MYRF mutation leads to a single manifestation of sexual development and mimics partial androgen insensitivity syndrome: a case report and literature review.

OBJECTIVE: To highlight the challenges in diagnosing 46, XY disorder of sex development related to MYRF mutation. METHODS: We present an unusual case of a 12-year-old female child came for enlargement of clitoris and initially diagnosed as partial androgen insensitivity syndrome (AIS). RESULTS: On examination, the patient's vulva was found virilized with 3cm-long clitoris. Her peripheral blood karyotype was 46, XY. The ultrasound showed an empty pelvis and hormone results confirmed hyperandrogenism. Therefore, the partial AIS was suspected, but the following whole exon sequencing indicates a pathological missense mutation in MYRF. Further investigation and surgery did not reveal any brain, heart, lung or diaphragm lesions related to MYRF, but only maldeveloped internal genitalia and a persistent urachus. Her serum testosterone dropped to normal after surgical removal of the remaining ipsilateral testis and epididymitis without spermatogenesis as shown by pathology. CONCLUSION: Due to the karyotype, hyperandrogenism, empty pelvis but a virilism after puberty, the patient was initially diagnosed as partial AIS. This misleading clinical diagnose will not be verified as the MYRF mutation if without the whole exon sequencing, particularly in the absence of obvious brain, heart, lung and diaphragm lesions as in this case.

[Genetic analysis and prenatal diagnosis of a Chinese pedigree affected with Complete androgen insensitivity syndrome due to a novel variant of AR gene].

OBJETIVE: To explore the clinical and molecular basis for a Chinese pedigree affected with Complete androgen insensitivity syndrome (CAIS). METHODS: A CAIS pedigree presented at Tianjin Medical University General Hospital between 2019 and 2021 was selected as the study subject. Clinical data of the proband was collected, along with peripheral blood samples from the proband and her family members. Chromosomal karyotyping, sex-determining region of the Y chromosome (SRY) testing, and next-generation sequencing (NGS) were carried out for the proband, and candidate variant was verified by Sanger sequencing of her family members. Prenatal diagnosis was provided for the sister of the proband. This study was approved by the Tianjin Medical University General Hospital (Ethics No. IRB2023-WZ-070). RESULTS: The 18-year-old proband, who has a social gender of female, underwent laparoscopic examination, which showed no presence of uterus and ovaries. The karyotype of peripheral blood sample was 46,XY, with SRY gene detected. NGS indicated that the proband has harbored a heterozygous c.1988C>G (p.Ser663Ter) variant of the AR gene. Sanger sequencing confirmed that her mother and sister had both harbored the same variant, whilst her father and younger sister were of the wild-type. Prenatal diagnosis revealed that her sister's first fetus had harbored carried the same variant, which had led to termination of pregnancy. Her second fetus did not carry the variant, and a healthy boy was born. Based on guidelines from the American College of Medical Genetics and Genomics (ACMG), the variant was classified as likely pathogenic (PM2_Supporting+PM4+PP3_Moderate+PP4). CONCLUSION: The c.1988C>G (p.Ser663Ter) variant of the AR gene probably underlay the CAIS in the proband. The accurate diagnosis of sex development disorders will rely on the physicians' thorough understanding of the clinical symptoms and pathogenic genes. Genetic testing and counseling can enable precise diagnosis, prenatal diagnosis, and guidance for reproduction.

Androgen insensitivity syndrome: a review.

PURPOSE: Androgen insensitivity syndrome (AIS) is a disorder characterized by peripheral androgen resistance due to androgen receptor mutations in subjects with 46 XY karyotype. The severity of hormone resistance (complete, partial or mild) determines the wide spectrum of phenotypes. METHODS: We performed a literature review on Pubmed focusing on etiopathogenesis, molecular alterations, and diagnostic-therapeutic management. RESULTS: AIS is determined by a large variety of X-linked mutations that account for the wide phenotypic spectrum of subjects; it represents one of the most frequent disorders of sexual development (DSD). Clinical suspicion can arise at birth in partial AIS, due to the presence of variable degrees of ambiguity of the external genitalia, and at pubertal age in complete AIS, due to the development of female secondary sex characteristics, primary amenorrhea, and absence of female primary sex characteristics (uterus and ovaries). Laboratory tests showing elevated LH and testosterone levels despite mild or absent virilization may be helpful, but diagnosis can be achieved only after genetic testing (karyotype examination and androgen receptor sequencing). The clinical phenotype and especially the decision on sex assignment of the patient, if the diagnosis is made at birth or in the neonatal period, will guide the following medical, surgical and psychological management. CONCLUSIONS: For the management of AIS, a multidisciplinary team consisting of physicians, surgeons, and psychologists is highly recommended to support the patient and his/her family on gender identity choices and subsequent appropriate therapeutic decisions.

