Sexuality and fertility desire in a large cohort of individuals with 46, XY differences in sex development

Batista, Rafael Loch; Inácio, Marlene; Brito, Vinicius Nahime; Sircili, Maria Helena Palma; Bag, Min Jeong; Gomes, Nathália Lisboa; Costa, Elaine Maria Frade; Domenice, Sorahia; Mendonca, Berenice Bilharinho

doi:10.1016/j.clinsp.2023.100185

Abstract

Objective:

To analyze aspects of sexual life and fertility desire among 46, XY DSD people, including those who changed their gender.

Methods:

It is a cross-sectional study including 127 adults (> 16 years of age) with 46, XY DSD (83 females; 44 males) from a Single Brazilian Tertiary-Care Medical Center.

Results:

Sexual fantasies and masturbation were more frequent in 46, XY DSD males, whereas orgasm and sexual life satisfaction were similar in both genders. More 46, XY DSD men than women had a long-term romantic relationship. 46, XY DSD women with prenatal androgen exposure reported more fear of being romantically rejected. External genitalia appearance at birth did not impact the sexuality of 46, XY DSD women after surgical genital treatment had been completed. Overall, the sexual life was similar between 46, XY men assigned as males and those who changed to the male gender. Regarding sexual orientation, most self-reported as heterosexual (91% and 92% of women and men, respectively). The desire for fertility had a similar prevalence in both genders, but more women than men considered infertility a barrier to a long-term romantic relationship. Twelve individuals (7 males) had children; 10 out of 12 have adopted children.

Conclusion:

Fertility desire was shared among 46, XY DSD people, regardless of gender. Prenatal androgen exposure reduced the desire for motherhood in 46, XY women. 46, XY DSD people who changed from female to male gender presented similar sexual parameters as those assigned as males. Among females, virilized genitalia at birth did not affect sexuality once the surgical treatment is completed.

Keywords:
Sexual life; Differences of sex development; Human sexuality; Sexual orientation; Gender change

HIGHLIGHTS

Prenatal androgen exposure reduced the desire for motherhood in 46, XY women.

46, XY DSD people who changed from female to male gender presented similar sexual parameters as those assigned as males.

Among females, virilized genitalia at birth did not affect sexuality once the surgical treatment is completed.

Fertility desire is shared among 46, XY DSD people, regardless of gender.

Introduction

One of the critical points in the care of patients with DSD is regarding sexuality,¹1 Moshiri M, Chapman T, Fechner PY, Dubinsky TJ, Shnorhavorian M, Osman S, et al. Evaluation and management of disorders of sex development: multidisciplinary approach to a complex diagnosis. Radiographics 2012;32(6):1599–618., ²2 Guerrero-Fernández J, Azcona San Julián C, Barreiro Conde J, Bermúdez de la Vega JA, Carcavilla Urquí A, Castaño González LA, et al. Management guidelines for disorders /different sex development (DSD). An Pediatr (Barc) 2018;89(5). 315.e1-.e19. which can be negatively impacted by many factors, including external genitalia appearance, prenatal steroids exposure, the incongruence between gender identity and sex assignment, negative body image, traumas, social stigma, poor familial environment, and previous genital surgery.³3 Schönbucher V, Schweizer K, Rustige L, Schützmann K, Brunner F, Richter-Appelt H. Sexual quality of life of individuals with 46,XY disorders of sex development. J Sex Med 2012;9(12):3154–70., ⁴4 e Sircili MH, Silva FA, Costa EM, Brito VN, Arnhold IJ, Dénes FT, et al. Long-term surgical outcome of masculinizing genitoplasty in large cohort of patients with disorders of sex development. J Urol 2010;184(3):1122–7. In addition, all these factors can potentially promote psychological issues and sexual dissatisfaction in these individuals.³3 Schönbucher V, Schweizer K, Rustige L, Schützmann K, Brunner F, Richter-Appelt H. Sexual quality of life of individuals with 46,XY disorders of sex development. J Sex Med 2012;9(12):3154–70., ⁵5 Köhler B, Kleinemeier E, Lux A, Hiort O, Grüters A, Thyen U, et al. Satisfaction with genital surgery and sexual life of adults with XY disorders of sex development: results from the German clinical evaluation study. J Clin Endocrinol Metab 2012;97(2):577–88.

Additionally, gender change occurs across 46, XY DSD conditions, from female to male and male to female.⁶6 Callens N, Van Kuyk M, van Kuppenveld JH, Drop SLS, Cohen-Kettenis PT, Dessens AB, et al. Recalled and current gender role behavior, gender identity and sexual orientation in adults with Disorders/Differences of Sex Development. Horm Behav 2016;86:8–20., ⁷7 Loch Batista R, Inácio M, Prado Arnhold IJ, Gomes NL, Diniz Faria JA, Rodrigues de Moraes D, et al. Psychosexual Aspects, Effects of Prenatal Androgen Exposure, and Gender Change in 46,XY Disorders of Sex Development. J Clin Endocrinol Metab 2019;104(4):1160–70. As most 46, XY DSD individuals were assigned as females in the past, female-to-male change is much more common than the opposite in this population.⁷7 Loch Batista R, Inácio M, Prado Arnhold IJ, Gomes NL, Diniz Faria JA, Rodrigues de Moraes D, et al. Psychosexual Aspects, Effects of Prenatal Androgen Exposure, and Gender Change in 46,XY Disorders of Sex Development. J Clin Endocrinol Metab 2019;104(4):1160–70., ⁸8 Kreukels BPC, Köhler B, Nordenström A, Roehle R, Thyen U, Bouvattier C, et al. Gender Dysphoria and Gender Change in Disorders of Sex Development/Intersex Conditions: Results From the dsd-LIFE Study. J Sex Med 2018;15(5):777–85. This change occurs especially among 46, XY DSD conditions associated with prenatal androgen exposure, such as 5α-reductase type 2 deficiency and 17β-hydroxysteroid dehydrogenase type 3 deficiency.⁷7 Loch Batista R, Inácio M, Prado Arnhold IJ, Gomes NL, Diniz Faria JA, Rodrigues de Moraes D, et al. Psychosexual Aspects, Effects of Prenatal Androgen Exposure, and Gender Change in 46,XY Disorders of Sex Development. J Clin Endocrinol Metab 2019;104(4):1160–70., ⁹9 Mendonca BB, Batista RL, Domenice S, Costa EM, Arnhold IJ, Russell DW, et al. Steroid 5α-reductase 2 deficiency. J Steroid Biochem Mol Biol 2016;163:206–11., ¹⁰10 Inacio M, Sircili MH, Brito VN, Domenice S, Oliveira-Junior AA, Arnhold IJ, et al. 46, XY DSD due to 17β-HSD3 deficiency and 5α-reductase type 2 deficiency. Adv Exp Med Biol 2011;707:9–14. However, data about the sexuality of 46, XY DSD individuals who changed their gender is lacking in the literature.

In this study, the authors aimed to analyze the sexual aspects (sexual life behavior and sexual orientation) and fertility desire of 46, XY DSD individuals assigned to both genders, including those who changed from female to the male gender. In addition, the authors evaluated the influence of prenatal androgen exposure based on 46, XY DSD diagnosis and virilized external genitalia at birth on the sexuality of female 46, XY DSD patients were analyzed.

Patients and methods

One-hundred and fifty-five followed by a multidisciplinary team at a single Brazilian tertiary-care medical center (Hospital das Clínicas, Medical School, Universidade de São Paulo, Brazil) were invited to participate in this study. A total of 127 agreed to participate in this study. All of them had 46, XY karyotypes. Only adult individuals (more than 16 years of age) with 46, XY DSD due to seven 46, XY DSD etiologies were enrolled, most of them with molecular diagnosis (Table 1). The mean chronological age of male and female DSD patients was 37 and 35 years, respectively. The authors performed the sequencing of 46, XY DSD candidate genes in the whole cohort. One hundred and seven (84%) individuals were assigned females at birth, whereas 20 (16%) were assigned, males. All patients who had genital surgery indicated had completed surgery at the time of inclusion in this study. The Local Ethics Committee approved the study, and all patients agreed to participate and signed the written consent term.

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Table 1
Frequency of each 46, XY DSD etiology according to sex assignment.

A self-developed questionnaire on sexual life aspects was applied by the same investigator (Inacio M), a clinical psychologist with expertise in DSD. To develop the questionnaires that were used in this study, the authors collected similar questions from previously published papers regarding the sexuality of 46, XY DSD people from 1974 to 2022.

