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Associations between ultraviolet radiation, tree cover and adolescent sunburns.
Tribby, Calvin P; Julian, Anne K; Oh, April Y; Perna, Frank M; Berrigan, David.
Afiliação
  • Tribby CP; Department of Geography, University of Hong Kong, Room 1023, 10th Floor, The Jockey Club Tower Centennial Campus, Pokfulam Road, Hong Kong, Hong Kong. ctribby@hku.hk.
  • Julian AK; Health Behaviors Research Branch, Behavioral Research Program, Division of Cancer Control and Population Sciences, National Cancer Institute, Bethesda, MD, USA.
  • Oh AY; Cancer Prevention Fellowship Program, Division of Cancer Prevention, National Cancer Institute, Bethesda, MD, USA.
  • Perna FM; Implementation Science Team, Office of the Director, Division of Cancer Control and Population Sciences, National Cancer Institute, Bethesda, MD, USA.
  • Berrigan D; Health Behaviors Research Branch, Behavioral Research Program, Division of Cancer Control and Population Sciences, National Cancer Institute, Bethesda, MD, USA.
Int J Health Geogr ; 19(1): 59, 2020 12 14.
Article em En | MEDLINE | ID: mdl-33317555
BACKGROUND: Sunburn is the strongest risk factor for melanoma and non-melanoma skin cancers. Adolescent sunburns are related to higher risk of developing melanoma later in life. Little is known about the association of sunburns and shade, particularly tree cover, around adolescent homes and schools. This linkage study assessed associations of adolescent self-reported sunburns with ambient ultraviolet radiation (UV) and tree cover. METHODS: We analyzed a U.S. national sample of parent-child dyads (n = 1333) from the 2014 Family Life, Activity, Sun, Health, and Eating (FLASHE) study conducted by the National Cancer Institute. The outcome was adolescent sunburns reported for the previous 12 months. GIS buffers around geocoded home and school addresses were used to summarize UV and tree cover. A sensitivity analysis assessed different UV measures and tree cover buffer distances. Logistic regression models estimated the adjusted odds of any sunburns for five models: (1) no environmental variables; (2) spatial variables of latitude and longitude; (3) UV; (4) tree cover; and, (5) a combined model with UV and tree cover. Covariates included common sunburn-related items such as sun protective behaviors, socio-demographics, and latitude. Model residuals were assessed for spatial dependency and clustering. RESULTS: Overall, 44% of adolescents reported any sunburns in the previous 12 months. For the bivariate associations, lower categories of UV were associated with any reported sunburns (p-trend = 0.002). Home tree cover was not associated with any reported sunburns (p-trend = 0.08), whereas schools with lower categories of tree cover were associated with sunburns (p-trend = 0.008). The adjusted odds of any sunburns by UV tertiles, as a linear tread, was 0.89 (0.76-1.05) (p = 0.17); school tree cover was: 0.91 (0.78-1.07) (p = 0.25). Neither UV nor tree cover, in a combined model, were significant. Sensitivity analyses resulted in the optimal buffer size of 200 m for summarizing tree cover. Spatial dependence of residuals was not significant and clustering was significant for about 6% or less of the sample in each model. CONCLUSIONS: We did not find significant relationships between UV or tree cover and adolescent sunburns, when adjusted by sunburn-related covariates. Better contextual data about where sunburns occurred is needed to identify environmental correlates of sunburn.
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Texto completo: 1 Base de dados: MEDLINE Assunto principal: Queimadura Solar / Melanoma Limite: Adolescent / Child / Humans Idioma: En Ano de publicação: 2020

Texto completo: 1 Base de dados: MEDLINE Assunto principal: Queimadura Solar / Melanoma Limite: Adolescent / Child / Humans Idioma: En Ano de publicação: 2020