Abstract
Background: Trans people face uncertain risk for breast cancer and barriers to accessing breast screening. Our objectives were to identify and synthesize primary research evidence on the effect of cross-sex hormones (CSHs) on breast cancer risk, prognosis and mortality among trans people, the benefits and harms of breast screening in this population, and existing clinical practice recommendations on breast screening for trans people.
Methods: We conducted 2 systematic reviews of primary research, 1 on the effect of CSHs on breast cancer risk, prognosis and mortality, and the other on the benefits and harms of breast screening, and a third systematic review of guidelines on existing screening recommendations for trans people. We searched PubMed, MEDLINE, Embase, CINAHL, the Cochrane Database of Systematic Reviews and grey literature sources for primary research, guidelines and position statements published in English between 1997 and 2017. Citations were screened by 2 independent reviewers. One reviewer extracted data and assessed methodological quality of included articles; a second reviewer verified these in full. The results were synthesized narratively.
Results: Four observational studies, 6 guidelines and 5 position statements were included. Observational evidence of very low certainty did not show an effect of CSHs on breast cancer risk in trans men or trans women. Among trans women, painfulness of mammography and ultrasonography was low. There was no evidence on the effect of CSHs on breast cancer prognosis and mortality, or on benefits and other harms of screening. Existing clinical practice documents recommended screening for distinct trans subpopulations; however, recommendations varied.
Interpretation: The limited evidence does not show an effect of CSHs on breast cancer risk. Although there is insufficient evidence to determine the potential benefits and harms of breast screening, existing clinical practice documents generally recommend screening for trans people; further large-scale prospective comparative research is needed.
“Trans” is an umbrella term for people with diverse gender identities and expressions that differ from stereotypical gender norms.1,2 Recent estimates suggest that there were approximately 200 000 trans people in Canada in 2016.3 Many trans people seek gender-affirming medical procedures or cross-sex hormone (CSH) therapy, or both, to align their physical appearance with their sense of self.4 Cross-sex hormone therapy refers to the use of exogenous sex hormones that are opposite to those of a person’s natal sex.5 Breast cancer risk in trans people is hypothesized to be influenced by CSHs.6 However, it is unclear whether the potential alteration in risk for breast cancer by CSH therapy should affect eligibility for breast screening. Trans people are medically underserved and face unique challenges in accessing appropriate care.3,7 With respect to breast health, 25%–30% of trans people in Ontario with a perceived need for mammography were unable to access it.8 In addition, trans people are less likely to pursue breast screening than are cisgender women (i.e., people assigned female sex at birth and who identify as female).9 Although this shows a disparity in the approach to breast cancer detection when compared to the nontrans population, information on the potential benefits and harms of screening in the trans population is limited.10
Organized breast screening programs aim to reduce breast cancer mortality through regular screening. At this time, breast screening programs may not have official screening policies for trans people, which may result in inconsistent inclusion of trans people within organized programs. The development of programmatic evidence-based policies should begin with the systematic identification of evidence and then the use of this information to formulate and implement policy.11 In this article, we present the findings of 3 systematic reviews that can be used by organized breast screening programs to initiate a process of breast screening policy development for the trans population. Our objectives were to identify and synthesize 1) primary research on the effect of CSHs on breast cancer risk, prognosis and mortality among trans people (review 1), 2) primary research on the benefits and harms of breast screening among trans people (review 2) and 3) existing clinical practice recommendations on breast screening for trans people (review 3).
Methods
We developed separate protocols to guide the reviews (Appendix 1, available at www.cmajopen.ca/content/7/3/E598/suppl/DC1); they were not publicly registered. We consulted the Cochrane Handbook for Systematic Reviews of Interventions12 when developing these reviews and followed the Preferred Reporting Items for Systematic Reviews and Meta-Analyses guideline13 to report this review. The term “trans men” is used for people who were assigned female sex at birth but whose gender identity is male or on the male spectrum.14 The term “trans women” is used for people who were assigned male sex at birth but whose gender identity is female or on the female spectrum.14 These terms are used for simplicity and are meant to be inclusive of all those on the female-to-male and male-to-female spectra, respectively.