For comparison of the sexual life parameters, the individuals were divided into three groups according to the following criteria: group A gender in adulthood: female (n = 107) vs. male (n = 20), to compare differences regarding sex assigned; group B external genitalia appearance at birth in female 46, XY DSD individuals: typical female genitalia (n = 60) vs. atypical external genitalia (n = 35), to analyze the impact of atypical external genitalia on female sexuality; and group C male gender in adulthood: 46, XY DSD individuals who were assigned male at birth (n = 20) vs. 46, XY DSD individuals who changed from female to male gender (n = 24), to evaluate the impact of gender change on their sexuality.

The degree of external genitalia undervirilization was assessed by Synnecker score,¹¹11 Sinnecker GH, Hiort O, Dibbelt L, Albers N, Dörr HG, Hauss H, et al. Phenotypic classification of male pseudohermaphroditism due to steroid 5 alpha-reductase 2 deficiency. Am J Med Genet 1996;63(1):223–30. which works on a Likert scale ranging from 1 (typically male external genitalia) to 5 (typically female external genitalia).

The chronological age at starting sexual life was self-reported. The sexual questionnaire contained the following questions with a dichotomous response (yes/no): Do you have an active sex life? Are you satisfied with your sex life? Have you been in a long-term romantic relationship? Do you have sexual fantasies? Do you practice masturbation? Do you have an orgasm? Do you be afraid of being sexually rejected? Do you feel ashamed of your body?

The frequency of sexual activity was measured as follow: What is the monthly frequency of sexual act? (1 – once; 2 – twice; 3 – three times; 4 – four times; 5 – more than four times).

Sexual orientation was assessed by both self-reported sexual orientation and sexual behavior. For self-reported sexual orientation, the patients answered the question: What is your sexual orientation? The answer was composed of four categorical options (heterosexual, homosexual, bisexual, or asexual). Sexual behavior was assessed through the question: Which gender do you practice sex? The answer was based on a Likert scale (to female gender individuals: 1 = exclusively women; 2 = more women than men; 3 = equal men and women; 4 = more men than women; 5 = exclusively men; and the opposite for male gender individuals: 1 = exclusively men to 5 = exclusively women).

Fertility issues were accessed based on the following questions after previous information regarding fertility desire and fertility potential: Do you have children? If yes, the pregnancy was: 1) Natural; 2) Induced by assisted reproductive techniques, or 3) Adopted child. If not, do you have a fertility desire? If yes, would you like to have biological children? In case of infertility: would you like to adopt a child? Are you afraid to be rejected due to infertility? How important is fertility for you (Likert scale from 1 – it is not important to 5 – it is very important). Do you think infertility is a problem for a long-term relationship (Likert scale from 1 – it is not important to 5 – it is very important).

Finally, to assess the impact of prenatal androgen exposure on sexuality, the authors divided the female patients into two subgroups, as follows: without prenatal androgen exposure (n = 41: 24 Complete Androgen Insensitivity Syndrome (CAIS), seven complete gonadal dysgeneses, 7 Leydig cell hypoplasia, 4 with 17α-hydroxylase deficiency with typical female external genitalia) and with usual male prenatal androgen exposure (n = 14; all of them with 5 alpha-reductase type 2 deficiency diagnosis).

Statistical analysis

The Shapiro-Wilk test was used to test the normal distribution of continuous variables. Descriptive statistics are presented as mean and standard deviations. Associations between categorical variables were analyzed using Chi-Square tests and contingency tables (2 × 2).¹²12 McHugh ML. The chi-square test of independence. Biochem Med (Zagreb) 2013;23(2):143–9. All analyses were performed using the SPSS 27.0 statistical analysis package (SPSS, Chicago, IL). Statistical significance was set at p < 0,05.

Results

The frequency of each 46, XY DSD diagnosis is summarized in Table 1. As far as those individuals who did not agree to participate in this study, the most frequent diagnosis was complete gonadal dysgenesis (n = 7), followed by complete androgen insensitivity (n = 6), partial androgen insensitivity (n = 4), 3β-hydroxysteroid dehydrogenase type 2 deficiency (n = 3), 17α-hydroxylase deficiency (n = 2), 5α-reductase type 2 deficiency (n = 3), 17/J-hydroxysteroid dehydrogenase type 3 deficiency (n = 2), and partial gonadal dysgenesis (n = 1). In 22 cases (78%) they were not available to attend the hospital in person at the time of this study include. One patient (a female with 5α-reductase type 2 deficiency) refused to participate because she is a nun from a catholic church. Other five individuals because they had not started their sex life at the time of this study (1 female patient with complete gonadal dysgenesis, 1 female patient with partial androgen insensitivity, 1 female patient with 17β-hydroxysteroid dehydrogenase type 3 deficiency, 1 female patient with complete androgen insensitivity, and

1 male patient with partial gonadal dysgenesis). Regarding female patients who had undergone feminizing genital surgery, the average age of surgery was 13.85 years (±9.71). The average number of genital surgical procedures was 1.31 (minimum 1, maximum 3, mode 1). Surgical procedures were performed during childhood in 14 patients (40%), at puberty in 6 patients (11-16 years of age, 17.1%), and adulthood in 15 patients (42.9%). The clitoral reduction was performed in 31 (88.6%), vaginoplasty in 3 (8%), and labioplasty in 10 (28.6%). Vaginal dilation was necessary for 13 patients (37.1%) before starting sexual activity. The 46, XY DSD diagnoses of the female individuals who had genital surgery were: partial androgen insensitivity (n = 11, 31.4%), partial gonadal dysgenesis (n = 9; 25.7%), 17α-hydroxylase deficiency (n = 2; 6%), 5α-reductase type 2 deficiency (n = 6; 17.1%), 17β-hydroxysteroid dehydrogenase type 3 deficiency (n = 7; 20%).

Sexual life in 46, XYDSD

Gender in adulthood (male vs. female)

The mean chronological age of the onset of sexual life was 22 (± 2) and 21 (± 1.5) years in the female (n = 107) and male gender (n = 20), respectively (Table 2).¹³13 Borges AL, Fujimori E, Kuschnir MC, Chofakian CB, de Moraes AJ, Azevedo GD, et al. ERICA: sexual initiation and contraception in Brazilian adolescents. Rev Saude Publica 2016;50(Suppl 1):15s. There was a statistical difference in the frequency of sexual fantasies (40% in females vs. 85% in males; p = 0.004), masturbation practice (39% in females and 75% in males; p = 0.01), and prevalence of long-term sexual partner (48% in females vs. 70% in males; p = 0.003), between both genders. However, sexual frequency, satisfaction with sexual life, and orgasm were similar in both genders (Table 2).

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Table 2
Sexual Life Parameters in 46, XY DSD Individuals according to gender at adulthood, external genitalia appearance at birth, gender change, and prenatal androgen exposure.

Impact of external genitalia appearance (typical female external genitalia at birth vs. atypical external genitalia) in 46, XY DSD females

The authors compared 95 females 46, XY DSD individuals divided according to the external genitalia appearance at birth. Sixty had typical female external genitalia (Sinnecker score 5), and 35 had atypical genitalia (Sinnecker score ranging from 2 to 4, median 3). There was no significant difference between groups in all sexual parameters (p > 0.05; Table 2). Then, the authors analyzed differences in the sexual parameters among female individuals with atypical genitalia (n = 35) at birth based on the Sinnecker score (II–IV), with no significant difference in any sexual life variable.

Male Gender in adulthood (46, XY individuals who were assigned as male vs. 46, XY individuals who changed from female to male social sex)

This comparison included individuals assigned as male (n = 20) and individuals who changed from female to male gender (n = 24) (Table 3). No significant difference in the sexual parameters was found between both groups, except for more active sexual life in adult males who changed from female to male than those assigned as male (75% vs. 96%; p = 0.04) (Table 2). Regarding sexual orientation, the frequency of non-heterosexuality was similar between both groups (Table 4).

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Table 3
Clinical and molecular data of 46, XY DSD individuals who changed from female to the male gender.

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Table 4
Sexual orientation in 46, XY DSD individuals.

Impact of estimated prenatal androgen exposure on sexuality

Afraid of being romantically rejected was also more frequent among 46, XY DSD women with prenatal androgen exposure (p = 0.001), but there were no differences in the other sexual parameters (Table 2). However, the desire for motherhood in 46, XY DSD women with prenatal androgen exposure was significantly lower than those without this exposure (p = 0.032) – Table 5.

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Table 5
Fertility issues according to prenatal androgen exposure and gender in adulthood.

Sexual orientation

According to self-reported sexual orientation, heterosexual orientation was referred by 91% (n = 76) and 90% (n = 18) of female and male individuals in adulthood, respectively (p = 0.18) (Table 4). Homosexuality was reported by 5% of the patients of both genders, whereas bisexuality by 4% in the male gender and 3% in the female gender (Table 4). Among individuals who changed from female to the male gender, 96% (n = 23) self-reported as heterosexual and 4% (n = 1) as bisexual. In the female gender, the frequency of heterosexuality was similar when considering the presence or not of atypical genitalia at birth (p = 0.17). In the male gender, the frequency of heterosexuality was similar between individuals assigned as male versus those who changed to the male gender.

