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PEDIATRICS: DISORDERS OF SEXUAL DIFFERENTIATION

 

Congenital Adrenal Hyperplasia

Normal Sexual Differentiation

 

Prostatic urethra

Prostatic urethra anatomy.

Source: Wikipedia

 

 

UrologySchool.com Summary of Embyrologic Origins of the GU Tract

  Common§ Males Females
Urogenital sinus Bladder

Transitional and peripheral zone of prostate§

Prostatic and penile urethra

Bulbourethral glands

Distal 1/3 of vagina

Urethra

Wollfian duct Renal collecting tubules and ducts, calyces, infundibulae, pelvis, and ureters§§

Central zone of prostate§

Body and tail of epididymis

Vas deferens

Seminal vesicles

Ejaculatory duct

Appendix epididymis

Remnants:

Gartner duct

Epoopheron or paraoopheron

Mullerian duct  

Remnants:

Appendix testis

Prostatic utricle

Fallopian tubes

Uterus

Cervix

Proximal 2/3rd of the vagina

Mesonephric tubules   Efferent ductules and head of epididymis  
Genital tubercle   Penis§ Clitoris
Urethral folds   Corpus spongiosum/penile shaft Labia minora
Labioscrotal swellings   Scrotum Labia majora
Abnormal Sexual Differentiation
Disorders of Gonadal Differentiation and Development

 

    • Klinefelter syndrome
      • Karyotype: characterized by 1 Y chromosome and ≥ 2 X chromosomes
        • Most common karyotype will be 47,XXY
      • Epidemiology
        • Incidence: 1 in 600 live-born males
          • Most common major abnormality of sexual differentiation
      • Clinical characteristics (6):
        1. Small, firm testes
          • Seminiferous tubules undergo replacement with hyaline after pubertal development
          • Predisposed to developing extra-gonadal (e.g. mediastinal) germ cell tumours as well as non-germ cell tumours (Leydig and Sertoli cell tumors [not gonadoblastoma])
            • Routine surveillance scrotal ultrasonography has been advocated for post-pubertal patients
        2. Primary hypogonadism
          • Leydig cells are present, but testosterone production is abnormally low, with elevated gonadotropins and estradiol
          • The decreased androgen production may impair normal secondary sexual development.
            • Muscle development may be poor, and the fat distribution is more female than male
          • Facial hair is sparse
        3. Gynecomastia
          • Common development during puberty
          • Result of an increased ratio of estradiol to testosterone
          • Can be quite marked
          • 8x the risk for development of breast carcinoma, requiring lifelong surveillance after puberty
        4. Azoospermia
          • Vast majority are azoospermic
            • Presence of sperm suggests 46,XY/47,XXY mosaicism
          • Fertility is possible with the use of testicular sperm extraction (TESE)
            • Some advocate combining intracytoplasmic sperm injection (ICSI) with pre-implantation diagnosis, given the lower (54%) rate of normal embryos from Klinefelter syndrome patients
        5. Eunuchoidism
        6. Above average height, mainly because of the disproportionate length of their legs
        7. Neurophysiologic and cognitive deficits
          • Decreased verbal skills, frontal executive function and cognitive skills
      • Management
        • Androgen supplementation in selected male patients to improve libido
        • Reduction mammoplasty, if necessary
        • Surveillance for testicular tumor and breast carcinoma

 

  • 46,XX Males
    • Karyotype: 46XX
    • Characterized by testicular development in subjects who have two X chromosomes and lack a normal Y chromosome
    • Two categories of patients with XX maleness have been identified:
      • SRY positive (90% of cases)
        • The most common mechanism to explain sex reversal is translocation of Y-chromosomal material, including SRY, to the X chromosome.
        • Rarely have genital abnormalities, but they have phenotypic features of Klinefelter syndrome, including hypogonadism, gynecomastia, azoospermia. These patients differ from those with Klinefelter syndrome in that they are shorter and have normal skeletal proportions
      • SRY negative
        • More commonly have genital ambiguity
    • Clinical characteristics:
      • Most of these subjects have normal male external genitalia, but 10% have hypospadias
      • All are infertile
    • Management
      • Similar to Klinefelter syndrome
      • Androgen replacement benefits selected patients, and reduction mammoplasty may be beneficial.
      • Likely that these patients will also be at increased risk for breast carcinoma and testis tumor.
      • Unable to have biological children because of their lack of germ cell elements
        • Those classic patients with infertility would not benefit from testicular biopsy for potential intracytoplasmic sperm injection

 

