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Transgender Health logoLink to Transgender Health
. 2017 Oct 1;2(1):156–164. doi: 10.1089/trgh.2017.0028

Factors Associated with Gender-Affirming Surgery and Age of Hormone Therapy Initiation Among Transgender Adults

Noor Beckwith 1,,2, Sari L Reisner 2,,3,,4,,5, Shayne Zaslow 3,,6, Kenneth H Mayer 2,,3,,7, Alex S Keuroghlian 1,,2,,3,,*
PMCID: PMC5685205  PMID: 29159310

Abstract

Purpose: Gender-affirming surgeries and hormone therapy are medically necessary treatments to alleviate gender dysphoria; however, significant gaps exist in the research and clinical literature on surgery utilization and age of hormone therapy initiation among transgender adults.

Methods: We conducted a retrospective review of electronic health record data from a random sample of 201 transgender patients of ages 18–64 years who presented for primary care between July 1, 2010 and June 30, 2015 (inclusive) at an urban community health center in Boston, MA. Fifty percent in our analyses were trans masculine (TM), 50% trans feminine, and 24% reported a genderqueer/nonbinary gender identity. Regression models were fit to assess demographic, gender identity-related, sexual history, and mental health correlates of gender-affirming surgery and of age of hormone therapy initiation.

Results: Overall, 95% of patients were prescribed hormones by their primary care provider, and the mean age of initiation of masculinizing or feminizing hormone prescriptions was 31.8 years (SD=11.1). Younger age of initiation of hormone prescriptions was associated with being TM, being a student, identifying as straight/heterosexual, having casual sexual partners, and not having past alcohol use disorder. Approximately one-third (32%) had a documented history of gender-affirming surgery. Factors associated with increased odds of surgery were older age, higher income levels, not identifying as bisexual, and not having a current psychotherapist.

Conclusion: This study extends our understanding of prevalence and factors associated with gender-affirming treatments among transgender adults seeking primary care. Findings can inform future interventions to expand delivery of clinical care for transgender patients.

Keywords: : barriers to care, gender-affirming hormone therapy, gender-affirming surgery, mental health, sexual health, transgender

Introduction

Gender-affirming hormone therapy and surgeries1,2 are deemed medically necessary treatments for gender dysphoria by the American Medical Association and other clinical policy-setting organizations.3 Access to gender-affirming hormone therapy and surgeries is associated with improvements in psychological functioning and quality of life among transgender adults,4–6 and decreased risk of suicidal ideation and substance use disorders.7,8 Nevertheless, transgender adults continue to experience numerous barriers to accessing and receiving gender-affirming medical and surgical care, including harassment and denial of treatment by providers, fear of mistreatment based on their gender identity resulting in not seeking needed healthcare, lack of financial resources needed to access care, and ongoing denial of insurance coverage for gender-affirming hormone therapy and surgical procedures.9,10 Health professionals typically receive minimal training in core clinical competencies related to transgender health, and healthcare settings often fail to provide inclusive, affirming environments for transgender patients.11 Because of barriers to accessing gender-affirming medical and surgical care, transgender people are often relegated to unsafe medically unmonitored hormone use and other body modifications (e.g., unmonitored silicone injections) to affirm their gender and alleviate distress.12–18

Little is known about factors associated with gender-affirming surgery and age of initiation of hormone therapy among transgender adults. Transgender adults vary significantly in their access to and selection of possible hormone therapy, surgical procedures, or both to affirm their gender through personalized care plans.2,19–21 Transgender people also vary across the lifespan with regard to the age at which they initiate gender-affirming medical care,2 and factors influencing individual variability in the age of hormone initiation are poorly understood. Existing research on barriers to transgender healthcare access has relied largely on participant self-report rather than direct methods such as medical documentation.10 One such study using self-report identified treatment costs and lack of qualified providers as barriers to optimal care, and found that transgender respondents >50 years old and those in committed relationships were less likely to report plans for future gender-affirming hormone therapy.22

There remain significant gaps in the literature regarding the relationship between demographics, gender identity, sexual history, and mental health to hormone therapy initiation and surgery utilization among transgender adults. To address these gaps, this study used a retrospective electronic health record (EHR) review to (1) assess the prevalence and distribution of gender-affirming hormone therapy and surgeries among transgender adults at a Boston community health center with specialized care for sexual and gender minority populations and (2) examine the association of gender-affirming surgery utilization and age of hormone therapy initiation with demographics, gender identity, sexual history, and mental health in this traditionally underserved population.

Methods

Study participants and procedures

We conducted a retrospective review of EHR data from a random sample of 201 transgender patients of ages 18–64 years who presented for one or more healthcare visit(s) between July 1, 2010 and June 30, 2015 (inclusive) at an urban community health center in Boston, MA, specializing in LGBT (lesbian, gay, bisexual, and transgender) healthcare.23,24 This study period was the 5-year time frame immediately before beginning the EHR review process. Patients were identified as transgender by automated query based on a standardized flag system in the EHR used to designate all transgender-identified patients at the health center. The sample was drawn from the pool of all 1683 transgender-identified patients of 18 years or older who had presented for care within the 5-year study period, using an automated simple random sampling algorithm.25 Data were treated as a cross-sectional sample. Variables related to demographics, gender identity, sexual history, and mental health were extracted through a combination of automated query and manual audit methods from the EHR. Variables extracted by automated query were systematically confirmed by manual audit of EHR visit notes. Variables of interest were operationally defined with specific parameters and collected through prespecified systematic protocols to minimize potential bias related to recall, missing data, and other factors during the EHR data extraction process.26,27 The study was approved by the health center's Institutional Review Board.