Gender change

Considering the sexual life of individuals who changed their gender, most (n = 23; 96%) reported an active sexual life and had experienced romantic relationships. Feelings of body shame were present in 37% (n = 9) of individuals who changed their gender, but it was not significant from those assigned as male (Table 2). The frequency of long-term romantic partners in these individuals was 62% (n = 15) compared to 40% of those assigned as male (Table 2). Twenty-five percent of assigned males reported feeling afraid of being romantically rejected, whereas only 8% of those who changed to the male gender reported this feeling (p = 0.07) (Table 2).

The authors obtained the molecular diagnosis in 23 out of 24 subjects who changed to the male gender (Table 3). The most frequent diagnosis was 5α-reductase type 2 deficiency (n = 16; 67%) followed by 17β-HSD3 deficiency (n = 5; 21%), partial gonadal dysgenesis (n = 2; 8%), and one patient remained with unknown etiology.

Fertility issues

79% (n = 60) of women reported a desire to have children, whereas 82% (n = 28) of men reported this desire. A total of 12 individuals (7 males) had children. Among these, 10 (4 females and 6 males) out of 12 (83%) have adopted children. Two male individuals with 5α-reductase type 2 deficiency had their children after intravaginal insemination. Among individuals without children (n = 115; 90.5%), both women and men declared a desire to have children at a high frequency (79% and 82%, respectively).

Both women and men reported fear of being romantically rejected due to infertility, but more women than men reported this feeling (32% and 16%, respectively; p = 0.01). The importance of having children was greater among women than men (p = 0.01), and more women than men considered infertility a barrier to a long-term romantic relationship (p = 0.02).

Discussion

This is the first Brazilian study evaluating the sexual aspects of a large cohort of DSD people diagnosed and followed in a single tertiary center. In this study, the mean chronological age of the onset of sexual life in both genders was later than the age reported in the Brazilian population.¹³13 Borges AL, Fujimori E, Kuschnir MC, Chofakian CB, de Moraes AJ, Azevedo GD, et al. ERICA: sexual initiation and contraception in Brazilian adolescents. Rev Saude Publica 2016;50(Suppl 1):15s. but similar to the previously described in 46, XY DSD individuals.³3 Schönbucher V, Schweizer K, Rustige L, Schützmann K, Brunner F, Richter-Appelt H. Sexual quality of life of individuals with 46,XY disorders of sex development. J Sex Med 2012;9(12):3154–70. The reasons for this delay are unclear, but body shame can be a barrier to the onset of sexual activity in 46, XY DSD subjects.¹⁴14 van de Grift TC, Cohen-Kettenis PT, de Vries ALC, Kreukels BPC. (on behalf of dsd-LIFE). Body image and self-esteem in disorders of sex development: A European multi-center study. Health Psychol 2018;37(4):334–43. About one-third of people with DSD in both genders reported feeling ashamed of their own bodies[3] and 25% of DSD people attributed their difficulty in being engaged in a romantic relationship primarily to their physical appearance.¹⁵15 Callens N, Van Kuyk M, van Kuppenveld JH, Drop SL, Cohen-Kettenis PT, Dessens AB, et al. Recalled and current gender role behavior, gender identity and sexual orientation in adults with Disorders/Differences of Sex Development. Horm Behav 2016;86:8–20. Therefore, the authors speculated that DSD people might spend more time choosing a romantic partner with whom they feel safe to start a sexual relationship, which could justify the late beginning of their sexual life.

As far as sexual life satisfaction is concerned, individuals with 46, XY DSD reported less sexual satisfaction than controls in the literature,³3 Schönbucher V, Schweizer K, Rustige L, Schützmann K, Brunner F, Richter-Appelt H. Sexual quality of life of individuals with 46,XY disorders of sex development. J Sex Med 2012;9(12):3154–70., ¹⁶16 Brunner F, Fliegner M, Krupp K, Rall K, Brucker S, Richter-Appelt H. Gender Role, Gender identity and sexual orientation in CAIS ("XY-Women") compared with subfertile and infertile 46,XX Women. J Sex Res 2016;53(1):109–24., ¹⁷17 Cohen-Kettenis PT. Psychosocial and psychosexual aspects of disorders of sex development. Best Pract Res Clin Endocrinol Metab 2010;24(2):325–34. regardless of gender. Indeed, several psychological issues related to the DSD condition can negatively impact the sexual quality of life, such as social stigmatization, reduced self-esteem, infertility, and previous traumatic experiences of DSD individuals.¹⁸18 Minto CL, Liao LM, Woodhouse CR, Ransley PG, Creighton SM. The effect of clitoral surgery on sexual outcome in individuals who have intersex conditions with ambiguous genitalia: a cross-sectional study. Lancet 2003;361(9365):1252–7., ¹⁹19 Schonbucher V, Schweizer K, Richter-Appelt H. Sexual quality of life of individuals with disorders of sex development and a 46, XY karyotype: a review of international research. J Sex Marital Ther 2010;36(3):193–215. The authors identified that sexual fantasies and masturbation practices were more frequent among 46, XY DSD males than females. Our data agree with other studies on masturbation, reporting consistent data that non-DSD men practiced more masturbation than women,²⁰20 Kaestle CE, Allen KR. The role of masturbation in healthy sexual development: perceptions of young adults. Arch Sex Behav 2011;40(5):983–94., ²¹21 Gerressu M, Mercer CH, Graham CA, Wellings K, Johnson AM. Prevalence of masturbation and associated factors in a British national probability survey. Arch Sex Behav 2008;37(2):266–78. suggesting that the same happened among DSD people.

While sexual life satisfaction has been evaluated in several DSD studies, the results are not consistent, by differences in the number of patients enrolled, the profile of 46, XY DSD etiologies, and the methodologies applied.³3 Schönbucher V, Schweizer K, Rustige L, Schützmann K, Brunner F, Richter-Appelt H. Sexual quality of life of individuals with 46,XY disorders of sex development. J Sex Med 2012;9(12):3154–70., ²²22 Berenbaum SA, Meyer-Bahlburg HF. Gender development and sexuality in disorders of sex development. Horm Metab Res 2015;47(5):361–6., ²³23 Lee P, Schober J, Nordenström A, Hoebeke P, Houk C, Looijenga L, et al. Review of recent outcome data of disorders of sex development (DSD): emphasis on surgical and sexual outcomes. J Pediatr Urol 2012;8(6):611–5. Among 46, XY DSD people, the frequency of having a long-term loving partner is quite variable. Studies show a similar frequency of long-term romantic partners among people with and without DSD ¹⁹19 Schonbucher V, Schweizer K, Richter-Appelt H. Sexual quality of life of individuals with disorders of sex development and a 46, XY karyotype: a review of international research. J Sex Marital Ther 2010;36(3):193–215., ²⁴24 Schober JM. Sexual quality of life in an intersexual population: a needs assessment. BJU Int 2004;93(uppl 3):54–6. S., ²⁵25 Warne GL. Long-term outcome of disorders of sex development. Sex Dev 2008; 2(4-5):268–77. and other studies showed a lower frequency of long-term partners among DSD than non-DSD people.³3 Schönbucher V, Schweizer K, Rustige L, Schützmann K, Brunner F, Richter-Appelt H. Sexual quality of life of individuals with 46,XY disorders of sex development. J Sex Med 2012;9(12):3154–70., ⁵5 Köhler B, Kleinemeier E, Lux A, Hiort O, Grüters A, Thyen U, et al. Satisfaction with genital surgery and sexual life of adults with XY disorders of sex development: results from the German clinical evaluation study. J Clin Endocrinol Metab 2012;97(2):577–88., ¹⁹19 Schonbucher V, Schweizer K, Richter-Appelt H. Sexual quality of life of individuals with disorders of sex development and a 46, XY karyotype: a review of international research. J Sex Marital Ther 2010;36(3):193–215. Our data demonstrated a high frequency of sexual partners in both genders. In the literature, there are pieces of evidence showing that males 46, XY DSD male had a long-term romantic partner more frequently than females 46, XY DSD.³3 Schönbucher V, Schweizer K, Rustige L, Schützmann K, Brunner F, Richter-Appelt H. Sexual quality of life of individuals with 46,XY disorders of sex development. J Sex Med 2012;9(12):3154–70., ⁵5 Köhler B, Kleinemeier E, Lux A, Hiort O, Grüters A, Thyen U, et al. Satisfaction with genital surgery and sexual life of adults with XY disorders of sex development: results from the German clinical evaluation study. J Clin Endocrinol Metab 2012;97(2):577–88., ¹⁶16 Brunner F, Fliegner M, Krupp K, Rall K, Brucker S, Richter-Appelt H. Gender Role, Gender identity and sexual orientation in CAIS ("XY-Women") compared with subfertile and infertile 46,XX Women. J Sex Res 2016;53(1):109–24. Among females, it is noteworthy that the frequency of a longterm loving partner was higher among those without prenatal androgen exposure (such as complete androgen insensitivity and complete gonadal dysgenesis) than those with this exposure.

