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Vol. 102. Núm. 3.
Páginas 199-205 (abril 2011)
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Vol. 102. Núm. 3.
Páginas 199-205 (abril 2011)
Original Article
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Melanoma, Altitude, and UV-B Radiation
Melanoma, altitud y radiación UVB
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P. Aceituno-Maderaa,
Autor para correspondencia
pedroaceituno40@hotmail.com

Corresponding author.
, A. Buendía-Eismanb, F.J. Olmoc, J.J. Jiménez-Moleónd, S. Serrano-Ortegab
a Servicio de Dermatología, Hospital Clínico Universitario San Cecilio, Granada, Spain
b Departamento de Dermatología, Facultad de Medicina, Universidad de Granada, Spain
c Departamento de Física Aplicada, Facultad de Ciencias, Universidad de Granada, Granada, Spain
d Departamento de Medicina Preventiva y Salud Pública, Facultad de Medicina, Universidad de Granada, Granada, Spain
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Abstract
Background and objectives

UV radiation is the main modifiable risk factor for the development of cutaneous melanoma. Many people in the Spanish province of Granada live at high altitudes and, therefore, receive high doses of UV-B radiation. The aims of this study were to assess the possible association between melanoma and altitude and to measure the daily erythemal dose at different altitudes.

Material and methods

An epidemiological study was carried out between 1982 and 2007 to assess the relationship between altitude, daily erythemal dose, and the prevalence of melanoma. We calculated the prevalence of melanoma in patients with a clinical and histological diagnosis of melanoma at Hospital Clínico Universitario San Cecilio in Granada, Spain. All individuals were required to be residents of the province of Granada in order to be included in the study. The prevalence of melanoma was calculated for altitude intervals of 100m. Daily erythemal dose was estimated using measures of UV-B radiation obtained with pyranometers at altitudes of 0, 680, 1200, and 3398 m above sea level during the Evaluation of the Effects of Elevation and Aerosols on UV Radiation (VELETA) 2002 field campaign.

Results

The highest prevalence of melanoma was found between 1400 and 1499m above sea level (the interval at which the highest settlements are found), with a rate of 2.36 cases per 1000 inhabitants (95% confidence interval, 0.64–6.03). Above 700m, the daily erythemal dose increased exponentially with increasing altitude.

Conclusions

We observed a tendency toward increased prevalence of melanoma at higher altitude, with higher prevalences observed beyond 700m above sea level.

Keywords:
Melanoma incidence
Altitude
UVB radiation
Resumen
Introducción

La radiación ultravioleta (UV) es el principal factor de riesgo ambiental modificable en el desarrollo del melanoma cutáneo. Muchas de las poblaciones de nuestra provincia están situadas a gran altitud, recibiendo elevadas dosis de radiación UVB. Nuestro objetivo es analizar una posible asociación entre melanoma y altitud y medir la dosis eritemática diaria a diferentes altitudes.

Material y métodos

Realizamos un estudio ecológico, en el que se trató de relacionar la prevalencia de melanoma, la altitud y la dosis eritemática diaria. El periodo de estudio comprendió los últimos 25 años (1982–2007). Calculamos la prevalencia de melanoma con aquellos pacientes diagnosticados clínica e histológicamente de melanoma, procedentes del Hospital Clínico Universitario “San Cecilio”. Los individuos del estudio debían tener su lugar de residencia en la provincia de Granada. Calculamos la prevalencia de melanoma a intervalos de 100m de altitud y estimamos la dosis eritemática diaria a partir de las medidas de radiación UVB realizadas con piranómetros situados a 0, 680, 1.200, 2.100 y 3.398m de altitud durante la campaña VELETA-2002.

Resultados

La prevalencia de melanoma más alta está situada en el intervalo comprendido entre los 1.400–1.499m a.s.l (intervalo con núcleos de población situados a mayor altitud) con 2,36 por 1.000 habitantes IC al 95% (0,64–6,03) por 1.000 habitantes. A partir de los 700m de altura la dosis eritemática diaria aumenta de forma exponencial a medida que ascendemos en altitud.

Conclusiones

Este estudio encuentra una tendencia al aumento en la prevalencia de melanoma al ascender en altitud, siendo más intenso a partir de los 700m a.s.l.

