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The rapid increase in thyroid cancer incidence in the United States over the past three decades may be related to changes in certain environmental exposures, as well as increased surveillance and more widespread use of sensitive diagnostic tools (Enewold et al, 2009). However, despite many retrospective studies, few risk factors have been established other than childhood exposure to ionizing radiation (Dal Maso et al, 2009).

Certain studies have suggested an inverse association between alcohol and thyroid cancer risk, but this may be confounded by cigarette smoking, which is correlated with alcohol consumption and has been inversely related with thyroid cancer (Mack et al, 2003; Jee et al, 2004; Nagano et al, 2007). However, no association was observed in a pooled analysis of 14 case–control studies after adjusting for smoking (Mack et al, 2003), or in two prospective studies with fewer than 200 cases (Iribarren et al, 2001; Navarro Silvera et al, 2005), although these studies were consistent with a small reduction in risk. A larger prospective study in women (421 cases) showed a clear reduction in risk with greater alcohol consumption (Allen et al, 2009). Although it remains unclear whether an association between alcohol and thyroid cancer exists independently of smoking, there is also a need to investigate effect modification by sex, given the three-fold higher incidence of thyroid cancer in women compared with men (Jemal et al, 2008).

Given the evidence of a possible association and a recent decrease in alcohol consumption in the United States (Zhang et al, 2008; Kerr et al, 2009), we analysed the association between alcohol intake and the risk of thyroid cancer and its sub-types in a large US prospective study of over 490 000 participants, including more than 292 000 men.

Materials and methods

The NIH-AARP Diet and Health Study began in 1995–1996 when a questionnaire was mailed to AARP members, aged 50–71 years, residing in six US states (California, Florida, Louisiana, New Jersey, North Carolina, and Pennsylvania) and two metropolitan areas (Atlanta and Detroit; Schatzkin et al, 2001). Participant mailings and annual linkage to 11 state cancer registries and the National Death Index provide information on cancer and mortality outcomes. The NIH-AARP Study was approved by the special studies institutional review board of the US National Cancer Institute. Further details on this cohort have been previously described (Schatzkin et al, 2001).

Among 567 169 questionnaire respondents, we excluded individuals who provided duplicate questionnaires (n=179), withdrew from the study (n=6), moved outside the study area or died before follow-up (n=617), were proxy respondents (n=15 760), had prevalent cancer except non-melanoma skin cancer (n=51 193) or end-stage renal disease at baseline (n=997), had cancer identified only from death records (n=3876), or had missing or extreme (greater than twice the interquartile range of sex-specific transformed intake above the 75th or below the 25th percentile) caloric intake (n=4 382). The analytic cohort included 490 159 participants (292 101 men and 198 058 women).

We defined incident thyroid cancer cases as first invasive, malignant neoplasm diagnosed during follow-up, and classified histology according to International Classification of Diseases for Oncology, Third Edition codes (C739) (Fritz et al, 2000).

The self-administered baseline questionnaire inquired about health-related behaviours, demographics, and anthropometric characteristics. A supplementary food frequency questionnaire elicited information on regular dietary habits over the past year, including serving sizes and frequency of intake of beer during the summer and rest of the year, wine, and liquor. On the basis of this information, alcohol consumption was standardised according to the MyPyramid Servings database of the US Department of Agriculture. One serving (drink) corresponds to 12 fluid ounces of beer (12.96 g ethanol), 5 fluid ounces of wine (13.72 g ethanol), and 1.5 fluid ounces of 80-proof distilled spirits (13.93 g ethanol).

Cox proportional hazards models with attained age as the time metric were used to estimate relative risks (RR) and 95% confidence intervals (CI) for thyroid cancer in all participants and by sex. Models were additionally adjusted for sex, race, smoking status, body mass index (BMI), and family history of cancer. We mutually adjusted for beer, wine, and liquor in models of alcohol type. Medians of each exposure category were modeled as continuous in trend tests. Sub-group analyses were conducted using categories of sex, smoking status, BMI, and thyroid cancer histology. The heterogeneity within sub-groups was assessed using the Q statistic (Cochran, 1954). We found no evidence that the proportional hazards assumption was violated.

Results

The median alcohol intake among participants reporting any alcohol consumption over the past year was 4.5 g per day, or approximately one-third of the amount of a standard alcoholic drink. Over 11% of the cohort (9574 women and 45 149 men) reported consuming two or more alcoholic drinks daily. There were higher proportions of beer or liquor drinkers among the heavier drinking groups, and of wine drinkers among the more moderate drinking group. Compared with non-drinkers, heavier drinkers were more likely to be male, white non-Hispanic, more educated, and to have ever smoked, and less likely to be obese (Table 1).

Table 1 Study characteristics by alcohol intake (medians or percentage), using the NIH-AARP Diet and Health Study (n=490 159)

Over a median 7.5 years of follow-up, 200 women and 170 men were diagnosed with thyroid cancer. Compared with non-drinking, consuming two or more drinks per day was associated with a significantly decreased risk (RR=0.57, 95% CI 0.36–0.89, P-trend=0.01; Table 2). Consuming one or more drinks per day of beer was associated with a decreased risk when compared with no beer drinking, particularly in men (RR=0.47, 95% CI 0.22–0.97, P-trend=0.03). No clear dose-response associations with wine were observed, but liquor intake was associated with a nonsignificant decreased risk in women.