In this cohort, most individuals from both genders referred to having previous romantic partners showing that 46, XY DSD people engaged in loving relationships. At the time of this investigation, there were fewer 46, XY DSD women than 46, XY DSD men in a current romantic relationship, but most of them referred to an active sexual life. Among 46, XY DSD women, 70% referred to having active sexual life, contrasting with the low frequency of women with a long-term romantic partner (40%). Those results indicate that 46, XY DSD women dissociated from active sexual life and long-term romantic relationships.

It has been reported that the sexual life of 46, XY DSD women with typically female genitalia at birth is better than patients with atypical genitalia.⁵5 Köhler B, Kleinemeier E, Lux A, Hiort O, Grüters A, Thyen U, et al. Satisfaction with genital surgery and sexual life of adults with XY disorders of sex development: results from the German clinical evaluation study. J Clin Endocrinol Metab 2012;97(2):577–88., ²⁶26 Schick VR, Calabrese SK, Rima BN, Zucker AN. Genital Appearance Dissatisfaction: Implications for Women’s Genital Image Self-Consciousness, Sexual Esteem, Sexual Satisfaction, and Sexual Risk. Psychol Women Q 2010;34(3):394–404. Nonetheless, the authors did not find any difference in sexual aspects comparing 46, XY DSD women presenting atypical or typical female genitalia at birth. It suggests that external genitalia appearance did not interfere after feminizing surgery in their sexual life and sexual activity.²⁷27 e Sircili MH, de Mendonca BB, Denes FT, Madureira G, Bachega TA, Silva FA. Anatomical and functional outcomes of feminizing genitoplasty for ambiguous genitalia in patients with virilizing congenital adrenal hyperplasia. Clinics (Sao Paulo) 2006;61(3):209–14., ²⁸28 Costa EM, Mendonca BB, Inácio M, Arnhold IJ, Silva FA, Lodovici O. Management of ambiguous genitalia in pseudohermaphrodites: new perspectives on vaginal dilation. Fertil Steril 1997;67(2):229–32.

Here, gender change from female to male occurred in 22% (24 out 107) of the patients. The most frequent 46, XY DSD diagnosis related to gender change was 5α-RD2 deficiency. Indeed, individuals with 5α-RD2 deficiency were commonly assigned as female due to the severe undervirilization of the external genitalia.⁹9 Mendonca BB, Batista RL, Domenice S, Costa EM, Arnhold IJ, Russell DW, et al. Steroid 5α-reductase 2 deficiency. J Steroid Biochem Mol Biol 2016;163:206–11., ²⁹29 Imperato-McGinley J, Zhu YS. Androgens and male physiology the syndrome of 5alpha-reductase-2 deficiency. Mol Cell Endocrinol 2002;198(1-2):51–9. It is important to note that the gonads can produce testosterone in this condition, which does not need to be converted to DHT for brain virilization.⁹9 Mendonca BB, Batista RL, Domenice S, Costa EM, Arnhold IJ, Russell DW, et al. Steroid 5α-reductase 2 deficiency. J Steroid Biochem Mol Biol 2016;163:206–11., ³⁰30 Maimoun L, Philibert P, Cammas B, Audran F, Bouchard P, Fenichel P, et al. Phenotypical, biological, and molecular heterogeneity of 5α-reductase deficiency: an extensive international experience of 55 patients. J Clin Endocrinol Metab 2011;96(2):296–307., ³¹31 Batista RL, Inácio M, Arnhold IJP, Gomes NL, Faria JA, de Moraes DR, et al. Psychosexual aspects, effects of prenatal androgen exposure, and gender change in 46, XY disorders of sex development. J Clin Endocrinol Metab 2019;104(4):1160–70. Brain virilization occurs predominantly during prenatal time and does not happen simultaneously with external genitalia virilization.³²32 Bao AM, Swaab DF. Sexual differentiation of the human brain: relation to gender identity, sexual orientation and neuropsychiatric disorders. Front Neuroendocrinol 2011;32(2):214–26., ³³33 Berenbaum SA, Beltz AM. Sexual differentiation of human behavior: effects of prenatal and pubertal organizational hormones. Front Neuroendocrinol 2011;32(2):183–200. Therefore, male gender identity is common among them, regardless of the female-like external genitalia appearance. Consequently, gender change from female to male is common in this 46, XY DSD condition.³¹31 Batista RL, Inácio M, Arnhold IJP, Gomes NL, Faria JA, de Moraes DR, et al. Psychosexual aspects, effects of prenatal androgen exposure, and gender change in 46, XY disorders of sex development. J Clin Endocrinol Metab 2019;104(4):1160–70. Gender change from female to male is also reported among other 46, XY DSD conditions but in a lower frequency.⁶6 Callens N, Van Kuyk M, van Kuppenveld JH, Drop SLS, Cohen-Kettenis PT, Dessens AB, et al. Recalled and current gender role behavior, gender identity and sexual orientation in adults with Disorders/Differences of Sex Development. Horm Behav 2016;86:8–20., ⁸8 Kreukels BPC, Köhler B, Nordenström A, Roehle R, Thyen U, Bouvattier C, et al. Gender Dysphoria and Gender Change in Disorders of Sex Development/Intersex Conditions: Results From the dsd-LIFE Study. J Sex Med 2018;15(5):777–85., ³⁴34 Mendonca BB, Gomes NL, Costa EM, Inacio M, Martin RM, Nishi MY, et al. 46, XY disorder of sex development (DSD) due to 17β-hydroxysteroid dehydrogenase type 3 deficiency. J Steroid Biochem Mol Biol 2017;165(Pt A):79–85., ³⁵35 Gomes NL, Lerário AM, Machado AZ, Moraes DR, Silva TED, Arnhold IJP, et al. Longterm outcomes and molecular analysis of a large cohort of patients with 46,XY disorder of sex development due to partial gonadal dysgenesis. Clin Endocrinol (Oxf) 2018;89(2):164–77. In our analysis, there were no differences in the sexual life parameters comparing male individuals assigned as male with those who changed from female to male, except individuals who changed from female to male gender reported a more active sex life than those assigned as male (p > 0.04; Table 2). In the literature, data from transgender men (non-DSD) report a high frequency of active sexual life after gender-affirming surgery.³⁶36 van de Grift TC, Pigot GLS, Kreukels BPC, Bouman MB, Mullender MG. Transmen’s experienced sexuality and genital gender-affirming surgery: findings from a clinical follow-up study. J Sex Marital Ther 2019;45(3):201–5. However, this difference might be explained by the 46, XY DSD diagnosis. Most of those who changed from female to male had 5α-RD2 deficiency, whereas most were assigned as male had PAIS (Table 1). There are few results in the literature exploiting the sexual life of male 46, XY DSD individuals based on DSD etiology, but these results have suggested that each 46, XY DSD etiology can impact male sexuality differently. While individuals with 5α-RD2 deficiency reported satisfaction with their sexual activity,³⁷37 Costa EM, Domenice S, Sircili MH, Inacio M, Mendonca BB. DSD due to 5α-reductase 2 deficiency – from diagnosis to long term outcome. Semin Reprod Med 2012;30(5):427–31. regardless of the penile length,⁴4 e Sircili MH, Silva FA, Costa EM, Brito VN, Arnhold IJ, Dénes FT, et al. Long-term surgical outcome of masculinizing genitoplasty in large cohort of patients with disorders of sex development. J Urol 2010;184(3):1122–7. 86% of men with partial androgen insensitivity had sexual life dissatisfaction.³⁸38 Bouvattier C, Mignot B, Lefevre H, Morel Y, Bougneres P. Impaired sexual activity in male adults with partial androgen insensitivity. J Clin Endocrinol Metab 2006;91(9):3310–5. The reason is still unclear, but it is speculated that gynecomastia and the absence of complete body virilization affect their sense of masculinity with consequences on their sex life.⁶6 Callens N, Van Kuyk M, van Kuppenveld JH, Drop SLS, Cohen-Kettenis PT, Dessens AB, et al. Recalled and current gender role behavior, gender identity and sexual orientation in adults with Disorders/Differences of Sex Development. Horm Behav 2016;86:8–20.