Variables and operationalization

Outcomes

The two outcome variables in this study were (1) history of any gender-affirming surgery (yes, no) and (2) age of gender-affirming hormone therapy initiation (years). We determined age of hormone therapy initiation for each participant by manual EHR audit to assess the date of first hormone therapy, which was systematically documented for transgender patients in the health center's EHR. History of any gender-affirming surgery (chest construction, breast augmentation, facial feminization, phalloplasty, metoidioplasty, vaginoplasty, hysterectomy, oophorectomy, orchiectomy, or other gender-affirming procedures) was determined by manual EHR audit, as these surgical procedures were also systematically documented in the EHR.

Statistical predictors

We assessed statistical predictors of age of hormone therapy initiation and of any gender-affirming surgery in four areas: (1) demographics, (2) gender identity-related characteristics, (3) sexual history, and (4) mental health. Presence or absence of these characteristics was determined from the EHR for the 5-year study period through a combination of automated queries and manual chart audit. The statistical predictors are detailed in Tables 1–4.

Table 1.

Demographics

Variable TM (n=73) TF (n=72) Total (N=145) TM vs. TF, p
Age in years
 Mean (SD) 27.9 (6.9) 35.7 (13.7) 31.8 (11.5)  
 Median 25.0 30.0 27.0 0.001
 Range 19–50 21–64 19–64  
Population age strata in sample, n (%)
 18–25 years 40 (54.8) 24 (33.3) 64 (44.1) <0.001
 26–49 years 32 (43.8) 33 (45.8) 65 (44.8)  
 50+ years 1 (1.4) 15 (20.8) 16 (11.0)  
Race/ethnicity, n (%)
 White 55 (75.3) 60 (83.3) 115 (79.3) 0.235
 Black/African American 5 (6.8) 1 (1.4) 6.0 (4.1)  
 Latinx/Hispanic 2 (2.7) 3 (4.2) 5.0 (3.4)  
 Multiracial 7 (9.6) 5 (6.9) 12.0 (8.3)  
 Other 3 (4.1) 2 (2.8) 5.0 (3.4)  
 Not indicated 1 (1.4) 1 (1.4) 2.0 (1.4)  
Employment, n (%)
 Working full or part time 51 (69.9) 48 (66.7) 99 (68.3) 0.200
 Not working (unemployed, retired, or disabled) 10 (13.7) 17 (23.6) 27 (18.6)  
 Student 12 (16.4) 7 (9.7) 19 (13.1)  
Income, n (%)       0.587
 At or below poverty level 29 (39.7) 31 (43.1) 60 (41.4)  
 100–200% of poverty level 8 (11.0) 11 (15.3) 19 (13.1)  
 200–300% of poverty level 17 (23.3) 11 (15.3) 28 (19.3)  
 >300% of poverty level 17 (23.3) 19 (26.4) 36 (24.8)  
 Not indicated 2 (2.7) 0 (0.0) 2 (1.4)  

Bold indicates statistical significance (p<0.05). Reported p-values are from Fisher's exact tests wherein cell sizes are small (<5). Response rate was 100% for all variables except where table states “Not indicated.”

SD, standard deviation; TF, trans feminine; TM, trans masculine.

Table 2.

Gender Identity-Related Characteristics

Variable TM (n=73), n (%) TF (n=72), n (%) Total (N=145), n (%) TM vs. TF, p
Gender identity when established care at community health center       <0.001
 Female 5 (6.8) 49 (68.1) 54 (37.2)  
 Male 49 (67.1) 7 (9.7) 56 (38.6)  
 Genderqueer/nonbinary 19 (26.0) 16 (22.2) 35 (24.1)  
Hormones prescribed by primary care provider 69 (94.5) 69 (95.8) 138 (95.2) 1.000
Current medically unmonitored hormone use 0 (0.0) 3 (4.2) 3 (2.1) 0.120
Any past medically unmonitored hormone use 0 (0.0) 6 (8.3) 6 (4.1) 0.013
Any gender-affirming surgery 27 (37.0) 20 (27.8) 47 (32.4) 0.314
Age of hormone therapy initiation
 Mean (SD) 27.9 (7.1) 33.3 (13.2) 31.8 (11.1)  
 Median 24.0 27.0 27.0 0.001
 Range 8–50 15–64 8–64  

Bold indicates statistical significance (p<0.05). Reported p-values are from Fisher's exact tests wherein cell sizes are small (<5). Response rate was 100% for all variables except where table states “Not indicated.”

Table 3.

Sexual Orientation and History

Variable TM (n=73), n (%) TF (n=72), n (%) Total (N=145), n (%) TM vs. TF, p
Sexual orientation       0.019
 Bisexual 9 (12.3) 22 (30.6) 31 (21.4)  
 Lesbian, gay, or homosexual 14 (19.2) 15 (20.8) 29 (20.0)  
 Straight or heterosexual 15 (20.5) 9 (12.5) 24 (16.6)  
 Something else 31 (42.5) 18 (25.0) 49 (33.8)  
 Does not know 4 (5.5) 8 (11.1) 12 (8.3)  
Primary sex partner 48 (65.8) 42 (58.3) 90 (62.1) 0.454
Casual sex partner(s) 5 (6.8) 5 (6.9) 10 (6.9) 0.982
Any STI diagnosis 13 (17.8) 7 (9.7) 20 (13.8) 0.242

Bold indicates statistical significance (p<0.05). Reported p-values are from Fisher's exact tests wherein cell sizes are small (<5). Response rate was 100% for all variables except where table states “Not indicated.”