Search strategy
For reviews 1 and 2, we searched PubMed, MEDLINE, Embase, CINAHL and the Cochrane Database of Systematic Reviews for primary research published in English between January 1997 and May 2017. For review 3, we searched PubMed, MEDLINE and guidelines databases for guidelines and positions statements published in English between January 1997 and February 2017. We developed all search strategies in consultation with a medical librarian (Appendix 2, available at www.cmajopen.ca/content/7/3/E598/suppl/DC1). We also conducted grey literature searches and hand searches of on-topic journals. Reference lists of relevant primary studies, systematic reviews, literature reviews and guidelines were reviewed, and citation recommendations from experts were sought (O.M., L.P., M.F-K., M.C.-F.).
Study selection
For all reviews, 2 reviewers independently screened titles and abstracts using predefined selection criteria (review 1: L.P., M.C.-F.; review 2: O.M., M.Y.; review 3: M.F.-K., M.Y.) (Table 1). For assessment of the performance (i.e., sensitivity and specificity) of breast screening technologies, a population, intervention, reference standard and diagnosis (PIRD) framework was applied. Population and intervention components are defined in Table 1. The reference standard for a positive screening result was defined as pathology results available from biopsy, whereas patients with negative screening results must have been followed for at least 1 year. The diagnosis of interest was breast cancer. Any citation marked for inclusion by either reviewer went to full-text screening. Dual independent full-text screening was conducted, with consensus required for inclusion or exclusion of each citation. Disagreements were resolved through discussion.
Data management
We used DistillerSR15 (Evidence Partners) to manage all phases of reviews 1 and 2. For review 3, we used DistillerSR for screening and data extraction for citations obtained from electronic databases, whereas these tasks were completed in Microsoft Excel for citations from the grey literature search. We developed screening, data extraction and quality-assessment forms a priori and piloted them to ensure validity and interrater reliability.
Data extraction and quality assessment
For all reviews, 1 reviewer extracted data from included citations (review 1: L.P.; review 2: O.M.; review 3: M.F.-K.). A second reviewer verified all extracted data (review 1: M.C.-F.; reviews 2 and 3: M.Y.); disagreements were resolved through discussion. Data extraction items for each review are provided in the respective protocol (Appendix 1). Authors were not contacted for missing data.
For reviews 1 and 2, the quality of cohort studies was assessed with the Newcastle–Ottawa Scale.16 The quality of cross-sectional studies was assessed by considering key methodological components such as the selection of participants, and exposure and outcome assessments. One reviewer conducted the quality assessments (review 1: L.P.; review 2: O.M.). A second reviewer verified all ratings (review 1: M.C.-F.; review 2: M.Y.); disagreements were resolved through discussion.
For review 3, quality assessment of each guideline was conducted independently by 2 reviewers (M.Y., M.F.-K.) using the Appraisal of Guidelines for Research & Evaluation II instrument.17 The quality of position statements was not assessed.
Synthesis
For reviews 1 and 2, we examined similarities and differences in study characteristics, quality, sample and intervention features across the included studies. Results for outcomes of interest for each objective are presented narratively for trans men and trans women separately. Meta-analysis was not possible in either review owing to a lack of available count data in the comparison groups (review 1) or an insufficient number of included studies (review 2). The Grading of Recommendations Assessment, Development and Evaluation (GRADE) approach was used to assess the certainty of the available evidence for each outcome.18,19 One reviewer conducted GRADE assessments (review 1: L.P.; review 2: O.M.), which were verified by a second reviewer (review 1: M.C.-F.; review 2: M.Y.).
For review 3, similarities and differences across breast screening recommendations were examined for trans men and trans women separately.
Ethics approval
Because human subjects were not involved in this study as it was a systematic review, ethics approval was not sought.
Results
Search results
For review 1, 1507 unique citations were identified. After screening, 3 studies met the inclusion criteria20–22 (Figure 1, A). For review 2, 560 unique citations were identified, among which 1 study met the inclusion criteria23 (Figure 1, B). The search for review 3 identified 153 unique citations, and, after screening, 11 documents were included (Figure 1, C).4,5,24–32 Citations excluded at full-text screening are listed in Appendix 3 (available at www.cmajopen.ca/content/7/3/E598/suppl/DC1).