Despite no significance (p = 0.07), it is worth noting that individuals assigned as the male had more afraid of being romantically rejected (25%) than those who changed from female to male gender (8%; Table 2).

The effects of prenatal androgen exposure on human psychosexuality have been reported in the literature.⁷7 Loch Batista R, Inácio M, Prado Arnhold IJ, Gomes NL, Diniz Faria JA, Rodrigues de Moraes D, et al. Psychosexual Aspects, Effects of Prenatal Androgen Exposure, and Gender Change in 46,XY Disorders of Sex Development. J Clin Endocrinol Metab 2019;104(4):1160–70., ³⁹39 Hines M, Kaufman FR. Androgen and the development of human sex-typical behavior: rough-and-tumble play and sex of preferred playmates in children with congenital adrenal hyperplasia (CAH). Child Dev 1994;65(4):1042–53., ⁴⁰40 Khorashad BS, Khazai B, Roshan GM, Hiradfar M, Afkhamizadeh M, van de Grift TC. Prenatal testosterone and theory of mind development: findings from disorders of sex development. Psychoneuroendocrinology 2018;89:250–5., ⁴¹41 Meyer-Bahlburg HF, Dolezal C, Baker SW. New MI. Sexual orientation in women with classical or non-classical congenital adrenal hyperplasia as a function of degree of prenatal androgen excess. Arch Sex Behav 2008;37(1):85–99., ⁴²42 Berenbaum SA, Bailey JM. Effects on gender identity of prenatal androgens and genital appearance: evidence from girls with congenital adrenal hyperplasia. J Clin Endocrinol Metab 2003;88(3):1102–6., ⁴³43 Hines M. Sex steroids and human behavior: prenatal androgen exposure and sex-typical play behavior in children. Ann N Y Acad Sci 2003;1007:272–82. Our data showed that individuals with prenatal androgen exposure were more afraid of being romantically rejected than individuals without androgen exposure. Interestingly, the frequency of long-term romantic partners was similar between both groups, suggesting that females with prenatal androgen exposure engaged in a long-term romantic relationship as frequently as those without this exposure, regardless of their fear of rejection.

Infertility is another relevant issue in managing DSD people.⁴⁴44 Guercio G, Costanzo M, Grinspon RP, Rey RA. Fertility issues in disorders of sex development. Endocrinol Metab Clin North Am 2015;44(4):867–81., ⁴⁵45 Van Batavia JP, Kolon TF. Fertility in disorders of sex development: A review. J Pediatr Urol 2016;12(6):418–25., ⁴⁶46 Slowikowska-Hilczer J, Hirschberg AL, Claahsen-van der Grinten H, Reisch N, Bouvattier C, Thyen U, et al. Fertility outcome and information on fertility issues in individuals with different forms of disorders of sex development: findings from the dsd-LIFE study. Fertil Steril 2017;108(5):822–31. In the past, infertility was a rule for most of the 46, XY DSD conditions, impacting their self-acceptance and well-being.⁴⁷47 Wisniewski AB, Batista RL, Costa EMF, Finlayson C, Sircili MHP, Denes FT, et al. Management of 46,XY Differences/Disorders of Sex Development (DSD) throughout life. Endocr Rev 2019;40(6):1547–72. Fortunately, assisted reproductive techniques have opened up possibilities of parenthood for DSD subjects.⁴⁴44 Guercio G, Costanzo M, Grinspon RP, Rey RA. Fertility issues in disorders of sex development. Endocrinol Metab Clin North Am 2015;44(4):867–81., ⁴⁵45 Van Batavia JP, Kolon TF. Fertility in disorders of sex development: A review. J Pediatr Urol 2016;12(6):418–25. In our cohort, most individuals from both male and female gender had fertility desire, and almost all of them considered adopting a child to fill their desire for parenthood. However, more 46, XY DSD women than 46, XY DSD men were afraid of being romantically rejected due to infertility, and more women than men attributed to infertility their difficulties in establishing a long-term romantic relationship (Table 5). It might explain the lower frequency of 46, XY DSD women within a long-term romantic relationship in this cohort in comparison. With 46, XY DSD men (Table 2). The importance of motherhood was lower among females with prenatal androgen exposure than 46, XY DSD women without prenatal androgen exposure, suggesting that this exposure plays a role in females’ motherhood desire. Pieces of evidence of this association came from studies about congenital adrenal hyperplasia (CAH). CAH due to 21 hydroxylase deficiency affecting 46, XX newborns has been successfully studied as a model to prove the role of androgens in many human sexual characteristics and behavior.⁴⁰40 Khorashad BS, Khazai B, Roshan GM, Hiradfar M, Afkhamizadeh M, van de Grift TC. Prenatal testosterone and theory of mind development: findings from disorders of sex development. Psychoneuroendocrinology 2018;89:250–5., ⁴⁸48 Endendijk JJ, Beltz AM, McHale SM, Bryk K, Berenbaum SA. Linking prenatal androgens to gender-related attitudes, identity, and activities: evidence from girls with congenital adrenal hyperplasia. Arch Sex Behav 2016;45(7):1807–15. It has been demonstrated that CAH diagnosis impacts on parenthood desire of affected individuals,⁴⁹49 Engberg H, Möller A, Hagenfeldt K, Nordenskjöld A, Frisén L. Identity, sexuality, and parenthood in women with congenital adrenal hyperplasia. J Pediatr Adolesc Gynecol 2020;33(5):470–6. reinforcing the negative association between prenatal androgen exposure and parenthood desire. Our results showed that prenatal androgen exposure also impacts motherhood desire in 46, XY DSD women.

To explore infertility issues in DSD, a large cross-sectional multicenter study applied a web questionnaire in DSD people (46, XX and 46, XY DSD).⁴⁶46 Slowikowska-Hilczer J, Hirschberg AL, Claahsen-van der Grinten H, Reisch N, Bouvattier C, Thyen U, et al. Fertility outcome and information on fertility issues in individuals with different forms of disorders of sex development: findings from the dsd-LIFE study. Fertil Steril 2017;108(5):822–31. In this study, 14% reported having at least one child including 7% with assisted reproductive techniques and 4% adopted. Our cohort found that only 9% (n = 12) of 46, XY DSD people had children. In most cases (10 out of 12), those children were adopted. Curiously, there is a discrepancy in the percentage of 46, XY DSD individuals who desire children and the frequency of those who had adopted children. Indeed, the process of adopting a child is often bureaucratic in many countries, including Brazil, which may partially explain this discrepancy. However, future fertility expectancy was one reason why 46, XY DSD women due to complete androgen insensitivity deferred gonadectomy.⁵⁰50 Deans R, Creighton SM, Liao LM, Conway GS. Timing of gonadectomy in adult women with complete androgen insensitivity syndrome (CAIS): patient preferences and clinical evidence. Clin Endocrinol (Oxf) 2012;76(6):894–8. Therefore, discussion on fertility desire and current options for fertility is strongly recommended for all DSD individuals to promote appropriate perspectives, avoiding further frustrations and negative impact on their quality of life.