Table 4.

Mental Health

Variable TM (n=73), n (%) TF (n=72), n (%) Total (N=145), n (%) TM vs. TF, p
Lifetime substance use 59 (80.8) 54 (75.0) 113 (77.9) 0.519
 Current alcohol use 52 (71.2) 49 (68.1) 101 (69.7) 0.814
 Past alcohol use 7 (9.6) 6 (8.3) 13 (9.0) 0.791
 Current cannabis use 26 (35.6) 22 (30.6) 48 (33.1) 0.638
Any assessed psychiatric diagnoses 45 (61.6) 38 (52.8) 83 (57.2) 0.362
 Lifetime substance use disorder 13 (17.8) 17 (23.6) 30 (20.7) 0.511
 Current alcohol use disorder 3 (4.1) 8 (11.1) 11 (7.6) 0.129
 Past alcohol use disorder 5 (6.8) 5 (6.9) 10 (6.9) 0.982
 Current cannabis use disorder 7 (9.6) 5 (6.9) 12 (8.3) 0.782
 PTSD 6 (8.2) 3 (4.2) 9 (6.2) 0.494
 Anxiety disorder 28 (38.4) 13 (18.1) 41 (28.3) 0.011
 Major depressive disorder 30 (41.1) 25 (34.7) 55 (37.9) 0.536
 Bipolar disorder 2 (2.7) 2 (2.8) 4 (2.8) 1.000
 Personality disorder 2 (2.7) 1 (1.4) 3 (2.1) 1.000
History of suicide attempt 11 (15.1) 9 (12.5) 20 (13.8) 0.836
History of inpatient psychiatric treatment 11 (15.1) 6 (8.3) 17 (11.7) 0.316
History of residential or partial hospitalization program 2 (2.7) 3 (4.2) 5 (3.4) 0.681
Current psychotherapist 47 (64.4) 42 (58.3) 89 (61.4) 0.564
Current psychopharmacologist 36 (49.3) 29 (40.3) 65 (44.8) 0.354
Psychiatrist integrated with primary care 3 (4.1) 3 (4.2) 6 (4.1) 1.000
Addictions program integrated with primary care 0 (0.0) 2 (2.8) 2 (1.4) 0.245
Psychiatrist elsewhere 22 (30.1) 13 (18.1) 35 (24.1) 0.132
Current case management utilization 18 (24.7) 15 (20.8) 33 (22.8) 0.723

Bold indicates statistical significance (p<0.05). Reported p-values are from Fisher's exact tests wherein cell sizes are small (<5). Response rate was 100% for all variables except where table states “Not indicated.”

Statistical analysis

Univariate statistics were used to examine the distributions of all variables (mean, median, standard deviation, frequency, and proportion) overall and stratified by gender identity: trans masculine (TM) versus trans feminine (TF). Following descriptive statistics, bivariate analyses were conducted by gender identity to compare TM versus TF patients. Mann–Whitney U tests were used to assess median differences for non-normally distributed continuous variables (i.e., “current age” and “age of medical gender affirmation”). Pearson's chi-square (χ2) tests with Yates' correction were used to examine any differences in expected and observed proportions by gender identity. Where sparse data caused expected counts to be <5, Fisher's exact tests were utilized to obtain exact p-values to accompany χ2 test statistics.

Multivariable regression analyses were conducted with variables that had >85% completeness and were selected based on clinical hypotheses. Among patients in the sample, 56 (27.9%) did not have complete data for all desired variables and were excluded from the multivariable regression procedures. Thus, multivariable regression analyses were restricted to 145 patients (72.1% of the original sample: a random distribution of 73 TM and 72 TF patients). To assess how sample characteristics of these 145 eligible participants compared with the health center's overall pool of 1683 transgender patients, we conducted χ2 analyses comparing the 2 groups across each race/ethnicity category and found no statistically significant differences at the p<0.05 level in the proportion of patients who identified as “white,” “black/African American,” “Latinx/Hispanic,” “multiracial,” “other,” or “not indicated.” A “dummy” variable coding exclusion versus inclusion (missing vs. not missing) in the multivariable analyses was created and analyzed as a bivariate against each regression outcome to ascertain whether exclusion introduced bias. In these sensitivity analyses, this covariate did not reach statistical significance in any of the models. To increase power, the sample was analyzed in aggregate and not stratified by gender identity. Gender identity was included as a covariate. Model building initially focused on examining bivariate models for each of the variables listed in Tables 1–4 to identify those with statistical significance. Factors significant at the p<0.05 level were entered into a multivariable model, and variable selection for independent associations was implemented using the backward elimination method. All significant variables were entered into the equation and the least useful variables were eliminated one at a time using the smallest χ2 to remove, to a threshold for inclusion of p<0.05.28

For the binary outcome variable, multivariable logistic regression models were fit to examine factors associated with history of gender-affirming surgery. For the regression on history of gender-affirming surgery, the variable “current age” was a significant bivariate due to its strong correlation with a number of other variables and was, therefore, entered after conducting model selection with the other variables. The inference for the final model for history of gender-affirming surgery did not differ from the model before adding the “current age” variable. The “current age” variable was excluded from the regression on “age of hormone therapy initiation” due to its especially strong correlation in that case.