Characteristics of included studies and documents
For review 1, 3 retrospective cohort studies examining the effect of CSHs on breast cancer risk among trans people were identified20–22 (Table 2). All 3 included trans men, and 2 included trans women.20,21 Across studies, 1069 trans men and 3419 trans women were exposed to CSHs (Table 3, Supplementary Table S1, Appendix 4, available at www.cmajopen.ca/content/7/3/E598/suppl/DC1). The duration of CSH exposure varied within and across studies. In 1 study, the comparison group was 130 trans men who did not receive CSHs,22 and in 2 studies, comparisons were drawn against general population samples.20,21 The length of follow-up ranged from 9 to 38 years. Funding details were reported for 2 studies;20,21 neither received commercial support. Two studies were rated as having fair methodological quality,20,21 and 1 was rated as poor22 (Table 2).
For review 2, 1 cross-sectional study reporting on 1 screening-related harm was identified23 (Table 2). The sample consisted of 50 trans women, all of whom underwent sex-reassignment surgery (Supplementary Table S1, Appendix 4). Forty-eight participants (96%) received augmentative breast surgery, 47 (94%) were receiving estrogen replacement therapy, and 2 (4%) were receiving an androgen-deprivation agent. All participants received mammography and sonography performed by a single experienced radiologist. There was no comparison group. Funding details were not reported; however, the first author declared commercial supports. This study was considered of poor methodological quality.
For review 3, 11 documents (6 guidelines and 5 position statements), provided recommendations on breast screening for trans people4,5,24–32 (Table 4). Documents were developed by groups in Canada,4,5,24,25,28 the United States26,29,31,32 and the United Kingdom.27,30 The quality of the included guidelines was low. Across guidelines, the highest-scoring Appraisal of Guidelines for Research & Evaluation II domains were scope and purpose, and clarity of presentation. The lowest-scoring domains were applicability and editorial independence.
Trans men
Effect of cross-sex hormones on breast cancer risk, prognosis and mortality (review 1)
Three studies examined breast cancer risk among trans men exposed to CSHs.20–22 The risk was not statistically different than that for trans men not exposed to CSHs (0.0% v. 0.8%, p < 0.05)22 or the expected risk based on estimates for the general population of women (standardized incidence ratio 0.3, 95% confidence interval 0.0–3.7).20 In the third study,21 the risk (5.9 cases per 100 000 person-years) was lower than that expected for the general population of women (154.7 cases per 100 000 person-years), but the statistical significance of this finding was not reported. This evidence received a very low GRADE rating owing to the observational study designs and serious concerns regarding risk of bias, indirectness and imprecision (Table 3).
Evidence on the effect of CSHs on breast cancer prognosis or mortality among trans men was not identified.
Benefits and harms of breast screening (review 2)
Evidence on the benefits and harms of breast screening among trans men was not identified.
Recommendations on breast screening (review 3)
Seven documents provided breast screening recommendations for trans men4,24,26–28,30,31 (Table 5). Breast screening was recommended for trans men without chest reconstruction.4,24,26,28,31 Screening eligibility in this group also depended on age24,28,31 and eligibility requirements for cisgender women.4,26,28 Two documents recommended mammography every 2 years,24,28 1 recommended mammography without specifying the screening interval,4 1 recommended annual clinical breast examination,28 and 1 recommended annual breast examinations without specifying whether these were clinical examinations or self-examinations.4
Screening was also recommended for trans men who have had partial chest reconstruction.4,24,26,28 Recommended modalities varied and included ultrasonography,24,26 magnetic resonance imaging24,26 and mammography.4 One document stated that mammography was not required following chest reconstruction.28 None of the documents provided a specific recommendation on the screening interval.