Case Report of Male Pseudohermaphroditism (Androgen Insensitivity Syndrome): Congenital Disorder of Sexual Differentiation.

INTRODUCTION: A broad spectrum of anomalies of sexual differentiation may exist at birth, which can be unreported until adolescence. A 17-year-old patent with female phenotype came with complaints of primary amenorrhea. On imaging (ultrasound and MRI) uterus and bilateral ovaries were absent. Small blind-ending vaginal pouch was noted along with features suggesting bilateral cryptorchidism. No definite male external genitalia/scrotal sac was seen except for subtle rudimentary bulbo-cavernous muscles. Karyotyping confirmed 46 XY consistent with Male Pseudohermaphroditism. MATERIALS: Male pseudohermaphroditism refers to a condition that affects 46, XY individuals with differentiated testes who exhibit varying degrees of feminization. In these cases there is a spectrum of external genitalia; some individuals are completely phenotypically female. Androgen insensitivity syndrome (AIS), also known as the testicular feminization syndrome, results from end-organ resistance to androgens, particularly testosterone. As the appearance of the external genitalia often is not distinctive enough to make a specific diagnosis, this must be accomplished by clinical findings along with a combination of imaging, cytogenetic and biochemical studies. Ultrasound and MRI studies are extremely useful to diagnose such conditions at the earliest as these patients have an increased incidence of malignancy in the undescended testes. The treatment is influenced by genital tissue responsiveness to androgens and reconstructive surgical procedures. There is a need for counselling regarding pubertal development, sexual performance and fertility. RESULT: A 17year old patent came with complaints of primary amenorrhea. On examination patient has normal external female genitalia, with developed breast. On laboratory correlation, it shows high testosterone level: 881 ng/dL and Normal progesterone level: 0.182 ng/mL. On karyotyping, it shows 46XY karyotype. On USG: Uterus is not well appreciated. There is iso-echogenic oval shaped soft tissue seen in bilateral inguinal regions with vascularity within-likely to be gonads. On MRI: Absence of uterus and bilateral ovaries are confirmed with evidence of symmetrical oval-shaped soft tissue lesions identified within bilateral inguinal canals - consistent with bilateral cryptorchidism. Male pseudohermaphroditism refers to a condition that affects 46, XY individuals with differentiated testes who exhibit varying degrees of feminization. CONCLUSION: In cases of male pseudohermaphroditism, there is a spectrum of external genitalia; some individuals are completely phenotypically female, whereas others appear to be normal males with varying spermatogenesis and/or pubertal virilization. As the appearance of the external genitalia often is not distinctive enough to make a specific diagnosis, this must be accomplished by clinical findings along with a combination of cytogenetic, biochemical, and radiologic studies. Sonographic and radiographic studies are often used initially to evaluate such conditions. Male pseudohermaphrodites all possess testes yet exhibit incomplete virilization of the genital ducts and/or external genitalia. The findings depend on the underlying defect. Complete androgen insensitivity (testicular feminization) is an X-linked recessive disorder in which the absence of cytoplasmic testosterone receptors prevents specific gene activation and subsequent differentiation of the external genitalia. In this disorder, the external genitalia are completely feminized, while in the other forms of male pseudohermaphroditism various degrees of virilization occur. The absence of internal female genital tract structures reflects the synthesis of active Mullerian regression factor by the testes, which may be maldescended. Multiplanar MR images will confirm the absence of a uterus and demonstrate intraabdominal or inguinal testes. Integrated imaging in the form of ultrasound, genitography and MRI is important in demonstrating the anatomy, classification, possible effects or congenital malformations in other organs, warning patients of any risk of neoplasia and guiding the clinician to plan other investigations, hormonal replacement or reconstruction surgery if required. References Tanaka YO, Mesaki N, Kurosaki Y, et al. Testicular feminization: role of MRI in diagnosing this rare male pseudohermaphroditism. J Comput Assist Tomogr 1998;22(6):884-888. Nakhal RS, Hall-Craggs M, Freeman A, et al. Evaluation of retained testes in adolescent girls and women with complete androgen insensitivity syndrome. Radiology 2013;268(1):153-160.

