The incidence of skin cancer, especially melanoma, has been increasing in recent years, at a constant and alarming rate in Europe.1 In Australia, the country with the highest rates of skin cancer in the world, the rates of this disease are increasing and may continue to increase in the future owing to longer heatwaves with higher temperatures.2

Exposure to sunlight is the most important causal factor,3 and 2 sunlight-exposure patterns have been identified: occupational, more associated with chronic exposure to solar UV radiation (UVR); and recreational, more associated with sporadic intense exposure and a history of sunburn.4,5

One of the factors that increases overexposure to UVR is practising sport outdoors.6 These athletes spend long periods outdoors training and competing and, furthermore, the sweating caused by physical exertion may facilitate solar damage by producing a lensing effect of the UVR on the skin, thereby increasing the risk of sunburn and skin cancer.7 Training in the middle of the day, altitude with mountain runners, the lack of shade, and the type of sports clothing used in each training session are other factors that increase risk.8 Several studies have shown greater risk of developing skin cancer, principally melanoma, in marathon runners.9 Markers for risk of skin cancer have even been identified, such as the presence of lentigo and atypical nevus.10

It is estimated that up to 80% of cases of skin cancer could be prevented by reducing exposure to the sun by using protective means such as sunscreen, hats, sunglasses, and long-sleeved shirts, when activities are carried out outdoors on sunny days.11

Outdoor sports such as athletics are increasingly gaining adepts, from short races to the current trend of middle and long distance. Mountain or trail ultramarathons are a challenge for many runners, as they combine long distances with the difficulty accumulated climbs. In this type of race, exposure to solar radiation is increased by altitude. Moreover, these races mostly take place in the spring and summer months, when the ultraviolet index (UVI) reaches very high and extreme values.12 During the summer, in our latitudes, athletes can receive UVR doses equivalent to 22 minimal erythema doses (MED) for Fitzpatrick skin type II at sea level, which, with the added factor of altitude, may exceed 25 MED.13

The object of this study is to evaluate the knowledge, attitudes, and behaviors associated with exposure to solar radiation and sun protection in runners who take part in a mountain ultramarathon and to analyze the risk factors for suffering from sunburn.

Of the 3200 registered runners who took part in the different trials, 657 completed the questionnaire and were analyzed, giving a participation rate of 20.53%. A total of 8 maximum UVI peaks occurred during the race, even though the day was cloudy. The UVR dose throughout the day with erythematous effect was 1575 J/m2, which, due to cloud cover, led to a total dose of 6.3 MED for Fitzpatrick type II.

A total of 72.1% (n = 474) were men and 27.9% (n = 183) were women, with a mean (SD) age of 39.71 (7.86) years. A total of 85.2% (n = 553) of the participants stated that they practice outdoor sports more than 30 days a year, 41.1% (n = 268) had been carrying out this activity for a mean of 5 years, and the mean (SD) maximum distance run was 45.60 (28.60) kilometers. Most of the runners identified their Fitzpatrick skin type as III-IV (78.6%, n = 510) and 45.1% (n = 296) acknowledged having suffered from sunburn in the previous year (Tables 1 and 2).

Regarding sun protection measures, sunglasses were the most commonly used method (74.7%), followed by sunscreen (sun protection factor [SPF] > 15) (61.9%), cap (52.2%), and, finally, long-sleeved clothing or long pants (7.4%) (Table 1). Of those surveyed, 90% (n = 599) were concerned about skin cancer associated with the sun and stated that it was a good idea to use sunscreen (Tables 3–5).

In the multivariate analysis, the variables that were statistically associated with a greater risk of suffering sunburn in the previous year were the following: age (OR, 0.98; 95% CI, 0.97−0.99; P < .001); low Fitzpatrick skin type (I and II) (OR, 2.06; 95% CI, 1.35–3.14; P = .001); being single, separated or widowed compared to married (OR, 1.66; 95% CI, 1.45–2.41; P = .007); training for 3 hours or more per day in the previous year (OR, 1.01; 95% CI, 1.00–1.01; P = .048), and use of shade (“I use a sunshade/I keep to the shade“) as a practical sun protection method (OR, 1.42; 95% CI, 1.00–2.01, P = .048). Favorable attitudes toward using sunscreen (OR, 1.59; 95% CI, 1.05–2.41, P = .027), and seeking the shade at midday (“in the middle of the day, I prefer to be in the shade than in the sun”) (OR, 1.83; 95% CI, 1.14–2.96; P = .013) acted as protective factors against sunburn. Having suffered sunburn was independent of the number of years running, distances run, and the use of sunscreen with an SPF of 15 or over and the other behaviors (except use of shade) and knowledge of sun protection studied.

The results of our study show that mountain ultramarathon athletes present appropriate knowledge and attitudes for good sun protection. Almost 50% of those surveyed, however, had suffered sunburn in the previous year, despite being aware of the risk involved.