For the continuous outcome variable “age of hormone therapy initiation,” given its distribution and dispersion, negative binomial multivariable regression models were fit to examine factors associated with this outcome variable. Data analysis was conducted using SAS Studio, Release 3.5, and Microsoft Excel 2010.

Results

Descriptive and bivariate analyses

Characteristics of the study sample are presented in Tables 1–4 for TM and TF participants separately, and for the total sample in aggregate. Also included in these tables are bivariate statistics comparing TM versus TF individuals.

Demographics

Overall, 50% of the sample was TM participants and 50% TF participants. The mean age of participants was 31.8 (SD=11.5) years. The difference in median age between TM participants (25 years old) and TF participants (30 years old) was statistically significant (Mann–Whitney U=1753, p=0.001). Four percent of the sample identified as African American/black, 3% identified as Latinx/Hispanic, and 8% identified as multiracial. Forty-one percent of the sample reported living at or below the federal poverty level (Table 1).

Gender identity-related characteristics

Nearly one in four (24.1%) patients identified as genderqueer/nonbinary, in roughly equal proportions for TM (26.0%) and TF (22.2%). Within the study sample, 95% of participants were actively prescribed gender-affirming hormones by their primary care provider. The mean age of hormone therapy initiation was 31.8 (SD=11.1) years. The difference in median age of hormone therapy initiation between TM participants (24 years old) and TF participants (27 years old) was statistically significant (Mann–Whitney U=1802.5, p=0.001). TF participants were more likely than TM participants to have a history of medically unmonitored hormone use, and this difference was statistically significant, χ2 (2, N=145)=4.42, p<0.013 (Table 2).

Thirty-two percent of participants had a history of gender-affirming surgery. Among TM participants, 37% had a history of gender-affirming surgery, with 35.6% undergoing chest construction, 5.5% undergoing hysterectomy, and 5.5% undergoing oophorectomy. In addition, 1 TM patient in the original sample of 201 adults had undergone phalloplasty and was excluded from multivariable regression procedures due to not having complete data for all desired variables. Among TF, 27.8% had a history of gender-affirming procedures, with 8.3% undergoing breast augmentation, 6.9% undergoing vaginoplasty, 2.8% undergoing facial feminization, 2.8% undergoing orchiectomy without vaginoplasty, and 12.5% undergoing other gender-affirming procedures (i.e., other implants or electrolysis).

Sexual history

The most commonly reported sexual orientation was “something else” (33.8%). Substantial heterogeneity in the distribution of sexual orientation was found by gender identity, χ2 (4, N=145)=11.76, p=0.019, with a higher proportion of TM versus TF endorsing “something else” (42.5% vs. 25.0%) or “straight” (20.5% vs. 12.5%), and a higher proportion of TF versus TM identifying as “bisexual” (30.6% vs. 12.3%) or “does not know” (11.1% vs. 5.5%). The majority of the sample (62.1%) had a primary sex partner, 6.9% reported one or more casual sex partners, and 13.8% had a sexually transmitted infection diagnosis history (Table 3).

Mental health

Substance use disorders and other psychiatric diagnoses were high in the sample, with more than half (57.2%) diagnosed with a psychiatric disorder. TM participants were more likely than TF participants to have an anxiety disorder, and this difference was statistically significant, χ2 (1, N=145)=6.40, p<0.011 (Table 4).

Multivariable regression models

Table 5 presents multivariable logistic regression modeling with history of any gender-affirming surgery as the primary outcome. Factors associated with a statistically significant increase in the odds of undergoing gender-affirming surgery (at p<0.05) were (1) age in years, (2) income >300% of the federal poverty level, (3) not identifying as bisexual, and (4) not having a current psychotherapist.

Table 5.

Significant Outcomes of Binary Logistic Regressions on History of Any Gender-Affirming Surgery

  Bivariate models Multivariable model
Variable OR (95% CI) p aOR (95% CI) p
Demographics
 Age in years 1.04 (1.01–1.07) 0.021 1.03 (1.00–1.07) 0.047
 Income at 100–200% of poverty level 0.21 (0.05–0.96) 0.044    
 Income >300% of poverty level 2.76 (1.27–6.01) 0.011 3.17 (1.34–7.52) 0.009
Sexual history
 Bisexual 0.33 (0.12–0.92) 0.035 0.23 (0.07–0.71) 0.011
 Straight/heterosexual 2.46 (1.01–5.99) 0.048    
Mental health
 Current psychotherapist 0.41 (0.20–0.83) 0.014 0.35 (0.16–0.76) 0.008

N=145. Bold indicates statistical significance (p<0.05).

aOR, adjusted odds ratio; 95% CI, 95% confidence interval; OR, odds ratio.

For the multivariable negative binomial regression model given in Table 6, the primary outcome is age of initiation of gender-affirming hormone therapy. There was a statistically significant association (at p<0.05) between younger age at time of hormone therapy initiation and each of the following factors: (1) being TM, (2) being a student, (3) identifying as straight/heterosexual, (4) having casual sex partner(s), and (5) having no past alcohol use disorder.

Table 6.

