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Conisation is a surgery that removes abnormal cervical lesions—cervical intraepithelial neoplasia. Human papilloma virus (HPV) infection is associated with almost all cervical cancers; conisation is therefore a definitive marker of HPV infection (Gosvig et al, 2015). HPV DNA (oncogenic subtypes 16 and 18) can transform normal breast cells into a growth factor-independent phenotype (Dimri et al, 2005). HPV DNA and koilocytes—hallmarks of HPV infection—have been identified in breast tumours (Lawson et al, 2009, 2016). HPV may therefore contribute to breast carcinogenesis, although the underlying biology is poorly understood (Ohba et al, 2014; Vieira et al, 2014). Most HPV cervical infections resolve untreated (Jaisamrarn et al, 2013), but persistent infection warranting treatment intervention may signify impaired immune function (Bosch and Munoz, 2002).

Three meta-analyses have investigated the association between HPV infection and breast cancer (BC), including 9, 10, and 16 case–control studies, respectively (Li et al, 2011; Simoes et al, 2012; Zhou et al, 2015). The summary effect estimates suggested three- to six-fold increased BC incidence among women with HPV infection. Each called for large studies on HPV and BC incidence. The existing research has limited follow-up, small sample size, and no information on comorbid diseases, which may compromise immune function (de Visser et al, 2006). A large Norwegian study suggested a 10% increased risk of in situ and localised but not metastatic breast tumours among women with precancerous cervical lesions (Hansen et al, 2012).

Given the high incidence of BC in developed countries, any association between HPV and BC risk requires confirmation. We therefore conducted a large nationwide population-based study using prospectively collected data from Danish registries to investigate the association between cervical conisation as a marker of chronic HPV infection and risk of BC.

Materials and methods

The Danish National Health Service guarantees tax-supported health care for all residents. Health service utilisation is recorded in nationwide registries using each resident’s unique personal identifier, which permits linkage across registries (Schmidt et al, 2014). We used the Danish National Patient Registry (DNPR), covering all Danish hospitals (Schmidt et al, 2015), to identify all women aged 18 years who underwent cervical conisation during the study period (Supplementary Appendix 1). All surgical procedures are registered in the DNPR according to the ‘Danish Classification of Surgical Procedures and Therapy’. Inpatient diagnoses were available from 1978 to 1994 and both in and outpatient diagnoses thereafter. Through linkage to the Civil Registration System, which contains data on vital status and emigration (Schmidt et al, 2014), and to the Danish Cancer Registry (DCR), which records information on all incident malignancies (Storm, 1988), we followed women from their conisation date to incident BC, death, emigration, or 30 November 2013, whichever came first. We also retrieved information on cancer stage (localised vs non-localised disease). We used the Danish Pathology Registry (Erichsen et al, 2010) to retrieve data on oestrogen receptor (ER) status at BC diagnosis among women who underwent conisation (1997 onwards when pathology data was available). We retrieved information from the DNPR on comorbidities diagnosed before conisation, and classified these using the Charlson Comorbidity Index (CCI) (Charlson et al, 1987). We used the DNPR to retrieve information on clinical diagnoses of autoimmune disease, obesity and alcohol-related disease (Supplementary Appendix 1).

We computed the expected number of BCs using national incidence rates by age (1-year bands) and diagnosis year (1-year periods) multiplied by person-years of follow-up. We computed standardised incidence ratios (SIRs) for BC as the ratio of observed to expected cancers, overall, and at 1, 1–5, and >5 years (Rothman et al, 2008). We stratified results by age at conisation, year of conisation, comorbid diseases, and CCI (excluding cancer diagnoses) (Supplementary Appendix 2). In a subgroup analysis, we computed BC risk according to ER status, and BC stage at diagnosis. This study was approved by the Danish Data Protection Agency (#1-16-02-1-08).

Results

Overall, 87 782 women underwent conisation in 1978–2013; 90% were aged <50 years at conisation (median age=33.8 years, interquartile range: 28.3–41.1 years). Most patients had no comorbidities (CCI=0); 3% had autoimmune disease or obesity, and 2% had alcohol-related disease (Table 1).