Gender Incongruity in a Person with 46,XY and Complete Androgen Insensitivity Syndrome Raised as a Female.

We present the case of a patient with female sex assignment at birth whose parents consulted with a pediatrician when the child was 12 years old, indicating that despite female sex assignment, she felt that she (henceforth "he") had a male gender identity and was gynephilic. Medical examination revealed a 46XY karyotype, a primary amenorrhea and an appropriate testosterone increase after HCG stimulation test. The patient was diagnosed then with a 46,XY disorder of sex development with androgen insensitivity syndrome, but then he missed subsequent appointments. At the age of 24, he resumed medical follow-up to reaffirm his male gender identity through sex reassignment surgery. His physical examination showed a Tanner stage III-IV breast development, vulva, clitoris, normal-sized vagina, absence of uterus and ovaries on transvaginal ultrasound, bilateral cryptorchidism on abdominal-pelvic MRI and osteoporosis on bone densitometry. The results of the blood tests were LH 24.5 mIU/mL [normal range, 1.7-8.6 mIU/mL for men] and testosterone 8.8 nmol/L [8.7-33 nmol/L]; conversely, FSH, estradiol, progesterone, and prolactin levels were normal. The molecular genetic analysis revealed an androgen receptor gene mutation associated with complete androgen insensitivity syndrome. At present, the patient has undergone bilateral orchiectomy and has initiated treatment with topical testosterone and bisphosphonates. We have yet to evaluate the effects and decide the best therapy taking into account that he has a male gender identity but complete androgen insensitivity syndrome.

Mild Androgen Insensitivity Syndrome: The Current Landscape.

OBJECTIVE: Mild androgen insensitivity syndrome (MAIS) belongs to the androgen insensitivity syndrome (AIS) spectrum, an X-linked genetic disease that is the most common cause of differences in sex development. Unfortunately, AIS studies mainly focus on the partial and complete phenotypes, and the mild phenotype (MAIS) has been barely reported. Our purpose is to explore the MAIS facets, clinical features, and molecular aspects. METHODS: We collected all reported MAIS cases in the medical literature and presented them based on the phenotype and molecular diagnosis. RESULTS: We identified 49 different androgen receptor (AR) mutations in 69 individuals in the literature. We compared the AR mutations presented in individuals with MAIS with AR mutations previously reported in other AIS phenotypes (partial and complete) regarding the type, location, genotype-phenotype correlation, and functional studies. CONCLUSION: This review provides a landscape of the mild phenotype of AIS. Most patients with MAIS present with male factor infertility. Therefore, AR gene sequencing should be considered during male factor infertility investigation, even in males with typically male external genitalia. In addition, MAIS can be part of other medical conditions, such as X-linked spinal and bulbar muscular atrophy (Kennedy disease).

Androgen insensitivity syndrome: Can cytology help?

Androgen insensitivity syndrome (AIS) is described as a patient's clinical (phenotypical) presentation as a female with male karyotyping. Classically, patients are normal looking females with complaints of primary amenorrhea. The gonads may be found as extra-genital swellings; rarely, the testes may undergo malignant transformation. Thus, gonadectomy is indicated in these patients on attaining puberty. A rare and interesting case of clinically unsuspected AIS in a young female who presented with primary amenorrhea and inguinal swelling is reported. The initial diagnosis was suggested on fine needle aspiration cytology (FNAC) from the inguinal swelling that showed the presence of Sertoli cells. Further family history revealed two similar siblings; karyotyping and histopathology confirmed the diagnosis of AIS in the patient. This case highlights the importance of FNAC in early diagnosis and a multidisciplinary approach to confirm the diagnosis and help in appropriate management.

Novel androgen receptor gene variant containing a frameshift mutation in a patient with complete androgen insensitivity syndrome.