For trans men in general (i.e., chest reconstruction status not specified), screening recommendations varied.24,27,28,30 Eligibility depended on having a history of male CSH use,27 having developed breast tissue,30 having a family history of breast cancer24,28 and the presence of other risk factors.24 One document recommended that those with a strong family history of breast cancer follow guidelines for cisgender women regarding referral to a high-risk mammography screening program.28 The other 3 documents did not provide specific recommendations on modalities or intervals.24,27,30
Trans women
Effect of cross-sex hormones on breast cancer risk, prognosis and mortality (review 1)
Two studies examined breast cancer risk among trans women exposed to CSHs.20,21 In 1 study, the risk among trans women exposed to CSHs was not statistically different from that expected for the general population of men (standardized incidence ratio 0.0, 95% confidence interval 0.0–3.7).20 In the second study, breast cancer risk among trans women exposed to CSHs was slightly higher (4.1 cases per 100 000 person-years) than estimates for the general population of men (1.2 cases per 100 000 person-years), but the statistical significance of this finding was not reported.21 This body of evidence received a very low GRADE rating owing to the observational study designs and serious concerns regarding risk of bias, indirectness and imprecision (Table 3).
Evidence on the effect of CSHs on breast cancer prognosis or mortality among trans women was not identified.
Benefits and harms of breast screening (review 2)
Evidence on 1 screening-related harm among trans women was identified.23 One cross-sectional study reported on pain experienced by 50 trans women during mammography and ultrasonography.23 The painfulness of both procedures, as assessed with an 11-point visual analogue scale, was rated as low (mean score range for mammography 1.7 [standard deviation 2.1] to 2.0 [standard deviation 2.3], mean score for ultrasonography 0.5 [standard deviation 1.2]) (Table 6). These 2 bodies of evidence received very low GRADE ratings owing to serious concerns regarding the observational study design and risk of bias (Table 6).
Evidence on other screening-related harms, and on the benefits of screening among trans women was not identified.
Recommendations on breast screening (review 3)
Ten documents provided breast screening recommendations for trans women4,5,25–32 (Table 7). For those with a history of CSH use, screening eligibility depended on the duration of CSH use,25,26,28 age,4,25,26,28 presence of breast implants,25 breast growth,4 orchiectomy status,4 other risk factors4,28 and guidelines for cisgender women.29 Recommended modalities and intervals included mammography every 2 years25,26,28 and mammography without a specified interval.4 One document recommended against periodic breast self-examination and annual clinical breast examination.4 Screening was not recommended for trans women with less than 5 years of CSH use25 and those without a history of CSH use.4
For trans women in general (i.e., CSH use not specified), recommendations varied.5,28,30–32 One document recommended diagnostic mammography for those with breast implants and consideration of annual magnetic resonance imaging for those 30–69 years of age with a family history suggestive of hereditary breast cancer.28 Two documents recommended screening for those with developed breast tissue,5,30 1 recommended screening as per guidelines for cisgender women,32 and 1 recommended age-appropriate screening.29 None of these documents provided specific information on the modality or interval.
Interpretation
We found limited evidence of very low certainty that did not show an effect of CSHs on breast cancer risk in trans women or trans men. Evidence on the effect of CSHs on breast cancer prognosis and mortality was not identified. There was a lack of evidence on the benefits of breast screening, and very little evidence on harms. Further evidence of very low certainty showed that trans women experienced minimal pain during mammography and ultrasonography. There was minimal agreement on screening recommendations for trans people. The majority of the clinical practice documents identified provided recommendations for distinct subgroups of trans people based on the presence of breast tissue and history of CSH exposure. There was an observed preference for routine screening with mammography for trans men without chest reconstruction. This is not surprising, as trans men without chest reconstruction and without CSH exposure likely have the same risk for breast cancer as most cisgender women.10 There was also agreement that CSH exposure should be considered when determining breast screening eligibility for trans women.
The topics of breast screening and the effect of CSHs on breast cancer outcomes among trans people have not been rigorously and thoroughly researched. Previous reviews on similar topics6,10,33–36 have largely summarized published case reports and series on breast cancer in trans people, as well as the studies included in our 2 reviews of primary research.
