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Sun sensitivity, indoor tanning and B‐cell non‐Hodgkin lymphoma risk among Caucasian women in Los Angeles County

2016; Wiley; Volume: 177; Issue: 1 Linguagem: Inglês

10.1111/bjh.14051

1365-2141

Sophia Wang, Jianning Luo, Wendy Cozen, Yani Lu, Jane Halley‐Sullivan, Jenna Voutsinas, Charlie Zhong, Joo Y. Song, James V. Lacey, Dennis D. Weisenburger, Leslie Bernstein,

Air Quality and Health Impacts

Exposure to ultraviolet (UV) radiation continues to be a public health concern, particularly with the rising prevalence in exposure to artificially administered UV via indoor tanning salons (Wehner et al, 2014). In contrast to outdoor sun exposure, which proportionally emits more UVB radiation, indoor tanning appliances (defined as tanning booths, solariums, sun lamps) proportionally emit more UVA radiation [International Agency for Research on Cancer (IARC), 2007). Both are classified as Group 1 carcinogens by the IARC and both are definitively associated with increased risk of skin cancers (Colantonio et al, 2014; Veierod et al, 2014). Given that the geographical and racial non-Hodgkin lymphoma (NHL) incidence patterns parallel those of melanoma, it was hypothesized that the risk association between UV and NHL would similarly parallel that observed for melanoma. However, international pooling efforts among NHL case-control studies have linked outdoor/recreational sun exposure with a reduced NHL risk (Kricker et al, 2008). Results from prospective cohort studies, however, remain equivocal (Bertrand et al, 2011; Chang et al, 2011). Efforts to evaluate artificial sources of UV radiation with NHL risk have been similarly equivocal, with reduced NHL risk from tanning booth usage reported in one U.S. case-control study (Hartge et al, 2006) and no associations identified in two prospective cohort studies (Veierod et al, 2010; Zhang et al, 2013). Here, we investigate the relationship between use of tanning booths, UV treatment and risk of B-cell NHL among women in the Los Angeles County NHL Case-Control Study (see Appendix S1). Briefly, the study comprised women of Los Angeles County between the ages of 20–79 years old with no prior diagnosis of any haematological malignancy who were diagnosed with primary B-cell NHL between 1 May 2004 and 31 March 2008. In all, the study included 1006 female B-cell NHL cases and 1038 controls. As part of the study questionnaire, participants were queried if they had ever used a tanning booth (including sun lamps) at least 15 times in their life prior to the date of diagnosis). Those who answered affirmatively were further queried regarding the age, average number of times, and total duration of use. Participants were also asked to provide their eye colour and natural hair colour, history of sunburns that required medical attention for blistering and if they had ever undergone UV skin treatment. Other characteristics evaluated as potential confounders included family history of haematological malignancies or skin cancer, smoking status, alcohol consumption, and body mass index. As shown in Table SI, tanning booth use and sun sensitivity was highest among non-Hispanic Caucasians [with very low or no use reported among Black, Asian and Hispanic women (Table SII)]; therefore, we conducted statistical analyses among the 628 cases and 662 controls reported as non-Hispanic Caucasians. We used conditional logistic regression to calculate odds ratios (ORs) and corresponding 95% confidence intervals (CI) for evaluating NHL risk and unconditional logistic regression for evaluating major NHL subtypes and NHL/NHL subtype risk. Final multivariate models included socioeconomic status, age and family history of haematological malignancy. Among non-Hispanic Caucasian women, those reported ever having a sunburn requiring medical attention for blistering had a 38% lower risk for B-cell NHL (OR = 0·62; 95% CI = 0·49–0·80) with a strong trend of decreasing risk with increasing number of total reported sunburns (P-trend = 0·001) (Table 1). We did not observe any association between tanning booth use or UV treatment and B-cell NHL risk (Table 1) or by subtype (Table SIII). However, when stratified by site, we observed a 7·8-fold increased risk for cutaneous B-cell NHL (95% CI = 1·71–35·8) among those reporting ever using a tanning booth (Table 2). We further observed a phomogeneity = 0·013, when comparing the observed risk by site (cutaneous versus systemic). While the decreased NHL risk among those reporting a history of sunburns remained present for both cutaneous (OR = 0·67) and systemic B-cell NHL (OR = 0·66), among those who reported having used a tanning booth and also having a sunburn, the increased risk for cutaneous B-cell lymphoma remained (OR: 15·7, 95% CI = 2·56–96·9; P–interaction = 0·019). The four women with cutaneous B-cell NHL who reported using a tanning booth began use at ages 18–49 years (3 had begun use by age 35 years) and their NHLs occurred from 8 to 33 years later. Two cutaneous B-cell NHL cases reported more than 150 visits to use a tanning booth extending for more than a 5 year time period. Although cutaneous NHL is a relatively rare entity among B-cell NHL, data from the Los Angeles County NHL Case-Control Study suggest that an association between use of indoor tanning booths and cutaneous B-cell NHL may exist. Our population of non-Hispanic Caucasian female participants is the primary population of interest for evaluating the long-term effects of tanning, but our age group of women (median age of controls: 63 years) clearly precedes the dramatic rise in tanning booth use that ranges from 19% among adolescents to 55% in university students (Wehner et al, 2014). Our study results could thus be an early indicator of a potential rise in incidence of cutaneous lymphomas due to indoor tanning usage. Curiously, both outdoor sun exposure and indoor tanning increase the risk for skin cancers, such as melanoma, but associations with NHL remain equivocal and even protective for recreational sun exposure (IARC, 2007; Zhang et al, 2013; Colantonio et al, 2014; Veierod et al, 2014). Our results, that skin sensitivity measures are associated with decreased NHL risk, appear to be consistent with these studies, but our evaluation of tanning booths does not support an extended protective association with UV exposure. Biologically, distinct effects of outdoor sun exposure and indoor tanning on NHL risk may be plausible, as UVA and UVB radiation do alter the immune response in different ways. Specifically, UVB induces immunosuppression at both the local and systemic levels, while UVA induces DNA damage and TP53 mutations. Follow-up investigations of immune responses induced by UVA and UVB and their relationship to NHL may thus be warranted, particularly as recent efforts to link the protective association between sun exposure and NHL to vitamin D pathways have largely resulted in null associations. Although epidemiological and laboratory research has definitively linked indoor tanning to skin cancer aetiology, investigations into other cancers remain sparse. Our results suggest that further investigations of indoor tanning on other cutaneous malignancies, such as NHL, should be pursued. This research was made possible through funding by the National Cancer Institute grants R01 CA166219, P01 CA017054, and P30 CA033572. LB, WC, JHS, SSW, DW, JS performed the research; SSW, LB, WC, YL designed the research study; SSW, YL, JHS, JV, CZ, LB analysed the data; SSW, JL, WC, YL, JHS, JVL, CZ, JS, DW, LB wrote the paper. Table SI. Distribution of select demographic characteristics and risk factors among all and non-Hispanic Caucasian female B-cell NHL cases and controls in the Los Angeles County NHL case control study (2004–2008). Table SII. Distribution of select demographic characteristics and risk factors among Black, Hispanic, and Asian B-cell NHL and matched controls in the Los Angeles County NHL case control study (2004–2008). Table SIII. Risk estimates (odds ratios and 95% confidence intervals) for measures of sun sensivity and UV radiation (tanning booth, UV treatment) and major B-cell NHL subtypes among non-Hispanic women in the Los Angeles County NHL case control study (2004–2008). Please note: The publisher is not responsible for the content or functionality of any supporting information supplied by the authors. Any queries (other than missing content) should be directed to the corresponding author for the article.