A variety of mutations in the androgen receptor (AR) gene are linked to androgen insensitivity syndrome (AIS). AIS is the most common specific cause of 46, XY disorder in sex development. Here, we reported a patient which presented as a female with 46, XY karyotype and normal female external genitalia. The patient was diagnosed with complete AIS caused by a novel mutation (NM_000044, c.2678-2726del, p. Pro893Leufs*35) in the AR gene. Targeted exome sequencing was used to detect the patient's androgen receptor gene mutations. Sanger sequencing was used to validate the mutation. This study showed that a novel mutation of the AR gene can cause complete AIS; the study also broadened the AR mutation spectrum and indicated that targeted exome sequencing could help facilitate the diagnosis of complicated disorders in sexual development.

Complete androgen insensitivity syndrome - rare case of malignancy of dysgenetic gonads.

OBJECTIVE: A case report of a young patient with primary amenorrhea who was diagnosed with agenesis of the uterus and was genetically confirmed for complete androgen insensitivity syndrome with already developed malignancy of dysgenetic gonads. CASE REPORT: The 17-year-old patient visited a gynecological clinic for primary amenorrhea. Both ultrasound and vaginal examination revealed suspicion of uterine agenesis, which was subsequently verified during diagnostic laparoscopy. Genetic testing showed karyotype 46,XY, and a rare diagnosis - complete androgen insensitivity syndrome. A secondary finding from a left gonadal biopsy was a Sertoli-Leydig cell tumor. The patient underwent bilateral gonadectomy and was given estrogen replacement therapy. She is now regularly examined by a pediatric oncologist. CONCLUSION: Complete androgen insensitivity syndrome is a rare genetic disease characterized by varying degrees of feminization in individuals with a male karyotype. It should not be neglected, especially in the differential diagnostic work-up of primary amenorrhea. Genetic testing of the karyotype should be performed whenever uterine agenesis is suspected.

Challenges in the Diagnosis of XY Differences of Sexual Development.

Background: We report the clinical case of female patient with 46,XY difference of sexual development (DSD) and discuss the challenges in the differential diagnosis between complete gonadal dysgenesis (also called Swyer syndrome) and complete androgen insensitivity syndrome. Case Presentation: The patient's with primary amenorrhea gynaecological examination and magnetic resonance imaging (MRI) revealed the absence of the uterus and a very short vagina. Two sclerotic structures, similar to ovaries, were recognised bilaterally in the iliac regions. Hormonal assay tests revealed hypergonadotropic hypogonadism and the testosterone level was above normal. The karyotype was 46,XY and a diagnosis of Swyer syndrome was made. At the age of 41, the patient underwent a gynaecological review and after evaluating her tests and medical history, the previous diagnosis was questioned. Therefore, a molecular analysis of sex-determining region Y (SRY) and androgen receptor (AR) genes was made and the results instead led to a definite diagnosis of complete androgen insensitivity syndrome. Conclusions: The presented case illustrates that differentiating between complete gonadal dysgenesis and complete androgen insensitivity can be challenging. A well-established diagnosis is crucial because the risk of malignancy is different in those two syndromes, as well as the timing and importance of gonadectomy.

[Androgen Insensitivity Syndrome with Bilateral Cryptorchidism and Seminoma in Tibet:Report of One Case].

Androgen insensitivity syndrome(AIS)with bilateral testicular malignant transformation is very rare,and its diagnosis should be based on clinical manifestations,physical examination,serological findings,karyotype analysis,and pathological findings.This study reported a case of complete androgen insensitivity syndrome among Tibetan in Tibet.It took 17 years from the discovery of congenital absence of uterus to bilateral pelvic mass resection.Pathological examination confirmed that bilateral pelvic space occupying lesions were dysplastic testicular tissue with seminoma and sertoli cell adenoma-like nodules.This study summarized the clinicopathological features to deepen the understanding of the disease.

[A case of complete androgen insensitivity syndrome with special family history and its genetic analysis].