Human sexual orientation is defined based on self-identification (heterosexual, homosexual), sexual attraction (the gender in which sexual desire is driven), and sexual behavior (based on the gender of the sexual partners).⁵¹51 Fisher AD, Ristori J, Morelli G, Maggi M. The molecular mechanisms of sexual orientation and gender identity. Mol Cell Endocrinol 2018;467:3–13. Regarding sexual attraction, the literature shows that most 46, XY DSD men are gynophilic (erotically attracted to women), whereas most 46, XY women are androphilic (erotically attracted to men).⁵²52 Klein F, Sepekoff B, Wolf TJ. Sexual orientation: a multi-variable dynamic process. J Homosex 1985;11(1-2):35–49., ⁵³53 Moleiro C, Pinto N. Sexual orientation and gender identity: review of concepts, controversies and their relation to psychopathology classification systems. Front Psychol 2015;6:1511. Self-reported sexual orientation is the most usual way used to assess sexual orientation. However, patients usually inform their sexual orientation based on sexual behavior (gender of their sexual partners) instead of considering their erotic attraction and fantasies.⁵⁴54 Sell RL. Defining and Measuring Sexual Orientation for Research. Springer. The Health of Sexual Minorities; 2007. p. 355–74., ⁵⁵55 Sell RL. Defining and measuring sexual orientation: a review. Arch Sex Behav 1997;26(6):643–58. Available data on sexual orientation in 46, XY DSD people have shown more frequency of heterosexuality in both genders,³3 Schönbucher V, Schweizer K, Rustige L, Schützmann K, Brunner F, Richter-Appelt H. Sexual quality of life of individuals with 46,XY disorders of sex development. J Sex Med 2012;9(12):3154–70., ¹⁵15 Callens N, Van Kuyk M, van Kuppenveld JH, Drop SL, Cohen-Kettenis PT, Dessens AB, et al. Recalled and current gender role behavior, gender identity and sexual orientation in adults with Disorders/Differences of Sex Development. Horm Behav 2016;86:8–20., ¹⁷17 Cohen-Kettenis PT. Psychosocial and psychosexual aspects of disorders of sex development. Best Pract Res Clin Endocrinol Metab 2010;24(2):325–34., ²²22 Berenbaum SA, Meyer-Bahlburg HF. Gender development and sexuality in disorders of sex development. Horm Metab Res 2015;47(5):361–6. but the frequency of non-heterosexuality is higher than matched controls, especially in conditions with prenatal androgen exposure.⁷7 Loch Batista R, Inácio M, Prado Arnhold IJ, Gomes NL, Diniz Faria JA, Rodrigues de Moraes D, et al. Psychosexual Aspects, Effects of Prenatal Androgen Exposure, and Gender Change in 46,XY Disorders of Sex Development. J Clin Endocrinol Metab 2019;104(4):1160–70., ⁴⁸48 Endendijk JJ, Beltz AM, McHale SM, Bryk K, Berenbaum SA. Linking prenatal androgens to gender-related attitudes, identity, and activities: evidence from girls with congenital adrenal hyperplasia. Arch Sex Behav 2016;45(7):1807–15., ⁵⁶56 Pasterski V, Geffner ME, Brain C, Hindmarsh P, Brook C, Hines M. Prenatal hormones and childhood sex segregation: playmate and play style preferences in girls with congenital adrenal hyperplasia. Horm Behav 2011;59(4):549–55.

The external genitalia appearance and the related stigma are relevant for many DSD patients.⁵⁷57 Mouriquand PD, Gorduza DB, Gay CL, Meyer-Bahlburg HF, Baker L, Baskin LS, et al. Surgery in disorders of sex development (DSD) with a gender issue: If (why), when, and how? J Pediatr Urol 2016;12(3):139–49. Genital ambiguity may cause difficulties with sexual intercourse, social stigma, reduced self-esteem, and avoidance of nudity, dating, and sexual relations.²²22 Berenbaum SA, Meyer-Bahlburg HF. Gender development and sexuality in disorders of sex development. Horm Metab Res 2015;47(5):361–6. In this study, the authors included 46, XY women assigned female sales at birth with or without atypical genitalia at birth. Among those with atypical genitalia at birth, all of them have completed all genital feminizing surgical procedures at the time of this study. The presence of atypical genitalia at birth in 46, XY DSD women did not increase the frequency of non-heterosexuality, and the sexual parameters (including masturbation practice, orgasm, and active sexual life) were similar among these women. While the timing of feminizing genital surgery in DSD remains debatable, data on the sexuality of female DSD patients is scarce. Our results suggest that sexual life is similar among 46, XY DSD women regardless of their genitalia appearance at birth, once all feminizing genitalia surgeries have been performed.

Limitations

The lack of a control group composed of non-DSD 46, XY people is a limitation.

However, our results allowed us to estimate differences and similarities among 46, XY DSD subgroups and the influence of variables (such as external genitalia appearance, prenatal androgen exposure, and gender change) in the sexuality of 46, XY DSD people. As 46, XY DSD is a rare and very heterogeneous condition, lack of difference might result from a lack of statistical power to detect changes. Therefore, the authors cannot rule out a type 2 statistical error. In addition, the particularities of each 46, XY DSD condition on sexuality were not evaluated in this study, which should be explored in future research.

In conclusion, the desire for fertility is shared among 46, XY DSD people, regardless of gender. Therefore, it should be taken into account in the 46, XY DSD management. Prenatal androgen exposure reduces the desire for motherhood in 46, XY women. Among males, individuals who changed to the male gender presented similar sexual parameters as those assigned as males. Among females, virilized genitalia at birth did not affect their sexuality once the surgical treatment is completed. Collectively, these results can expand the knowledge about sexuality in 46, XY DSD people.

Ethical approval

This study was approved by the local Ethical Committee (Hospital das Clínicas da Universidade de Sao Paulo).
Informed consent

The authors obtained written informed consent from all participants.
This work was supported by FAPESP (Fundac ao de Amparo a Pesquisa do Estado de Sao Paulo), grant 2019/26780-9 to B.B.M.