Strengths and limitations
Key strengths of our systematic reviews include comprehensive search strategies, robust citation-screening processes and the application of reputable tools for analyzing the evidence and assessing its certainty. Key limitations are due to the nature of the available evidence and methodological decisions applied throughout the reviews. Observational designs were used in all 3 studies examining the effect of CSHs on breast cancer risk,20–22 and indirect comparisons were used in 2 studies.20,21 Across these studies, few details were provided regarding the nature of CSH exposure, and the length of follow-up varied and, in many cases, may have been too short to reasonably observe the effect of CSHs on long-term breast cancer risk. Two studies may have also been underpowered.20,22 The study on painfulness of screening is limited by its small sample, insufficient information on validity and reliability of the outcome measure, and generalizability.23 The quality of the guidelines in review 3 was low. Very few documents reported the quality of the evidence on which recommendations were based or the strength of recommendations. In all 3 reviews, we searched only for evidence available in English owing to limited resources to appropriately handle evidence in other languages, which could have resulted in language bias. The search was also limited to evidence published between 1997 and 2017. Although data extraction and quality assessments were verified by a second reviewer, these tasks were not performed independently. Owing to the insufficient quantity of primary research, certain GRADE domains could not be assessed. Although the quality of included guidelines was assessed with the Appraisal of Guidelines for Research & Evaluation II instrument, we did not verify or critically appraise the evidence cited to support recommendations.
Conclusion
Conclusions cannot be drawn from the sparse evidence of very low certainty in these 3 reviews. The 2 systematic reviews of primary research showed limited evidence, thus preventing the formation of any definitive conclusions about the impact of breast screening in trans people and the effect of CSHs on breast cancer outcomes. The systematic review of guidelines and position statements showed that breast screening is generally recommended for trans people; however, recommendations varied. In the absence of high-quality scientific evidence, organized screening programs will need to supplement scientific evidence with sources of contextual evidence (e.g., professional expertise and lived experience) when developing screening recommendations and policies for trans people. Furthermore, despite the limited evidence, the argument can be made that screening should be made available to trans people who meet program eligibility requirements in the same way that it is available to cisgender women. Based on our findings, it is clear that large-scale prospective, comparative, trans-specific, quantitative research with a long duration of follow-up is needed to produce reliable estimates of the effects of CSHs on breast cancer outcomes and the potential benefits and harms of screening. Given the large sample required for such studies and the challenges with reaching trans people for research,37 future research may benefit from data linkage and algorithms to improve the identification of trans people in existing population-based health databases. Alternatively, future etiologic research of sufficient sample size may include a multisite cohort study in community clinics serving trans people.
Acknowledgements
The authors thank Jessie Cunningham for her assistance with developing the search strategies and conducting the literature searches. They also thank Emma Sabo for her assistance with article retrieval. Meghan Walker and Chamila Adhihetty provided valuable feedback on the protocols, and Chamila Adhihetty and Gillian Bromfield provided feedback on the manuscript.
Footnotes
Competing interests: Mufiza Farid-Kapadia is currently employed by Roche but was not at the time these systematic reviews were conducted. No other competing interests were declared.
This article has been peer reviewed.
Contributors: Olivia Meggetto, Leslea Peirson, Mafo Yakubu, Mufiza Farid-Kapadia, Michelle Costa-Fagbemi, Shamara Baidoobonso, Jessica Moffatt, Anna Chiarelli and Derek Muradali were involved in the conception and design of 1 or more of the 3 reviews. Leslea Peirson, Michelle Costa-Fagbemi and Shamara Baidoobonso collected, analyzed and interpreted the data for review 1. Olivia Meggetto, Mafo Yakubu and Shamara Baidoobonso collected, analyzed and interpreted the data for review 2. Mafo Yakubu, Mufiza Farid-Kapadia and Shamara Baidoobonso collected, analyzed and interpreted the data for review 3. Olivia Meggetto, Lauren Chun and Derek Muradali drafted the manuscript. All of the authors critically revised the manuscript for important intellectual content, approved the final version to be published and agreed to be accountable for all aspects of the work.
Funding: Research reported in this paper was supported exclusively by Cancer Care Ontario.
Supplemental information: For reviewer comments and the original submission of this manuscript, please see www.cmajopen.ca/content/7/3/E598/suppl/DC1.
References
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