OBJECTIVE: To report a case of complete androgen insensitivity syndrome with a special family history and its genetic analysis. METHODS: We studied the medical history, diagnosis and treatment of a case of complete androgen insensitivity syndrome, collected blood samples from the patient and his mother for whole exome sequencing, and analyzed the genetic etiology. RESULTS: The patient presented with "primary amenorrhea" and diagnosed with male pseudohermaphroditism, with the karyotype as 46, XY. Surgery confirmed undescended testes in the abdominal cavity. The androgen level was higher than normal. Whole exome sequencing of the patient and his mother found c.2678C>T (p.P893L) but no other abnormalities, which was considered as a suspected pathogenic mutation of complete androgen insensitivity syndrome. The patient had a "sister" with a similar medical history. CONCLUSION: c.2678C>T (p.P893L) is a suspected pathogenic mutation of complete androgen insensitivity syndrome, which usually cannot be detected until puberty, making it easy to delay the diagnosis.

18-Year-old patient with Klinefelter syndrome (47, XXY) and complete androgen insensitivity syndrome (CAIS) - case report.

AIMS: The aims of the presented case report are to emphasize the importance of a proper diagnostics and treatment in the case of the coexistence of Klinefelter syndrome (KS, 47 XXY) and complete androgen insensitivity syndrome (CAIS). Since there is no causal treatment it is necessary to provide the patient with a good quality of life, including psychological and sexological support. MATERIALS AND METHODS: The presented case report is the retrospective analysis of the patient's medical history over the 3 years. RESULTS: At the age of 15, the patient was directed to genetic testing due to primary amenorrhea. The results of the patient showed an incorrect male karyotype with the SRY gene present (47, XXY). A molecular diagnostics revealed a very rare variant of the androgen receptor (AR) mutation responsible for tissue insensitivity to androgens. The detected mutation has not been described in the available databases so far. Following a diagnosis of the presence of Klinefelter syndrome (KS, 47 XXY) together with complete androgen insensitivity syndrome (CAIS), the patient underwent a bilateral gonadectomy. CONCLUSIONS: In women with KS and CAIS physiological reproduction and maintenance of normal sex, hormone levels are not possible. A gonadectomy is performed due to the risk of malignant testicular tumors.

Complete androgen insensitivity syndrome (CAIS) and eating disorders: a case report.

Androgen Insensitivity Syndrome represents a disorder due to partial (PAIS), mild (MAIS) or complete (CAIS) resistance to androgens caused by X-linked mutations of androgen receptor gene. CAIS is characterized by a female phenotype and XY karyotype. Cases of patients with CAIS and associated obesity have been reported, while to date, there are no reports about the onset of an Eating Disorder (ED) in the carriers of this condition. We describe the case of a patient affected by CAIS and Anorexia Nervosa (AN) restricting type later shifted to Bulimia Nervosa (BN). A previous overweight was present since childhood, contributing to severe Body Dissatisfaction (BD) and consequent restrictive behaviour in adolescence. Beyond its peculiarity, this case highlights also the importance of diagnosing and monitoring the overweight and BD in CAIS patients to avoid the onset of an ED.Level of Evidence: V, descriptive study.

Complete Androgen Insensitivity Syndrome: From the Relevance of an Accurate Genetic Diagnosis to the Challenge of Clinical Management. A Case Report.

Introduction: Androgen insensitivity syndrome (AIS), an X-linked recessive disorder of sex development (DSD), is caused by variants of the androgen receptor (AR) gene, mapping in the long arm of the X chromosome, which cause a complete loss of function of the receptor. Case presentation: We report a patient diagnosed with complete AIS (CAIS) at birth due to swelling in the bilateral inguinal region. Transabdominal ultrasound revealed the absence of the uterus and ovaries and the presence of bilateral testes in the inguinal region. The karyotype was 46,XY. She underwent bilateral orchiectomy at 9 months and was given estrogen substitutive therapy at the age of 11 years. Genetic analysis of the AR gene variants was requested when, at the age of 20, the patient came to our observation. Methods: The genetic testing was performed by next-generation sequence (NGS) analysis. Results: The genetic analysis showed the presence of the c.2242T>A, p.(Phe748Ile) variant in the AR gene. To the best of our knowledge, this variant has not been published so far. Furthermore, the patient has a heterozygous c.317A>G, p.(Gln106Arg) variation of the gonadotropin-releasing hormone receptor (GNRHR) gene, a heterozygous c.2273G>A, p.Arg758His variation of the chromodomain helicase DNA binding protein 7 (CHD7) gene, and compound heterozygous c.875A>G, p.Tyr292Cys, and c.8023A>G, p.Ile2675Val variations of the Dynein Axonemal Heavy Chain 11 (DNAH11) gene. Conclusions: The case herein reported underlines the importance of an accurate genetic analysis that has to include karyotype and AR gene variant analysis. This is useful to confirm a clinical diagnosis and establish the proper management of patients with CAIS. Numerous variants of the AR gene have not yet been identified. Moreover, several pitfalls are still present in the management of these patients. More studies are needed to answer unresolved questions, and common protocols are required for the clinical follow-up of patients with CAIS.