Palabras clave:
Incidencia melanoma
Altitud
Radiación UVB
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References
[1.]
C.B. Ko, S. Walton, K. Keczkes, H.P. Bury, C. Nicholson.
The emerging epidemic of skin cancer.
Br J Dermatol, 130 (1994), pp. 269-272
[2.]
H.M. Gloster Jr., D.G. Brodland.
The epidemiology of skin cancer.
Dermatol Surg, 22 (1996), pp. 217-226
[3.]
S. Sáenz, J. Conejo-Mir, A. Cayuela.
Epidemiología del melanoma en España.
Actas Dermosifiliogr, 96 (2005), pp. 411-418
[4.]
J.M. Elwood, J. Jopson.
Melanoma and sun exposure: an overview of published studies.
Int J Cancer, 73 (1997), pp. 198-203
[5.]
M.A. Tucker, A.M. Goldstein.
Melanoma etiology: where are we?.
Oncogene, 22 (2003), pp. 3042-3052
[6.]
M.P. Curado, B. Edwards, H.R. Shin, H. Storm, J. Ferlay, M. Heanue, et al.
Cancer Incidence in Five Continents. Vol. IX. N. ° 160.
IARC Scientific Publications;, (2007),
[7.]
M. Moehrle, C. Garbe.
Does mountaineering increase the incidence of cutaneous melanoma?.
Dermatology, 199 (1999), pp. 201-203
[8.]
E. Richtig, A. Berghold, G. Schwantzer, A. Ott, F. Wolfelmaier, B. Karner, et al.
Clinical epidemiology of invasive cutaneous malignant melanoma in the Austrian province Styria in the years 2001–2003 and its relationship with local geographical, meteorological and economic data.
Dermatology, 214 (2007), pp. 246-252
[9.]
D.S. Rigel, G.E. Rigel, A.C. Rigel.
Effects of altitude and latitude on ambient UVB radiation.
J Am Acad Dermatol, 40 (1999), pp. 114-116
[10.]
A. Buendía, E. Feriche, J.E. Muñoz, A. Cabrera, S. Serrano.
Evaluation of a school intervention program to modify sun exposure behaviour.
Actas Dermosifiliogr, 98 (2007), pp. 332-344
[11.]
S. Greenland, K.J. Rothman.
Measures of occurrence.
Modern epidemiology, 3rd ed., pp. 32-50
[12.]
Sistema de información multiterritorial de Andalucía. Instituto Andaluz de Estadística [last accessed 18/11/2008]. Available from: http://www.juntad eandalucia.es:9002/sima/smind18. htm.
[13.]
Cifras oficiales de población. Instituto Nacional de Estadística [last accessed 18/11/2008]. Available from: http://www.ine.es/jaxi/menu.do?type=pcaxis&path=%2Ft20%2Fe260&file=ineb ase&L=.
[14.]
Y. Sola, J. Lorente, E. Campmany, X. De Cabo, J. Bech, A. Redaño, et al.
Altitude effect in UV radiation during the Evaluation of the Effects of Elevation and Aerosols on the Ultraviolet Radiation 2002 (VELETA-2002) field campaign.
J Geophys Res, 113 (2008), pp. D23202
[15.]
A.M. Diaz, O.E. García, J.P. Diaz, F.J. Exposito, M.P. Utrillas, J.A. Martínez, et al.
Aerosol radiative forcing efficiency in the UV region over southeastern Mediterranean: VELETA 2002 campaign.
J Geophys Res, 112 (2007), pp. 1-13
[16.]
L. Alados-Arboledas, A. Alcántara, F.J. Olmo, J.A. Martínez-Lozano, V. Estellés, V. Cacorro, et al.
Aerosol columnar properties retrieved from CIMEL radiometers during VELETA 2002.
Atmos Environ, 42 (2006), pp. 2654-2667
[17.]
K.N. Liou.
An introduction to Atmospheric Radiation.
2nd ed., Elsevier Science and Technology, (2002),
[18.]
J.A.H. Lee, J. Scotto.
Melanoma: linked temporal and latitude changes in the United States.
Cancer Causes Control, 4 (1993), pp. 413-418
[19.]
J.L. Bulliard, B. Cox, J.M. Elwood.