The first study of sun exposure carried out in runners was in 1999, at the Ironman World championship in Hawaii. Three athletes who wore water-resistant sunscreen with an FPS of over 25 in an 8-to-10 -h race accumulated more than 30 times the recommended limit for UV exposure of UV 2000 J/m2.15 Moreover, Serrano et al16 showed that the groups at greatest risk of exposure to the sun among outdoor athletes included cycling, with a UVR and personal erythematous potential of up to 3224 J/m2, tennis with 1065 J/m2, and 5-day marathon (762 J/m2). The number of MED received by the participants in our race was 6.3 for Fitzpatrick skin type II, far from the 20 that would have been obtained for that day if the skies had been completely clear. As well as the UVR received during the race, it is important to determine the number of hours spent running (at least 1 entire day), the climb (between 450 and 6700 m), altitude (up to 3375 m) and the presence of snow at higher altitudes, which may cause sun reflection, and even the low temperature, which may cause runners to underestimate UVR intensity. Added to all of the above is the sweating, which increases the risk of sunburn.7 A study carried out in similar conditions to ours, in the Pyrenees in the summer months, showed that, in athletes who practice outdoor sport, the daily mean standard erythemal dose (SED) was 8.1 with a dosimeter located on the shoulder, exceeding the maximum personal exposure of 5 SED.17 Another study, the aim of which was to determine the relationship between the prevalence of melanoma, altitude, and daily erythemal dose, found an increase in the prevalence of melanoma and he daily erythemal dose with higher altitudes, with the highest increase from 700 m.18 This indicates that mountain trail runners receive very high doses of UVR with the corresponding risk.

To date, in Spain, most studies in this field have been carried out using health surveys, which measure self-informed behavior with respect to exposure behavior and sun protection practices during outdoor sporting activities. The sports that have been studied include skating,19 golf,20 water sports,21 beach sports,22 and mountain sports.23

As in other articles published on runners, our study found that younger age (<45 years) and not being married was associated with a higher risk of sunburn.24 The association with age may be due to the fact that middle-aged and older people are more aware and more concerned for their health, possibly due to a personal history and/or contact with people who suffer from diseases such as skin cancer.25 With regard to the association with marital status, people generally take care of each other, alerting their partner to healthy behavior.26

Other studies have found that being a woman and having a low Fitzpatrick skin type was associated with greater awareness of skin cancer.27 In this study, however, no differences were found between the sexes, although a greater risk of sunburn was found among runners with a low Fitzpatrick skin type. A study that evaluated the sun exposure behavior based on age, gender, educational level, and Fitzpatrick skin type, found that lower Fitzpatrick skin types had a greater tendency toward sunburn and that women tend to sunbathe more, but use more sunscreen.28

As in other studies, sunglasses were the sun protection method most widely used by runners (74.7%).24 Furthermore, the use of shade as a method and practice of sun protection was associated with a greater risk of sunburn. This may be because shade protects from incident radiation but not reflected radiation, making it less effective than sunscreen in preventing sunburn.29 With regard to sunscreen, 61.9% stated that they almost always use this method (SPF > 15), a similar percentage to those obtained in marathon runners and those who practice beach sports,9,22 but higher than in other studies carried out in runners.24,27 Nevertheless, we did not find that use of sunscreen was a protective factor against sunburn, though the attitude toward the use of sunscreen was. This may be due either to improper use of sunscreen (too little or too few applications) or to the use of inadequate sunscreens (not sweat-resistant). This highlights the need to design specific sunscreens for athletes, with a high SPF, easy to apply, requiring few repeat applications, sweat-resistant, and that do not irritate the mucosa (eyes and lips). Moreover, they must be safe and efficient because, as we have shown, the people with the highest risk of sunburn are those who train outdoors for three or more hours a day.

The limitations of this study include the fact that the participation rate is not very high (20.53%), although it is higher than those obtained to date in other previous studies in runners, with participation rates of between 4% and 19.5%.24,27 Participation bias may also have been a factor, as the survey was carried out among those people most aware of skin cancer, which would have influenced better sun protection practices and greater awareness of that disease. Nevertheless, the fact that 50% of those surveyed admitted to having suffered sunburn in the previous year would seem to be a worrying finding.

In conclusion, the results of this study indicate that the incidence of sunburn is high among long-distance mountain trail runners, even though their knowledge and behavior appear to be appropriate. Factors such as age, Fitzpatrick skin type, and even marital status, as well as the number of hours spent training, help us to identify the most vulnerable groups. Strategies need to be designed to improve sun protection behavior adapted to each sport. It would appear that campaigns are needed on both primary and secondary prevention, promoting events at which individual safety, including sun protection, is a requirement in order to take part, with the use of caps, appropriate clothing, sunglasses, and specific sunscreens. It is also important to encourage these elite athletes to act as genuine influencers, thereby reinforcing potentially positive behaviors.

This study was funded by the research group recognized by the Regional Government of Aragón B18-17D.

The authors declare that they have no conflicts of interest.