References

¹
Moshiri M, Chapman T, Fechner PY, Dubinsky TJ, Shnorhavorian M, Osman S, et al. Evaluation and management of disorders of sex development: multidisciplinary approach to a complex diagnosis. Radiographics 2012;32(6):1599–618.
²
Guerrero-Fernández J, Azcona San Julián C, Barreiro Conde J, Bermúdez de la Vega JA, Carcavilla Urquí A, Castaño González LA, et al. Management guidelines for disorders /different sex development (DSD). An Pediatr (Barc) 2018;89(5). 315.e1-.e19.
³
Schönbucher V, Schweizer K, Rustige L, Schützmann K, Brunner F, Richter-Appelt H. Sexual quality of life of individuals with 46,XY disorders of sex development. J Sex Med 2012;9(12):3154–70.
⁴
e Sircili MH, Silva FA, Costa EM, Brito VN, Arnhold IJ, Dénes FT, et al. Long-term surgical outcome of masculinizing genitoplasty in large cohort of patients with disorders of sex development. J Urol 2010;184(3):1122–7.
⁵
Köhler B, Kleinemeier E, Lux A, Hiort O, Grüters A, Thyen U, et al. Satisfaction with genital surgery and sexual life of adults with XY disorders of sex development: results from the German clinical evaluation study. J Clin Endocrinol Metab 2012;97(2):577–88.
⁶
Callens N, Van Kuyk M, van Kuppenveld JH, Drop SLS, Cohen-Kettenis PT, Dessens AB, et al. Recalled and current gender role behavior, gender identity and sexual orientation in adults with Disorders/Differences of Sex Development. Horm Behav 2016;86:8–20.
⁷
Loch Batista R, Inácio M, Prado Arnhold IJ, Gomes NL, Diniz Faria JA, Rodrigues de Moraes D, et al. Psychosexual Aspects, Effects of Prenatal Androgen Exposure, and Gender Change in 46,XY Disorders of Sex Development. J Clin Endocrinol Metab 2019;104(4):1160–70.
⁸
Kreukels BPC, Köhler B, Nordenström A, Roehle R, Thyen U, Bouvattier C, et al. Gender Dysphoria and Gender Change in Disorders of Sex Development/Intersex Conditions: Results From the dsd-LIFE Study. J Sex Med 2018;15(5):777–85.
⁹
Mendonca BB, Batista RL, Domenice S, Costa EM, Arnhold IJ, Russell DW, et al. Steroid 5α-reductase 2 deficiency. J Steroid Biochem Mol Biol 2016;163:206–11.
¹⁰
Inacio M, Sircili MH, Brito VN, Domenice S, Oliveira-Junior AA, Arnhold IJ, et al. 46, XY DSD due to 17β-HSD3 deficiency and 5α-reductase type 2 deficiency. Adv Exp Med Biol 2011;707:9–14.
¹¹
Sinnecker GH, Hiort O, Dibbelt L, Albers N, Dörr HG, Hauss H, et al. Phenotypic classification of male pseudohermaphroditism due to steroid 5 alpha-reductase 2 deficiency. Am J Med Genet 1996;63(1):223–30.
¹²
McHugh ML. The chi-square test of independence. Biochem Med (Zagreb) 2013;23(2):143–9.
¹³
Borges AL, Fujimori E, Kuschnir MC, Chofakian CB, de Moraes AJ, Azevedo GD, et al. ERICA: sexual initiation and contraception in Brazilian adolescents. Rev Saude Publica 2016;50(Suppl 1):15s.
¹⁴
van de Grift TC, Cohen-Kettenis PT, de Vries ALC, Kreukels BPC. (on behalf of dsd-LIFE). Body image and self-esteem in disorders of sex development: A European multi-center study. Health Psychol 2018;37(4):334–43.
¹⁵
Callens N, Van Kuyk M, van Kuppenveld JH, Drop SL, Cohen-Kettenis PT, Dessens AB, et al. Recalled and current gender role behavior, gender identity and sexual orientation in adults with Disorders/Differences of Sex Development. Horm Behav 2016;86:8–20.
¹⁶
Brunner F, Fliegner M, Krupp K, Rall K, Brucker S, Richter-Appelt H. Gender Role, Gender identity and sexual orientation in CAIS ("XY-Women") compared with subfertile and infertile 46,XX Women. J Sex Res 2016;53(1):109–24.
¹⁷
Cohen-Kettenis PT. Psychosocial and psychosexual aspects of disorders of sex development. Best Pract Res Clin Endocrinol Metab 2010;24(2):325–34.
¹⁸
Minto CL, Liao LM, Woodhouse CR, Ransley PG, Creighton SM. The effect of clitoral surgery on sexual outcome in individuals who have intersex conditions with ambiguous genitalia: a cross-sectional study. Lancet 2003;361(9365):1252–7.
¹⁹
Schonbucher V, Schweizer K, Richter-Appelt H. Sexual quality of life of individuals with disorders of sex development and a 46, XY karyotype: a review of international research. J Sex Marital Ther 2010;36(3):193–215.
²⁰
Kaestle CE, Allen KR. The role of masturbation in healthy sexual development: perceptions of young adults. Arch Sex Behav 2011;40(5):983–94.
²¹
Gerressu M, Mercer CH, Graham CA, Wellings K, Johnson AM. Prevalence of masturbation and associated factors in a British national probability survey. Arch Sex Behav 2008;37(2):266–78.
²²
Berenbaum SA, Meyer-Bahlburg HF. Gender development and sexuality in disorders of sex development. Horm Metab Res 2015;47(5):361–6.
²³
Lee P, Schober J, Nordenström A, Hoebeke P, Houk C, Looijenga L, et al. Review of recent outcome data of disorders of sex development (DSD): emphasis on surgical and sexual outcomes. J Pediatr Urol 2012;8(6):611–5.
²⁴
Schober JM. Sexual quality of life in an intersexual population: a needs assessment. BJU Int 2004;93(uppl 3):54–6. S.
²⁵
Warne GL. Long-term outcome of disorders of sex development. Sex Dev 2008; 2(4-5):268–77.
²⁶
Schick VR, Calabrese SK, Rima BN, Zucker AN. Genital Appearance Dissatisfaction: Implications for Women’s Genital Image Self-Consciousness, Sexual Esteem, Sexual Satisfaction, and Sexual Risk. Psychol Women Q 2010;34(3):394–404.
²⁷
e Sircili MH, de Mendonca BB, Denes FT, Madureira G, Bachega TA, Silva FA. Anatomical and functional outcomes of feminizing genitoplasty for ambiguous genitalia in patients with virilizing congenital adrenal hyperplasia. Clinics (Sao Paulo) 2006;61(3):209–14.
²⁸
Costa EM, Mendonca BB, Inácio M, Arnhold IJ, Silva FA, Lodovici O. Management of ambiguous genitalia in pseudohermaphrodites: new perspectives on vaginal dilation. Fertil Steril 1997;67(2):229–32.
²⁹
Imperato-McGinley J, Zhu YS. Androgens and male physiology the syndrome of 5alpha-reductase-2 deficiency. Mol Cell Endocrinol 2002;198(1-2):51–9.
³⁰
Maimoun L, Philibert P, Cammas B, Audran F, Bouchard P, Fenichel P, et al. Phenotypical, biological, and molecular heterogeneity of 5α-reductase deficiency: an extensive international experience of 55 patients. J Clin Endocrinol Metab 2011;96(2):296–307.
³¹
Batista RL, Inácio M, Arnhold IJP, Gomes NL, Faria JA, de Moraes DR, et al. Psychosexual aspects, effects of prenatal androgen exposure, and gender change in 46, XY disorders of sex development. J Clin Endocrinol Metab 2019;104(4):1160–70.
³²
Bao AM, Swaab DF. Sexual differentiation of the human brain: relation to gender identity, sexual orientation and neuropsychiatric disorders. Front Neuroendocrinol 2011;32(2):214–26.
³³
Berenbaum SA, Beltz AM. Sexual differentiation of human behavior: effects of prenatal and pubertal organizational hormones. Front Neuroendocrinol 2011;32(2):183–200.
³⁴
Mendonca BB, Gomes NL, Costa EM, Inacio M, Martin RM, Nishi MY, et al. 46, XY disorder of sex development (DSD) due to 17β-hydroxysteroid dehydrogenase type 3 deficiency. J Steroid Biochem Mol Biol 2017;165(Pt A):79–85.
³⁵
Gomes NL, Lerário AM, Machado AZ, Moraes DR, Silva TED, Arnhold IJP, et al. Longterm outcomes and molecular analysis of a large cohort of patients with 46,XY disorder of sex development due to partial gonadal dysgenesis. Clin Endocrinol (Oxf) 2018;89(2):164–77.
³⁶
van de Grift TC, Pigot GLS, Kreukels BPC, Bouman MB, Mullender MG. Transmen’s experienced sexuality and genital gender-affirming surgery: findings from a clinical follow-up study. J Sex Marital Ther 2019;45(3):201–5.
³⁷
Costa EM, Domenice S, Sircili MH, Inacio M, Mendonca BB. DSD due to 5α-reductase 2 deficiency – from diagnosis to long term outcome. Semin Reprod Med 2012;30(5):427–31.
³⁸
Bouvattier C, Mignot B, Lefevre H, Morel Y, Bougneres P. Impaired sexual activity in male adults with partial androgen insensitivity. J Clin Endocrinol Metab 2006;91(9):3310–5.
³⁹
Hines M, Kaufman FR. Androgen and the development of human sex-typical behavior: rough-and-tumble play and sex of preferred playmates in children with congenital adrenal hyperplasia (CAH). Child Dev 1994;65(4):1042–53.
⁴⁰
Khorashad BS, Khazai B, Roshan GM, Hiradfar M, Afkhamizadeh M, van de Grift TC. Prenatal testosterone and theory of mind development: findings from disorders of sex development. Psychoneuroendocrinology 2018;89:250–5.
⁴¹
Meyer-Bahlburg HF, Dolezal C, Baker SW. New MI. Sexual orientation in women with classical or non-classical congenital adrenal hyperplasia as a function of degree of prenatal androgen excess. Arch Sex Behav 2008;37(1):85–99.
⁴²
Berenbaum SA, Bailey JM. Effects on gender identity of prenatal androgens and genital appearance: evidence from girls with congenital adrenal hyperplasia. J Clin Endocrinol Metab 2003;88(3):1102–6.
⁴³
Hines M. Sex steroids and human behavior: prenatal androgen exposure and sex-typical play behavior in children. Ann N Y Acad Sci 2003;1007:272–82.
⁴⁴
Guercio G, Costanzo M, Grinspon RP, Rey RA. Fertility issues in disorders of sex development. Endocrinol Metab Clin North Am 2015;44(4):867–81.
⁴⁵
Van Batavia JP, Kolon TF. Fertility in disorders of sex development: A review. J Pediatr Urol 2016;12(6):418–25.
⁴⁶
Slowikowska-Hilczer J, Hirschberg AL, Claahsen-van der Grinten H, Reisch N, Bouvattier C, Thyen U, et al. Fertility outcome and information on fertility issues in individuals with different forms of disorders of sex development: findings from the dsd-LIFE study. Fertil Steril 2017;108(5):822–31.
⁴⁷
Wisniewski AB, Batista RL, Costa EMF, Finlayson C, Sircili MHP, Denes FT, et al. Management of 46,XY Differences/Disorders of Sex Development (DSD) throughout life. Endocr Rev 2019;40(6):1547–72.
⁴⁸
Endendijk JJ, Beltz AM, McHale SM, Bryk K, Berenbaum SA. Linking prenatal androgens to gender-related attitudes, identity, and activities: evidence from girls with congenital adrenal hyperplasia. Arch Sex Behav 2016;45(7):1807–15.
⁴⁹
Engberg H, Möller A, Hagenfeldt K, Nordenskjöld A, Frisén L. Identity, sexuality, and parenthood in women with congenital adrenal hyperplasia. J Pediatr Adolesc Gynecol 2020;33(5):470–6.
⁵⁰
Deans R, Creighton SM, Liao LM, Conway GS. Timing of gonadectomy in adult women with complete androgen insensitivity syndrome (CAIS): patient preferences and clinical evidence. Clin Endocrinol (Oxf) 2012;76(6):894–8.
⁵¹
Fisher AD, Ristori J, Morelli G, Maggi M. The molecular mechanisms of sexual orientation and gender identity. Mol Cell Endocrinol 2018;467:3–13.
⁵²
Klein F, Sepekoff B, Wolf TJ. Sexual orientation: a multi-variable dynamic process. J Homosex 1985;11(1-2):35–49.
⁵³
Moleiro C, Pinto N. Sexual orientation and gender identity: review of concepts, controversies and their relation to psychopathology classification systems. Front Psychol 2015;6:1511.
⁵⁴
Sell RL. Defining and Measuring Sexual Orientation for Research. Springer. The Health of Sexual Minorities; 2007. p. 355–74.
⁵⁵
Sell RL. Defining and measuring sexual orientation: a review. Arch Sex Behav 1997;26(6):643–58.
⁵⁶
Pasterski V, Geffner ME, Brain C, Hindmarsh P, Brook C, Hines M. Prenatal hormones and childhood sex segregation: playmate and play style preferences in girls with congenital adrenal hyperplasia. Horm Behav 2011;59(4):549–55.
⁵⁷
Mouriquand PD, Gorduza DB, Gay CL, Meyer-Bahlburg HF, Baker L, Baskin LS, et al. Surgery in disorders of sex development (DSD) with a gender issue: If (why), when, and how? J Pediatr Urol 2016;12(3):139–49.