Latitude gradients in melanoma incidence and mortality in the non-Maori population of New Zealand.
Cancer Causes Control, 5 (1994), pp. 234-240
[20.]
M.J. Eide, M.A. Weinstock.
Association of UV index, latitude, and melanoma incidence in nonwhite populations-US Surveillance, Epidemiology, and End Results (SEER) Program, 1992 to 2001.
Arch Dermatol, 141 (2005), pp. 477-481
[21.]
S. Hu, F. Ma, F. Collado-Mesa, R.S. Kirsner.
UV radiation, latitude, and melanoma in US Hispanics and blacks.
Arch Dermatol, 140 (2004), pp. 819-824
[22.]
J.F. Dore, M. Boniol.
Environment influences on cutaneous melanoma.
Textbook of Melanoma, pp. 43-55
[23.]
A. Jemal, S.S. Devesa, T.R. Fears, P. Hartge.
Cancer surveillance series: changing patterns of cutaneous malignant melanoma mortality rates among whites in the United States.
J Natl Cancer Inst, 92 (2000), pp. 811-818
[24.]
T. Sinha, R. Benedict.
Relationship between latitude and melanoma incidence: international evidence.
Cancer Letters, 99 (1996), pp. 225-231
[25.]
A. Katsambas, E. Nicolaidou.
Cutaneous melanoma and sun exposure: recent developments in epidemiology.
Arch Dermatol, 132 (1996), pp. 440-450
[26.]
J.M. Elwood, R.P. Gallagher, G.B. Hill, J.C. Pearson.
Cutaneous melanoma in relation to intermittent and constant sun exposure--the Western Canada Melanoma Study.
Int J Cancer, 35 (1985), pp. 427-433
[27.]
C.D. Holman, B.K. Armstrong, P.J. Heenan.
Relationship of cutaneous malignant melanoma to individual sunlight-exposure habits.
J Natl Cancer Inst, 76 (1986), pp. 403-414
[28.]
J.M. Ródenas, M. Delgado-Rodríguez, M.T. Herranz, J. Tercedor, S. Serrano.
Sun exposure, pigmentary traits, and risk of cutaneous malignant melanoma: A case-control study in a Mediterranean population.
Cancer Causes Control, 7 (1996), pp. 275-283
[29.]
T.R. Fears, C.C. Bird, I.V.D. Guerry, R.W. Sagebiel, M.H. Gail, D.E. Elder, et al.
Average midrange ultraviolet radiation flux and time outdoors predict melanoma risk.
Cancer Res, 62 (2002), pp. 3992-3996
[30.]
C.S. Lea, J.A. Scotto, P.A. Buffler, J. Fine, F.L. Barnhil, M. Berwick.
Ambient UVB and Melanoma Risk in the United States: A Case-Control Analysis.
Ann Epidemiol, 17 (2007), pp. 447-453
[31.]
S. Gandini, F. Sera, M.F. Cattaruzza, P. Pasquini, O. Picconi, P. Boyle, et al.
Meta-analysis of risk factors for cutaneous melanoma: II. Sun exposure.
Eur J Cancer, 41 (2005), pp. 45-60
[32.]
B.K. Armstrong, A. Kricker.
Epidemiology of skin cancer.
Photochem Photobiol, 63 (2001), pp. 8-18
[33.]
C.C. Solomon, E. White, A.R. Kristal, T. Vaugnh.
Melanoma and lifetime UV radiation.
Cancer Causes Control, 15 (2004), pp. 893-902
[34.]
D.C. Whiteman, C.A. Bray, V. Siskind, D. Hole, R.M. MacKie, A.C. Green.
A comparison of the anatomic distribution of cutaneous melanoma in two populations with different levels of sunlight: the west of Scotland and Queensland, Australia 1982–2001.
Cancer Causes Control, 18 (2007), pp. 485-491
[35.]
A.V. Parisi, M.G. Kimlin, R. Lester, D. Turnbull.
Lower body anatomical distribution of solar ultraviolet radiation on the human form in standing and sitting postures.
J Photochem Photobiol, 69 (2003), pp. 1-6
Copyright © 2011. Academia Española de Dermatología y Venereología and Elsevier España, S.L.
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