[Pilot study of genetic counseling and prenatal diagnosis in androgen insensitivity syndrome: with 3 families reports].

Objective: To explore genetic counseling and prenatal diagnosis strategies for women who have androgen insensitivity syndrome (AIS) family history or pregnancy history of AIS proband. Methods: Three families of complete AIS (CAIS) were retrospectively reported and summarized. The subsequent pregnancies and processes of prenatal diagnosis were followed up. Results: Among three CAIS families, one family had androgen receptors (AR) gene mutation diagnosis; the other two families were diagnosed clinically without gene diagnosis. All three mothers of CAIS probands were in pregnant again when they sought counseling, with gestational weeks between 7－13 weeks. They underwent chorionic villi sampling or amniocentesis in their second trimester (at 12, 16, 17 weeks respectively). Chromosome gender of all three fetuses were 46,XY, which was inconsistent with the ultrasonographic phenotype of external genitalia. All patients chose selective abortion in their second trimester. The external genitalia of all aborted fetuses were female phenotype, which supported the diagnosis of CAIS. Conclusion: Genetic counseling and prenatal diagnosis should be provided to high-risk patients with family history of AIS or proband pregnancy history, so as to achieve the goal of good childbearing and sound childrearing.

Clinical, hormonal and genetic characteristics of androgen insensitivity syndrome in 39 Chinese patients.

BACKGROUND: Abnormal androgen receptor (AR) genes can cause androgen insensitivity syndrome (AIS), and AIS can be classified into complete androgen insensitivity syndrome (CAIS), partial androgen insensitivity syndrome (PAIS) and mild AIS. We investigated the characteristics of clinical manifestations, serum sex hormone levels and AR gene mutations of 39 AIS patients, which provided deeper insight into this disease. METHODS: We prospectively evaluated 39 patients with 46, XY disorders of sex development (46, XY DSD) who were diagnosed with AIS at the Department of Endocrinology of Shanghai Children's Hospital from 2014 to 2019. We analysed clinical data from the patients including hormone levels and AR gene sequences. Furthermore, we screened the AR gene sequences of the 39 AIS patients to identify probable mutations. RESULTS: The 39 AIS patients came from 37 different families; 19 of the patients presented CAIS, and 20 of them presented PAIS. The CAIS patients exhibited a higher cryptorchidism rate than the PAIS (100 and 55%, P = 0.001). There were no significant difference between the CAIS and PAIS groups regarding the levels of inhibin B (INHB), sex hormone-binding globulin (SHBG), basal luteinizing hormone (LH), testosterone (T), or basal dihydrotestosterone (DHT), the T:DHT ratio, DHT levels after human chorionic gonadotropin (HCG) stimulation or T levels after HCG stimulation. However, the hormone levels of AMH (P = 0.010), peak LH (P = 0.033), basal FSH (P = 0.009) and peak FSH (P = 0.033) showed significant differences between the CAIS group and the PAIS group. Twenty-one reported pathogenic and 9 novel AR mutations were identified. Spontaneous AR mutations were found in 5 AIS patients, and 21 patients inherited mutations from their mothers, who carried heterozygous mutations. CONCLUSIONS: Forty-six XY DSD patients with cryptorchidism and female phenotypes were highly suspected of having AIS. We demonstrated that CAIS patients could not be distinguished by their hormone levels alone. Compared with PAIS patients, CAIS patients exhibited higher basal FSH, peak FSH, and peak LH hormone levels but lower AMH expression. We identified 21 reported pathogenic AR mutations and 9 novel AR mutations that led to different types of AIS. Missense mutations were the major cause of AIS and mostly occurred in exon 7 of the AR gene. These findings provided deeper insight into the diagnosis and classification of AIS and will even contributed to its clinical assessment.

Partial androgen insensitivity syndrome in a 68-year-old patient.