Publication Dates

Publication in this collection
19 May 2023
Date of issue
2023

History

Received
11 Nov 2022
Reviewed
31 Jan 2023
Accepted
02 Mar 2023

This is an Open Access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.

[1] Ethical approval

This study was approved by the local Ethical Committee (Hospital das Clínicas da Universidade de Sao Paulo).

[2] Informed consent

The authors obtained written informed consent from all participants.

[3] This work was supported by FAPESP (Fundac ao de Amparo a Pesquisa do Estado de Sao Paulo), grant 2019/26780-9 to B.B.M.

Subject	Current age	Age of Gender-Change Desire (yr)	Age of gender change (yr)	Steady partner	Active sexual life	Gene	Zygosity	cDNA	Protein
1	26	6	15	Yes	Yes	SRD5A2	HH	c.547G>A	p.Gly183Ser
2	34	8	14	Yes	Yes	HSD17B3	HH	c.645A>T	p.Glu215Asp
3	51	5	22	No	Yes	HSD17B3	HH	c.645A>T	p.Glu215Asp
4	48	6	6	No	Yes	SRD5A2	HH	c.377A>G	p.Gln126Arg
5	32	8	8	Yes	Yes	SRD5A2	HH	c.337C>G	p.Leu113Val
6	29	7	15	Yes	Yes	SRD5A2	HH	c.547G>A	p.Gly183Ser
7	52	8	19	Yes	Yes	SRD5A2	HH	c.377A>G	p.Gln126Arg
8	55	6	6	No	Yes	SRD5A2	HH	c.763T>C	p.255Glnext28
9	40	8	15	Yes	Yes	SRD5A2	HT	c.763T>C/c.377A>G	p.255Glnext28/p. Gln126Arg
10	56	5	7	Yes	Yes	SRD5A2	HH	c.547G>A	p.Gly183Ser
11	25	5	7	Yes	Yes	SRD5A2	HH	c.547G>A	p.Gly183Ser
12	39	9	17	Yes	Yes	SRD5A2	HH	c.547G>A	p.Gly183Ser
13	60	10	31	No	Yes	SRD5A2	HH	c.679C>T	p.Arg227*
14	42	5	17	Yes	Yes	SRD5A2	HT	c.418del	p.Trp140Glyfs*20
15	43	5	13	No	Yes	SRD5A2	HT	c.200T>G/c.736C>T	p.I67S/p.Arg246Trp
16	42	5	14	No	Yes	SRD5A2	HH	c.547G>A	p.Gly183Ser
17	52	14	42	Yes	Yes	SRD5A2	HH	c.547G>A	p.Gly183Ser
18	24	2	5	No	Yes	SRD5A2	HT	c.200T>G/	p.I67S/p.R246W
19	50	9	27	Yes	Yes	HSD17B3	HT	c.608C>T/c.278-1G>C	p.Ala203Val / -
20	48	8	27	Yes	Yes	HSD17B3	HT	c.608C>T/c.278-1G>C	p.Ala203Val/c.278-1G>C
21	43	12	13	Yes	Yes	HSD17B3	HH	c.608C>T	p.Ala203Val
22	28	13	16	No	Yes	NR5A1	HH	c.1139-3C>A	-
23	46	15	35	No	Yes	NR5A1	-	c.70C>T	p.His24Tyr / –
24	22	10	17	No	No	Unknown	Unknown	-	-

Sexual parameters		Gender at adulthood			Female External Genitalia			Male Gender
Sexual parameters		Female	Male	p	Typical	Atypical	p	Assigned as male	Changed to male	p
n		83	20		35	60		20	24
Self-reported Sexual Orientation	Homosexual	4(5%)	1(5%)	0.34	1 (3%)	3 (5%)	0.28	1 (5%)	‒	0.33
	Bisexual	3 (4%)	1 (5%)		2 (6%)	1 (2%)		1 (5%)	1 (4%)
	Heterosexual	76 (91%)	18 (90%)		32 (91%)	56 (93%)		18 (90%)	23 (96%)
Sexual Behavior^a a To female gender individuals: 1 = exclusively women; 2 = more women than men; 3 = equal men and women; 4 = more men than women; 5 = exclusively men; and the opposite for male gender individuals: 1 = exclusively men to 5 = exclusively women). NS, Non-Ssignificance.To female gender individuals: 1 = exclusively women; 2 = more women than men; 3 = equal men and women; 4 = more men than women; 5 = exclusively men; and the opposite for male gender individuals: 1 = exclusively men to 5 = exclusively women). NS, Non-Ssignificance.	1	79	18	0.52	31	55	0.43	18	22	0.5
	2	‒	1		1	4		‒	1
	3	–	–		–	–		–	1
	4	–	–		–	–		–	–
	5	4	1		3	1		2	–

Parameter	Prenatal androgen exposurein46, XY Women			Gender in adulthood
Parameter	Present	Absent	p	Female	Male	p
Motherhood/Fatherhood importance	1.72±1.08	2.8±1.25	0.032	1.83±1.02	2.26±1.2	0.19
Infertility affects a steady relationship	3.21±1.37	3.15±1.05	0.32	3.51±1.67	4.11±1.2	0.02
Afraid of rejection due to infertility 21% (n = 9)	21% (n = 3)	0.81	32% (n = 25)	16%(n = 6)	0.01
The desire of biological children	79% (n = 32)	50% (n = 7)	0.04	79% (n = 60)	82% (n = 28)	0.25
Desire to adopt children	75% (n = 31)	36% (n = 5)	0.01	73% (n = 56)	75% (n = 24)	0.88

Brasil

Brasil

Sexuality and fertility desire in a large cohort of individuals with 46, XY differences in sex development

Abstract

Objective:

Methods:

Results:

Conclusion:

HIGHLIGHTS

Introduction

Patients and methods

Statistical analysis

Results

Sexual life in 46, XYDSD

Impact of estimated prenatal androgen exposure on sexuality

Sexual orientation

Gender change

Fertility issues

Discussion

Limitations

References

Publication Dates

History

DSD etiology	Sex assignment		Gender in adulthood		Total
DSD etiology	Female	Male	Female	Male	Total
5α reductase 2 deficiency	29	1	13	17	30
17β HSD3 deficiency	15	-	10	5	15
17α/17,20 liase deficiency	7	-	7	-	7
Leydig cell hypoplasia	7	-	7	-	7
Complete gonadal dysgenesis	7	-	7	-	7
Partial gonadal dysgenesis	12	7	9	10	19
CAIS	18	-	18	-	18
PAIS	12	12	12	12	24
Total	107	20	83	44	127

Sexual life parameters	Gender			External genitalia appearance at birth			Prenatal androgen exposure			Gender Change
	Female	Male		Atypical	Typically female		No	Yes		Assigned as male	Change to male
	n	107	20	p	35	60	p	35	14	p	20	24	p
Body shame (%)	30	40	0.95	31	33	0.75	31	36	0.44	25	37	0.43
Afraid of rejection (%)	16	25	0.8	17	20	0.24	17	43	0.001	25	8	0.07
Long-term romantic partner (%)	48	70	0.003	46	49	0.75	46	36	0.67	40	62	0.13
Masturbation (%)	39	75	0.01	40	55	0.52	40	43	0.21	65	67	0.9
Sexual fantasies (%)	40	85	0.004	51	45	0.21	51	43	0.51	70	54	0.09
Orgasm (%)	66	80	0.6	83	90	0.93	83	71	0.62	85	91	0.8
Active sexual life (%)	65	85	0.13	71	80	0.75	71	43	0.35	75	96	0.04
Sex life satisfaction (%)	61	80	0.08	63	71	0.56	63	50	0.23	65	83	0.16
Age of first sexual intercourse (yr)	22	21	0.35	22	21	0.15	22	20	0.35	21	20	0.26
Monthly sexual intercourse frequency	2.1	1.78	0.82	2.52	2.31	0.37	2.2	1.89	0.12	2.5	2.8	0.89