Significant Outcomes of Negative Binomial Regressions on Age of Hormone Therapy Initiation

  Bivariate models Multivariable model
Variable Coefficient (95% CI) p Coefficient (95% CI) p
Demographics
 Male sex assigned at birth (i.e., TF) 0.24 (0.13–0.34) <0.001 0.21 (0.11–0.31) <0.001
 Student status −0.21 (−0.38 to −0.04) 0.013 −0.16 (−0.31 to −0.01) 0.041
 Income >300% of poverty level 0.14 (0.01–0.27) 0.030    
Gender identity-related characteristics
 Male gender identity −0.17 (−0.29 to −0.06) 0.002    
Sexual history
 Straight/heterosexual −0.17 (−0.33 to −0.02) 0.024 −0.15 (−0.28 to −0.01) 0.032
 Casual sex partner(s) −0.28 (−0.50 to −0.05) 0.017 −0.31 (−0.51 to −0.10) 0.003
Mental health
 Past alcohol use 0.20 (0.01– 0.39) 0.035    
 Lifetime substance use disorder 0.15 (0.02–0.29) 0.026    
 Current alcohol use disorder 0.22 (0.02–0.43) 0.031    
 Past alcohol use disorder 0.30 (0.09–0.51) 0.005 0.27 (0.08–0.45) 0.005

N=145. Bold indicates statistical significance (p<0.05).

Discussion

In this EHR review study based at an LGBT-focused urban health center, almost all transgender adults were receiving gender-affirming hormone therapy from their primary care provider, similar to the high prevalence of prescribed hormone therapy in other samples of transgender adults from specialized clinical settings.29–31 Compared with TM participants, we found that TF participants were first prescribed gender-affirming hormone therapy at an older age and also had a greater likelihood of past medically unmonitored hormone use. These differences may be related to TF participants being older than TM participants in the sample (e.g., age cohort effects) or to higher prevalence of discriminatory experiences and/or more barriers to accessing gender-affirming health services among TF people.32 Our findings are consistent with previous reports indicating that medically unmonitored hormone use among TF people typically occurs in the context of significant barriers to accessing and receiving gender-affirming medical care.15,18,33,34 The results in this study extend findings from previous research with TF people that showed prevalence of medically unmonitored hormone use as high as 60% in the United States and Canada.13,15,34,35

Within our study sample, 32% of participants had a documented history of gender-affirming surgery. This finding is similar to a recent retrospective chart review conducted at a specialized endocrinology clinic where 35% of transgender patients had a history of gender-affirming surgery.36 Consistent with our study, this chart review found that TM patients underwent chest construction surgery more often than hysterectomy and/or oophorectomy, and that TF patients underwent either breast augmentation or genital surgery more often than facial feminization surgery. A recent survey study of both TM and TF adults found that 23% of respondents reported past chest surgery and 11% reported past genital reconstruction surgery.22 In contrast to that study, our analysis did not exclude the large subgroup of participants (24.1%) with nonbinary gender identities (e.g., genderqueer), who often face unique barriers to receiving gender-affirming surgeries in the context of surgical prerequisites that may favor candidates with more traditional binary gender identities.2 To our knowledge, no studies to date have assessed whether nonbinary transgender adults are as likely to seek gender-affirming surgeries as their counterparts with binary gender identities.

We found that transgender adults with a history of gender-affirming surgery were more likely to be older and to have a higher income than those without a history of gender-affirming surgery. Based on EHR data, we were unable to consistently assess age at time of first gender-affirming surgery and whether this age was associated with prior duration of engagement in gender-affirming hormone therapy. Older transgender adults are developmentally more likely to have established the financial security, psychosocial stability, and support networks to facilitate effectively accessing gender-affirming surgical care, even in the context of recent expansion of insurance coverage for gender-affirming surgical procedures in the United States.19,37 It is also possible that transgender people who undergo gender-affirming surgery may be more capable of increasing their incomes because of the higher quality of life and improved functioning observed among transgender adults after accessing gender-affirming care.4 In the context of prior research showing that transgender adults in the United States on the low end of the socioeconomic status (SES) spectrum (e.g., low income) report higher rates of lifetime refusal of healthcare than those of higher SES,38 our findings point to an SES gradient in access to gender-affirming surgeries, with disparities in access for low-income transgender adults.

Bisexual-identified participants in this sample were less likely to have had gender-affirming surgery. Some experts on the topic of sexuality among transgender people have pointed to the adverse impact of medical gatekeeping by clinicians who historically viewed a “non-normative” sexual orientation (e.g., not “straight” or “heterosexual”) as an ineligibility criterion for gender-affirming body modifications.39 The EHR data did not afford us the opportunity to assess differences based on sexual orientation in the likelihood of seeking gender-affirming surgery. Not currently having a psychotherapist was associated with a history of gender-affirming surgery. The lower likelihood of having a psychotherapist among participants with past gender-affirming surgery may be related to the high degree of psychiatric stability typically required to access gender-affirming surgical procedures,2 consistent with previous research indicating that the presence of a mood disorder is associated with a longer time lag between initially presenting for gender-affirming outpatient care and ultimately accessing gender-affirming genital surgery.40 Alternatively, this result may be due to significant improvement in psychological functioning among transgender people whose gender has been affirmed through access to healthcare.4

This study also assessed age of initiation of gender-affirming hormone prescriptions. Transgender adults who accessed hormone prescriptions early in life were more likely to be TM and to be a student. It may be that transgender participants who accessed hormone prescriptions at a younger age were more likely to be TM in light of greater stigma and barriers to healthcare linkage experienced by TF people.32 Student status among transgender adults may be a marker of higher educational and economic status associated with greater health literacy and financial resources, which could facilitate earlier access to hormone prescriptions. Another possibility is that access to gender-affirming hormone prescriptions early in life led to enhanced psychological functioning and, therefore, more advanced subsequent educational attainment.4