Table 2 Association between the level of alcohol intake and thyroid cancer risk, using the NIH-AARP Diet and Health Study, (n=490 159)

The strength of the inverse association with alcohol intake was relatively consistent according to sex, smoking status, and BMI categories, as well as histology (Figure 1). It was stronger in participants who never smoked (RR=0.33, 95% CI 0.16–0.71) when compared with ever smokers (RR=0.78, 95% CI 0.51–1.19; P-heterogeneity=0.05). Although we observed a clearer inverse association for papillary (RR=0.58, 95% CI 0.38–0.88) as compared with follicular cancer (RR=0.86, 95% CI 0.41–1.80), these results were not significantly different (P-heterogeneity=0.36). For every 10 g consumed, the RRs for thyroid cancer were 0.95 (95% CI 0.89–1.01) for men, 0.84 (95% CI 0.71–1.01) for women, and 0.94 (95% CI 0.88–0.99) for men and women combined. The results were not materially altered after excluding the first 2 years of follow-up, when the lightest drinkers were considered as the referent category, or when models were additionally adjusted for smoking intensity (data not shown).

Figure 1
figure 1

Associations between alcohol intake (1 drink per day vs none) and thyroid cancer risk by sex, smoking status, body mass index (BMI), and histological type, using the NIH-AARP Diet and Health Study (n=490 159). The models were adjusted for age, sex, race (non-Hispanic white, non-Hispanic black, other, or missing), education (less than high school, high school graduate, some college, college graduate, or missing), smoking status (never, former, current, or missing), body mass index (BMI<25.25−29.9, 30 kg m−2 or missing), and family history of cancer (no, yes, or missing).

Discussion

In this large prospective study, we observed that greater alcohol intake was associated with a reduced risk of thyroid cancer in both men and women, independent of cigarette smoking. The inverse association for beer seemed stronger than for wine or liquor, particularly among men in this cohort. In women, we observed a nonsignificant inverse association for liquor intake, but no clear association for other alcohol types. These differences may reflect the smaller range of alcohol intake in women, residual confounding by socioeconomic status or related factors, drinking patterns (i.e., binge drinking), or differences in measurement error by the type of alcohol. Nonetheless, similar dose-response associations with total alcohol intake were observed by sex, and associations by alcohol type were generally in the same inverse direction. Although we observed a clearer reduction in risk for papillary vs follicular cancers, this difference was not significant. However, there were only 64 follicular cancers in this study.

Given the strong, positive correlation between alcohol and smoking, and the evidence linking smoking with a reduced risk of thyroid cancer (Mack et al, 2003; Jee et al, 2004; Nagano et al, 2007), residual confounding by smoking may have biased our results away from the null. However, this seems unlikely as a stronger inverse association for alcohol was observed for never when compared with ever cigarette smokers.

In a cross-sectional study using ultrasonography, an inverse association between alcohol consumption and thyroid enlargement and nodularity was observed (Knudsen et al, 2001). A positive association between alcohol consumption and thyroid-stimulating hormone (TSH) and an inverse association with serum T3 was also found. Thyroid-stimulating hormone, which is secreted by the pituitary in response to low thyroid hormone levels in the blood, is known to increase the proliferation of follicular thyroid cells in laboratory studies (Williams, 1990), although its effect in humans is not clearly established. Alcohol may protect the thyroid from elevated TSH by inhibiting thyroid hormone metabolism (Knudsen et al, 2001). Greater alcohol intake may lead to vitamin deficiencies, impaired folate metabolism, oxidative stress, and DNA damage (Boffetta and Hashibe, 2006); but whether these directly influence the thyroid is unknown.

This is one of the few prospective studies to examine the relation between alcohol and thyroid cancer risk. A reasonably large number of cases allowed for sub-group analyses by sex, BMI, smoking status, and thyroid cancer sub-types; however, there were too few cases to obtain stable RRs in the heavier-drinking categories (2 drinks per day). Participants reported intake during the past year, which obviously does not cover cumulative lifetime drinking, and our results could be attenuated by the inclusion of recent quitters in the reference category of non-drinkers. However, excluding the first 2 years of follow-up did not materially change the results, and a similar inverse dose-response association was observed when the lightest drinkers were the referent group.

In this large prospective study, we found a reduction in thyroid cancer risk in both men and women with a greater consumption of alcohol. The decrease in risk associated with consuming 10 g per day is reasonably consistent between women in this study and in another large prospective study (16 vs 25% per 10 g per day; Allen et al, 2009). However, the direct public health applications of these findings are limited, considering the evidence linking moderate-to-heavy alcohol consumption with increases in several cancers, among other adverse effects (Boffetta and Hashibe, 2006). Nonetheless, as thyroid cancer incidence is rising, it is important to analyse the influence of diet and lifestyle in its aetiology.