Partial androgen insensitivity syndrome (PAIS) is a form of disorders of sexual development. Besides the issues of gender assignment, the fate of gonads in these patients poses a challenging problem. Debate still remains on the need and/or timing of gonadectomy in either complete or partial androgen insensitivity syndromes. In this case report, we present a 68-year-old patient who was raised as a woman, stayed married for 45 years and admitted to our endocrinology department with complaint of male type hair distribution after initial examination following move to a nursing home. Physical examination revealed no breast development, a phallus of 6 cm, labia majoras that include testes and a blind ending vagina. Chromosomal analysis confirmed 46,XY with intact SRY and AZF regions. Pelvic ultrasonography and magnetic resonance imaging results indicated testicular tissue in labia majoras in addition to a rudimentary prostate. Gonadectomy was not offered to the patient due to lacking evidence of benefit in this age group and considering possible hormonal side effects. Our patient might be the oldest patient to be diagnosed with PAIS. Treatment and follow-up protocols for adults with PAIS are not standardized and therefore these patients should be individually evaluated and treated. Risks and benefits of surgery should be kept in mind when suggesting gonadectomy.

Initial assessment of a child with suspected disorder of sex development.

Disorders of sex development (DSD) are defined as discrepancy between chromosomal, gonadal and anatomic sex. The basic principles for the management of DSD include a multidisciplinary approach for gender assignment. Clinical assessment includes a detailed history and examination of external genitalia. Most of the disorders with symmetrical gonades indicate hormonal cause while asymmetrical gonades are found in chromosomal DSDs. Karyotyping will indicate a 46XX DSD, 46 XY DSD or mosicism. Internal anatomy is defined by ultrasonography, genitoscopy and laparoscopy. Human chorionic gonadotrophins (hCG) stimulation test is carried out in under-virilised males to see the function of Leydig cells in testes. The Most common cause of 46XX DSD is congenital adrenal hyperplasia (CAH). The decision of gender assignment surgery is to be taken in a multidisciplinary environment and with informed consent of the parents. Most of 46 XX CAH patients, even if markedly virilised, and 46 XY complete androgen insensitivity syndrome are raised as females. Similarly, most of 5-α reductase deficiency and 17-ß hydroxysteroid dehydrogenase deficiency patients are assigned to the male gender. The decision in cases of mixed gondal dysgenesis and ovotesticular DSD is based on the development of external and internal genitalia. Patients with androgen biosynthetic defects, partial androgen insensitivity syndrome are usually assigned to the male gender.

Diagnostic accuracy of human chorionic gonadotropins (HCG) stimulation test in XY-disorders of sex development (XY-DSD) presented in Armed Forces Institute of Pathology.

OBJECTIVE: To determine diagnostic accuracy of human chorionic gonadotropins stimulation test in differentiating androgen insensitivity syndrome and 5-alpha reductase deficiency, keeping testosterone to dihydrotestosterone ratio as the gold standard. METHODS: The cross-sectional study was conducted at the Department of Chemical Pathology and Endocrinology, Armed Forces Institute of Pathology, Rawalpindi, Pakistan, from January to December, 2016, and comprised patients aged 01 day to 20 years having XY chromosomes on karyotyping and with a spectrum of phenotypes. Blood samples were collected from each subject for basal serum testosterone, serum luteinizing hormone and serum follicular stimulating hormone level. Human chorionic gonadotropins stimulation test was performed in every subject as per the protocol. Sandwich chemiluminescence immunoassay technique was used to analyse serum samples. Serum dihydrotestosterone level was also detected to determine testosterone and dihydrotestosterone ratio. Data was analysed using SPSS 24. . RESULTS: Of the 104 subjects with a mean age of 1.78}0.95 years,96(92.3%) were diagnosed as cases of androgen insensitivity syndrome on the basis of human chorionic gonadotropins stimulation response level, which was 2-9 times of basal serum testosterone level. Also, 8(7.7%) subjects were diagnosed to have 5-alpha reductase deficiency syndrome. In such subjects, post-human chorionic gonadotropins response level of serum testosterone was more than 10 times of the basal level. CONCLUSIONS: The human chorionic gonadotropins stimulation test was found to be comparable to testosterone-to dihydrotestosterone ratio in differentiating between case of androgen insensitivity syndrome and 5-alpha reductase deficiency.