With regard to sexual history, accessing hormone prescriptions at younger ages was associated with identifying as straight/heterosexual and having casual sex partner(s). Transgender participants with societally defined normative sexual orientations (e.g., “straight” or “heterosexual” people) may have encountered less medical gatekeeping when seeking hormone prescriptions early in life from clinicians who viewed their more traditional sexuality as an indicator of the appropriateness of their transgender identity.39 It is also possible that transgender adults who are not heterosexual- or straight-identified tend to seek hormone therapy later in life or with lower prevalence, or that among transgender adults this subpopulation encounters more barriers to healthcare access in general. Accessing gender-affirming hormone prescriptions early in life may have been associated with having one or more casual sex partners due to greater comfort engaging in sexual activity among transgender adults after accessing medical gender affirmation.41–43

In terms of mental health, younger age of hormone prescription access was associated with not having a past alcohol use disorder. Participants who accessed gender-affirming hormones at a younger age may have had less of the behavioral disorganization or clinician-level gatekeeping that can occur in the context of an alcohol use disorder and impede linkage to gender-affirming medical care. Alternatively, transgender adults with access to gender-affirming hormones at an earlier age may have subsequently experienced less gender dysphoria and, therefore, been less likely to cope with gender-related distress by means of at-risk alcohol use.2,9,32 That younger age of hormone therapy initiation was protective for alcohol use disorder suggests that early access to gender-affirming hormones may buffer against subsequent adverse substance use disorder outcomes.

A limitation of this study is its cross-sectional design, which does not permit causal inference about the relationships of independent variables to past gender-affirming surgery or age of hormone therapy initiation. Another limitation of our work is the derivation of this study sample of transgender adults from one LGBT-specialized urban community health center in the United States with a primarily white patient population, which reduces our ability to generalize these findings to all transgender communities in any region. The retrospective EHR review method is susceptible to unintended bias related to documentation that may be incomplete, clinical information that may not have been recorded, and subjective interpretation of some variables of interest from the charts (e.g., defining “casual” and “primary” sex partners).26,27,44–46 Individual variability among members of the clinical care team in their practice of entering information into EHR fields may have also diminished data integrity.47 Finally, stigma was not assessed as part of this study because this information is not captured in EHRs. Future research would benefit from considering the role of stigma in access to and receipt of gender-affirming hormones and surgical interventions.48

Conclusion

Although not without limitations, this study extends our understanding of the prevalence of gender-affirming surgeries and age of hormone therapy initiation among both TM and TF adults. Our findings suggest that accessing these gender-affirming treatments is associated with better mental health, higher socioeconomic status, and having a heterosexual orientation. To our knowledge, this is the first study to comprehensively examine the relationship of these two categories of gender-affirming clinical care with demographics, gender identity, sexual history, and mental health. An additional strength of our research is that approximately one-quarter of the study sample were genderqueer/nonbinary patients at the time of clinical care initiation at the health center, offering greater heterogeneity of gender identities in the sample and reflecting the reality of clinical practices serving transgender patients. Our study also serves as a demonstration of how systematic gender identity data collection in EHRs provides opportunities to better understand the unique health needs of transgender people engaged in clinical care. Future studies ought to continue to focus on barriers and facilitators of gender-affirming care for transgender adults, to facilitate the development of individual- and systems-level interventions, as well as policies, that help expand access to medically necessary care for this highly underserved and vulnerable population, reduce health disparities, and improve both physical and mental health outcomes.

Abbreviations Used

aOR

adjusted odds ratio

95% CI

95% confidence interval

EHR

electronic health record

OR

odds ratio

SD

standard deviation

SES

socioeconomic status

TF

trans feminine

TM

trans masculine

Acknowledgments

This research was supported by Grant U30CS22742 from the Health Resources and Services Administration Bureau of Primary Health Care and by Grant R34MH104072 from the National Institute of Mental Health.

Author Disclosure Statement

No competing financial interests exist.

