melanoma among professional pilots6 7 and in all pilots.3 The United States air force aircrews had a high incidence of malignant melanoma compared with the population, however, they only had moderately increased rate for malignant melanoma compared with non-flying officers.8 In the study on cancer registration data in England and Wales and in Sweden, armed forces and military work were associated with a high risk of cutaneous melanoma in both registries7 indicating that internal comparison of groups in the army may hide a potential risk of malignant melanoma.
A high incidence of malignant melanoma has been reported among several professional occupations.7 22 It has been postulated that the high incidence may result from intermittent and intense sun bathing habits linked with high social class, high education, affluence, and the accessibility for sun holidays among groups usually working indoors.7 23 24 A recent study was without persuasive evidence of occupational risk factors.24 The SIR of 10–25 for malignant melanoma in the present study is remarkably high. In a recent review of the causes of malignant melanoma there was no study that showed such a high risk, however, there were also studies in which no relation between sun exposure and malignant melanoma was found.25 High incidence of malignant melanoma has been related to radiation in some occupational studies,26-29but not in the Los Alamos study,30 or in a mortality study of British radiation workers.31 The follow up time may have been too short in that study to detect skin cancer in general, and particularly as skin cancer and skin melanoma have good survival.32 Thompson et alreported that in an incidence study in Japanese survivors of the atomic bomb, non-melanoma skin cancer was associated with radiation exposure when followed up to 1987.32 However, malignant melanoma of the skin, which is at a much lower incidence among Japanese than among northern European people at similar latitudes is not mentioned.33 For that reason it may be difficult to evaluate the risk of malignant melanoma among survivors of the atomic bomb.
All the cases of malignant melanoma in this study were histologically verified and this is also the case for about 94% of all registered cancers in the Cancer Registry, thus misclassification of the malignant melanomas is unlikely. Possible underregistration of malignant melanoma in the registry has not been evaluated. The pilots often attend medical examinations which may lead to earlier diagnosis of the melanomas among the pilots than among the general population. If this is the case a better survival rate and spurious increased incidence may be found among the pilots.
The estimates of the cosmic radiation was done in a similar way as planned in a forthcoming study on pilots from all the Nordic countries. The subcohort at Icelandair had more radiation from employment than the male population in Iceland, but the subcohort and the reference population are considered to have sustained equal amounts of radiation from terrestrial sources. The estimated additional annual radiation dose in our study is 1-2 mSv which is lower than has been estimated for British Airways and United States pilots.13 14 16 This dose is well within the limits for occupational exposure to radiation of an adult.14 16
The incidence of malignant melanoma was highest among those who had flown routes that extended over five time zones indicating that disturbance of the circadian rhythm and thus the homeostasis of melatonin may play a part in the aetiology of melanomas. Melatonin has an oncostatic action and has been tried in the treatment of metastatic melanoma.34 35 The small size of our study does not allow us to separate between the theoretical synergism, or additive effect, of cosmic radiation, disturbed circadian rhythm, and the potential confounding of possible excessive sunbathing.
The excess of malignant melanoma in the present study is based on five cases, which were located on various body parts and of two histological types. It is therefore not possible to draw any conclusions from these cases according to different location or histology.36Nevertheless, it is the second largest series of malignant melanomas yet published in retrospective cohort studies among commercial pilots.1-3 Only the British Airways study had more cases of malignant melanoma.4
In this cohort there was no case of squamous cell cancer of the skin (0.51 expected); however, there were some cases of basal cell carcinoma not reported here as they are not regularly registered in the Cancer Registry and so the information on basal cell carcinoma is thus not considered to be reliable. In the first Canadian study there was an excess of non-melanoma skin cancer when squamous cell cancer and basal cell carcinoma were grouped together.1
Of course it is not possible to say much about the one case of malignant melanoma of the eye found among the pilots. In a recent case-control study of ocular melanoma, an increased risk, odds ratio 3.0, was found for occupational groups who had intense exposure to ultraviolet light.37 Other risk factors for ocular melanoma are welding exposure, work as chemists, blue eyes, blonde hair, and indoor work37 38 similar to malignant melanoma of the skin. Neither is it possible to draw any conclusion from the finding of one case of acute myeloid leukaemia among the pilots although this type of cancer has been associated with exposure to radiation in other studies.
The non-significant excess of cancer of the brain and prostate, and the deficit of lung cancer in the present study agree with former studies of commercial pilots.1 2 4 6 In the total cohort there was a small deficit of all cancers, and after the restriction was made to those ever employed at Icelandair there was a small excess for all cancers. This contradicts with what was found among Canadian, Japanese, and British Airways pilots,1-4 who showed deficits for all cancers.
The pilots who had emigrated from Iceland could not be followed up in the Cancer Registry. Altogether 66 people had emigrated during the follow up period, 15 from the restricted cohort. Most had emigrated after limited periods of employment. This happened during a time of business depression at the beginning of the 1970s. Only one pilot had emigrated after retirement. This emigration has thus diminished the detection power of the study in a similar way as those who died of aircraft accidents. Because of the comprehensive healthcare system in Iceland we are aware of an additional one case of malignant melanoma of the skin in a pilot after he had emigrated, which consequently was not included in the study.
The small size of the study is an obvious handicap leaving us with wide 95% CIs. The strength of the study is the use of the comprehensive population registers in Iceland, the National Registry, and the Icelandic Cancer Registry. The universal use of the identification numbers made it possible to ascertain vital status for all cohort members and could secure complete identification of cancer cases in the nationwide Cancer Registry. A high proportion of the cancer cases reported to the Cancer Registry were histologically verified as already mentioned.19 The use of incidence data provided an opportunity to study cancer—such as malignant melanoma—with a good survival, an advantage compared with mortality as an end point.
In conclusion the most important results of this study of pilots is the high rate of malignant melanoma in the cohort. The role of exposure to cosmic radiation, number of block-hours flown, and lifestyle factors—such as possible excessive sunbathing—in the aetiology of cancer among pilots is still open to discussion. This calls for further and more powerful studies. The excess of malignant melanoma among pilots flying over five time zones suggests that disturbance of the circadian rhythm should be taken into consideration in future studies.
We thank the staff and the management of Icelandair, the Icelandic Pilots Association, and the Icelandic Aviation Authority for allowing us access to their registers. Without their kind co-operation this study would not have been conducted.