Table 1 Baseline characteristics of the cohort of women who underwent conisation in Denmark between 1978 through 2013

Women who underwent conisation had increased BC risk (SIR=1.1, 95% CI=1.0–1.1, and absolute risk of 7.7%, 95% CI=7.3–8.1%) over a maximum follow-up of 35.9 years (median=15.5, interquartile range: 7.9–24.1 years). BC risk increased with age at conisation up to age 70 years, with highest SIRs among women aged 50–69 years (SIR=1.2, 95% CI=1.1–1.3). BC risk was elevated in the first 5 years of follow-up (<1 year of follow-up: SIR=1.2, 95% CI=0.92–1.5; 1–5 years of follow-up: SIR=1.2, 95% CI=1.1–1.3), attenuating thereafter (5 years follow-up: SIR=1.1, 95% CI=1.0–1.1). Stratified analyses revealed no effect modification by CCI, obesity, or alcohol diagnoses, but increased BC risk associated with autoimmune disease especially after 5 years of follow-up (SIR=1.4, 95% CI=1.0–1.8) (Table 2). The risk of localised BC remained slightly elevated throughout follow-up; that of non-localised disease was elevated only up to 5 years after conisation. The results of analyses stratified by ER status (1997–2013) indicated increased risk of ER positive BC, but not ER negative disease, or, of BCs with unknown ER status, regardless of follow-up time. We observed similar findings in sensitivity analyses including inpatients and outpatients (Supplementary Table 1).

Table 2 Standardised incidence ratios of breast cancer among women who underwent conisation in Denmark between 1978 through 2013 according to follow-up time

Discussion

Our large population-based cohort study suggests slightly elevated BC risk associated with a history of cervical conisation. Among women diagnosed with local stage breast tumours, risk remained elevated regardless of follow-up time. Our findings may therefore be partly attributable to more intense disease surveillance, that is, women who undergo conisation are more likely to avail themselves of other cancer screening procedures, such as mammography (Hansen et al, 2012; Corkum et al, 2013). In addition, BC risk increased with longer follow-up, particularly among women with a history of autoimmune disease.

The increased BC risk among women with a history of autoimmune disease is intriguing, and counters the perception that autoimmune disease correlates with decreased BC incidence (Hemminki et al, 2012). However, our finding may reflect reports of an increased risk of cervical dysplasia/cancer among individuals with autoimmune disease (Kim et al, 2015). The mechanisms underlying this association are unclear but could involve increased healthcare contact among patients with autoimmune conditions. The observed association also may reflect use of immunosuppressive drugs or steroids—indicated for autoimmune disease—which may facilitate HPV immunoevasion. However, our previous research suggests no association between glucocorticoid use and BC risk (Sorensen et al, 2005, 2012). Our findings provide important rationale to promote uptake of the HPV vaccine among women with autoimmunities (Kim et al, 2015).

The increased BC risk among those younger at conisation may be due to heightened screening. However, it may also reflect findings by Lawson et al (2016), where BC patients with a history of cervical cancer were on average 10 years younger at BC diagnosis than those without cervical cancer.

Strengths of our study include its population-based design in a country with unfettered access to healthcare and complete follow-up. Data were prospectively collected for administrative purposes, minimising bias. The completeness of BC diagnoses in the DCR and the Danish Pathology Registry approaches 100% (Storm et al, 1997; Erichsen et al, 2010). Use of personal identity numbers facilitated individual-level data linkage across the registries (Son et al, 2014). We observed little difference after stratifying by alcohol-related diagnoses and obesity, so confounding due to such factors seems unlikely.

The Norwegian registry-based study (Hansen et al, 2012), observed a 10–50% increased BC risk in women with precancerous cervical lesions, which they attributed to detection bias, as they observed no increased risk of metastatic BC. Our study extends this research incorporating information on comorbidities and hormone receptor status.

The validity of our estimates depends on several factors. We had information on outpatient conisation from 1995, thus our study is prone to non-differential misclassification of conisation between 1978 and 1995. However, a sensitivity analysis restricted to the cohort who underwent conisation from 1995 onwards yielded similar findings. We had no information on HPV subtype, which may modify BC risk (Dimri et al, 2005). However, the oncogenic HPV subtypes (16, 18, 33, and 35) are those most likely to lead to persistent infection, for which conisation is indicated in Denmark. We lacked information on parity. Multi-parity correlates with increased cervical cancer risk (Jensen et al, 2013), but with decreased BC risk (depending on age at first birth) (Rosner et al, 1994). Thus adjusting for parity may attenuate our findings.

BC imposes a substantial burden on health and health services. Contrary to the three- to six-fold increased risk of BC associated with HPV infection observed in meta-analyses (Li et al, 2011; Simoes et al, 2012; Zhou et al, 2015), our findings suggest a long-term slight increase in BC risk among women with a history of chronic HPV infection. Priorities for future research involve evaluating the association of HPV subtypes with BC risk and investigating the incidence of BC among individuals vaccinated for HPV.