References

  • 1.Stroumsa D. The state of transgender health care: policy, law, and medical frameworks. Am J Public Health. 2014;104:e31–e38 [DOI] [PMC free article] [PubMed] [Google Scholar]
  • 2.Coleman E, Bockting W, Botzer M, et al. . Standards of care for the health of transsexual, transgender, and gender-nonconforming people, version 7. Int J Transgend. 2012;13:165–232 [Google Scholar]
  • 3.American Medical Association House of Delegates. H-185.950 Removing Financial Barriers to Care for Transgender Patients. American Medical Association: Chicago, IL, 2008. [Google Scholar]
  • 4.White Hughto JM, Reisner SL. A systematic review of the effects of hormone therapy on psychological functioning and quality of life in transgender individuals. Transgend Health. 2016;1:21–31 [DOI] [PMC free article] [PubMed] [Google Scholar]
  • 5.Lindqvist EK, Sigurjonsson H, Mollermark C, et al. . Quality of life improves early after gender reassignment surgery in transgender women. Eur J Plast Surg. 2017;40:223–226 [DOI] [PMC free article] [PubMed] [Google Scholar]
  • 6.Papadopulos NA, Lelle JD, Zavlin D, et al. . Quality of life and patient satisfaction following male-to-female sex reassignment surgery. J Sex Med. 2017;14:721–730 [DOI] [PubMed] [Google Scholar]
  • 7.Keuroghlian AS, Reisner SL, White JM, Weiss RD. Substance use and treatment of substance use disorders in a community sample of transgender adults. Drug Alcohol Depend. 2015;152:139–146 [DOI] [PMC free article] [PubMed] [Google Scholar]
  • 8.Wilson EC, Chen YH, Arayasirikul S, et al. . Connecting the dots: examining transgender women's utilization of transition-related medical care and associations with mental health, substance use, and HIV. J Urban Health. 2015;92:182–192 [DOI] [PMC free article] [PubMed] [Google Scholar]
  • 9.James SE, Herman JL, Rankin S, et al. . The Report of the 2015 U.S. Transgender Survey. Washington, D.C.: National Center for Transgender Equality, 2016. [Google Scholar]
  • 10.Safer JD, Coleman E, Feldman J, et al. . Barriers to healthcare for transgender individuals. Curr Opin Endocrinol Diabetes Obes. 2016;23:168–171 [DOI] [PMC free article] [PubMed] [Google Scholar]
  • 11.Keuroghlian AS, Ard KL, Makadon HJ. Advancing health equity for lesbian, gay, bisexual and transgender (LGBT) people through sexual health education and LGBT-affirming health care environments. Sex Health. 2017. [Epub ahead of print]; DOI: 10.1071/SH16145 [DOI] [PubMed]
  • 12.Xavier J. Final Report of the Washington Transgender Needs Assessment Survey. Washington, DC: Administration for HIV and AIDS, Government of the District of Columbia, 2000. [Google Scholar]
  • 13.Garofalo R, Deleon J, Osmer E, et al. . Overlooked, misunderstood and at-risk: exploring the lives and HIV risk of ethnic minority male-to-female transgender youth. J Adolesc Health. 2006;38:230–236 [DOI] [PubMed] [Google Scholar]
  • 14.Benotsch EG, Zimmerman R, Cathers L, et al. . Non-medical use of prescription drugs, polysubstance use, and mental health in transgender adults. Drug Alcohol Depend. 2013;132:391–394 [DOI] [PubMed] [Google Scholar]
  • 15.Rotondi NK, Bauer GR, Scanlon K, et al. . Nonprescribed hormone use and self-performed surgeries: “do-it-yourself” transitions in transgender communities in Ontario, Canada. Am J Public Health. 2013;103:1830–1836 [DOI] [PMC free article] [PubMed] [Google Scholar]
  • 16.Operario D, Nemoto T. HIV in transgender communities: syndemic dynamics and a need for multicomponent interventions. J Acquir Immune Defic Syndr. 2010;55(Suppl 2):S91–S93 [DOI] [PMC free article] [PubMed] [Google Scholar]
  • 17.Aguayo-Romero RA, Reisen CA, Zea MC, et al. . Gender affirmation and body modification among transgender persons in Bogota, Colombia. Int J Transgend. 2015;16:103–115 [DOI] [PMC free article] [PubMed] [Google Scholar]
  • 18.Radix A, Sevelius J, Deutsch MB. Transgender women, hormonal therapy and HIV treatment: a comprehensive review of the literature and recommendations for best practices. J Int AIDS Soc. 2016;19(Suppl 2):2081–0. [DOI] [PMC free article] [PubMed] [Google Scholar]
  • 19.Berli JU, Knudson G, Fraser L, et al. . What surgeons need to know about gender confirmation surgery when providing care for transgender individuals: a review. JAMA Surg. 2017;152:394–400 [DOI] [PubMed] [Google Scholar]
  • 20.Beek TF, Kreukels BP, Cohen-Kettenis PT, Steensma TD. Partial treatment requests and underlying motives of applicants for gender affirming interventions. J Sex Med. 2015;12:2201–2205 [DOI] [PubMed] [Google Scholar]
  • 21.Giami A, Beaubatie E. Gender identification and sex reassignment surgery in the trans population: a survey study in France. Arch Sex Behav. 2014;43:1491–1501 [DOI] [PubMed] [Google Scholar]
  • 22.Sineath RC, Woodyatt C, Sanchez T, et al. . Determinants of and barriers to hormonal and surgical treatment receipt among transgender people. Transgend Health. 2016;1:129–136 [DOI] [PMC free article] [PubMed] [Google Scholar]
  • 23.Reisner SL, Bradford J, Hopwood R, et al. . Comprehensive transgender healthcare: the gender affirming clinical and public health model of Fenway Health. J Urban Health. 2015;92:584–592 [DOI] [PMC free article] [PubMed] [Google Scholar]
  • 24.Mayer K, Appelbaum J, Rogers T, et al. . The evolution of the Fenway Community Health model. Am J Public Health. 2001;91:892–894 [DOI] [PMC free article] [PubMed] [Google Scholar]
  • 25.Thompson SK. Simple Random sampling. In: Sampling, 3rd ed. Hoboken: John Wiley & Sons, 2012, pp. 9–37 [Google Scholar]
  • 26.Myers L, Stevens J. Using EHR to conduct outcome and health services research. In: Secondary Analysis of Electronic Health Records. (MIT Critical Data; ed.). Cham, Switzerland: Springer International Publishing, 2016, pp. 61–70. [PubMed] [Google Scholar]
  • 27.Casey JA, Schwartz BS, Stewart WF, Adler NE. Using electronic health records for population health research: a review of methods and applications. Annu Rev Public Health. 2016;37:61–81 [DOI] [PMC free article] [PubMed] [Google Scholar]
  • 28.Afifi A, May S, Clark VA. Computer-Aided Multivariate Analysis, 4th ed. Boca Raton: Chapman and Hall/CRC, 2004 [Google Scholar]
  • 29.Gorin-Lazard A, Baumstarck K, Boyer L, et al. . Hormonal therapy is associated with better self-esteem, mood, and quality of life in transsexuals. J Nerv Ment Dis. 2013;201:996–1000 [DOI] [PubMed] [Google Scholar]
  • 30.Judge C, O'Donovan C, Callaghan G, et al. . Gender dysphoria—prevalence and co-morbidities in an Irish adult population. Front Endocrinol (Lausanne). 2014;5:8–7. [DOI] [PMC free article] [PubMed] [Google Scholar]
  • 31.Wierckx K, Elaut E, Declercq E, et al. . Prevalence of cardiovascular disease and cancer during cross-sex hormone therapy in a large cohort of trans persons: a case-control study. Eur J Endocrinol. 2013;169:471–478 [DOI] [PubMed] [Google Scholar]
  • 32.Grant JM, Mottet LA, Tanis J, et al. . Injustice at Every Turn: A Report of the National Transgender Discrimination Survey. Washington, D.C.: National Center for Transgender Equality, and the National Gay and Lesbian Task Force, 2011. [Google Scholar]
  • 33.Mepham N, Bouman WP, Arcelus J, et al. . People with gender dysphoria who self-prescribe cross-sex hormones: prevalence, sources, and side effects knowledge. J Sex Med. 2014;11:2995–3001 [DOI] [PubMed] [Google Scholar]
  • 34.Sanchez NF, Sanchez JP, Danoff A. Health care utilization, barriers to care, and hormone usage among male-to-female transgender persons in New York City. Am J Public Health. 2009;99:713–719 [DOI] [PMC free article] [PubMed] [Google Scholar]
  • 35.de Haan G, Santos GM, Arayasirikul S, Raymond HF. Non-prescribed hormone use and barriers to care for transgender women in San Francisco. LGBT Health. 2015;2:313–323 [DOI] [PubMed] [Google Scholar]
  • 36.Kailas M, Lu HMS, Rothman EF, Safer JD. Prevalence and types of gender-affirming surgery among a sample of transgender endocrinology patients prior to state expansion of insurance coverage. Endocr Pract. 2017;23:780–786 [DOI] [PubMed] [Google Scholar]
  • 37.Baker KE. The future of transgender coverage. N Engl J Med. 2017;376:1801–1804 [DOI] [PubMed] [Google Scholar]
  • 38.White Hughto JM, Murchison GR, Clark K, et al. . Geographic and individual differences in healthcare access for U.S. transgender adults: a multilevel analysis. LGBT Health. 2016;3:424–433 [DOI] [PMC free article] [PubMed] [Google Scholar]
  • 39.Rowniak S, Chesla C. Coming out for a third time: transmen, sexual orientation, and identity. Arch Sex Behav. 2013;42:449–461 [DOI] [PubMed] [Google Scholar]
  • 40.Leinung M, Urizar M, Patel N, Sood S. Endocrine treatment of transsexual persons: extensive personal experience. Endocr Pract. 2013;19:644–650 [DOI] [PubMed] [Google Scholar]
  • 41.Doorduin T, van Berlo W. Trans people's experience of sexuality in the Netherlands: a pilot study. J Homosex. 2014;61:654–672 [DOI] [PubMed] [Google Scholar]
  • 42.Bauer GR, Hammond R. Toward a broader conceptualization of trans women's sexual health. Can J Hum Sex. 2015;24:1–11 [Google Scholar]
  • 43.Hill-Meyer T, Scarborough D. Sexuality. In: Trans Bodies, Trans Selves: A Resource for the Transgender Community. (Erickson-Schroth L; ed). New York: Oxford University Press, 2014, pp. 355–389 [Google Scholar]
  • 44.Dworkin RJ. Hidden bias in the use of archival data. Eval Health Prof. 1987;10:173–185 [DOI] [PubMed] [Google Scholar]
  • 45.Gearing RE, Mian IA, Barber J, Ickowicz A. A methodology for conducting retrospective chart review research in child and adolescent psychiatry. J Can Acad Child Adolesc Psychiatry. 2006;15:126–134 [PMC free article] [PubMed] [Google Scholar]
  • 46.Hess DR. Retrospective studies and chart reviews. Respir Care. 2004;49:1171–1174 [PubMed] [Google Scholar]
  • 47.Pan L, Fergusson D, Schweitzer I, Hebert PC. Ensuring high accuracy of data abstracted from patient charts: the use of a standardized medical record as a training tool. J Clin Epidemiol. 2005;58:918–923 [DOI] [PubMed] [Google Scholar]
  • 48.White Hughto JM, Reisner SL, Pachankis JE. Transgender stigma and health: a critical review of stigma determinants, mechanisms, and interventions. Soc Sci Med. 2015;147:222–231 [DOI] [PMC free article] [PubMed] [Google Scholar]

References

Cite this article as: Beckwith N, Reisner SL, Zaslow S, Mayer KH, Keuroghlian AS (2017) Factors associated with gender-affirming surgery and age of hormone therapy initiation among transgender adults, Transgender Health 2:1, 156–164, DOI: 10.1089/trgh.2017.0028.


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