  • Turner syndrome
    • Karyotype: 45X
      • Presence of only one normally functioning X chromosome; the other sex chromosome may be absent or abnormal, or mosaicism may be present
    • Clinical characteristics:
      • Female phenotype
      • Short stature
      • Lymphedema
        • Majority of the associated congenital anomalies can be explained by the presence of lymphedema at critical points in development, leading to an imbalance in growth forces
      • Broad chest, webbed neck, widespread nipples, cubitus valgus (increased carrying angle at the elbows), peripheral edema at birth, short fourth metacarpal, hypoplastic nails, multiple pigmented nevi
      • Primary amenorrhea
        • Common cause of primary amenorrhea, and the diagnosis is frequently made because pubertal development never occurs
      • Lack of secondary sexual characteristics
        • Pubic and axillary hair fails to develop in normal abundance, and the well-differentiated external genitalia, vagina, müllerian derivatives, and breasts remain small
      • Gonadal dysgenesis
        • Ovaries become streaks and are located in the broad ligament
          • Histologically, the hypoplastic streak possesses interlacing waves of dense fibrous stroma that is devoid of oocytes but is otherwise indistinguishable from normal ovarian stroma.
        • Both estrogen and androgen are decreased, and levels of FSH and LH are increased
      • Coarctation of the aorta, bicuspid aortic valve, and renal anomalies
        • 33-60% have structural or positional abnormalities of the kidney such as horseshoe kidney, duplication or renal agenesis, and malrotation
      • Neurophysiologic and cognitive deficits
        • Differences in parietal and temporal lobe anatomy and posterior fossa morphology
    • Diagnosis and Evaluation
      • May be diagnosed prenatally on the basis of a variety of ultrasound findings (increased nuchal translucency, lymphedema, cystic hygroma, coarctation of the aorta, renal anomalies) or by abnormal results of fetal karyotyping.
    • Management
      • Must identify possible Y-chromosomal material or 45X/46XY mosaicism
        • Occult Y-chromosomal material in the neonate is evaluated with fluorescence in situ hybridization (FISH) or PCR
        • Risk of gonadoblastoma (in situ germ cell cancer of low malignant potential) with occult Y-chromosomal material: 12%
          • Gonadoblastoma is associated with dysgerminoma or other germ cell neoplasms
        • Because the age of occurrence of gonadoblastoma is variable and has been reported as early as age 10 months, timely prophylactic excision of the streak gonads in the Y mosaic Turner syndrome patient is advised
        • Streak gonads in confirmed 45,XO patients (without any Y-chromosome material) do not need to be removed
      • Ultrasound screening for renal and cardiac abnormalities
      • Human growth hormone has successfully been used in children to achieve increased adult height.
      • At an appropriate age, typically 12-15 years, exogenous hormonal therapy to induce puberty and then to maintain a normal female endocrine status is begun.
        • A spectrum of potential gonadal function has been noted in large series of patients with Turner syndrome. In 2-5% of Turner patients, spontaneous menses will occur with a potential to achieve pregnancy independently, although spontaneous fertility is rare.
      • Because of a high likelihood of premature ovarian failure, early oocyte preservation may be useful for long-term fertility preservation.
      • Turner syndrome patients are at increased risk of bladder and urethral cancer

 

  • 46,XX “Pure” Gonadal Dysgenesis
    • Karyotype: 46XX
    • Condition entails gonadal dysgenesis only; these patients exhibit none of the somatic stigmata associated with Turner syndrome
    • Clinical characteristics:
      • Bilateral streak gonads
      • Sexual infantilism
      • Normal female external genitalia
      • Normal müllerian ducts with absence of wolffian duct structures
      • Normal height
      • The streak gonads result in elevated serum gonadotropins
    • Management
      • Proper cyclic hormone replacement with estrogen and progesterone.
      • In contrast to Turner syndrome, growth is not abnormal with this condition, and therefore growth hormone should not be required.
      • Because, by definition, these patients have no Y-chromosomal material, gonadectomy is not required.

 

  • Mixed Gonadal Dysgenesis (MGD)
    • Karyotype: most 45,XO/46,XY
    • Clinical characteristics (4):
      1. Unilateral dysgenetic testis, which is often intra-abdominal
      2. Contralateral streak gonad
      3. Persistent contralateral müllerian structures
      4. Varying degrees of inadequate masculinization
    • The phenotypic spectrum of patients with XO/XY mosaicism ranges from phenotypic females with Turner syndrome, to those with ambiguous genitalia, to those with normal male genitalia.
      • MGD is the 2nd most common cause of ambiguous genitalia (after CAH) in the neonatal period and must be in the differential diagnosis.
      • The majority of these patients have varying degrees of phallic development, a urogenital sinus with labioscrotal fusion, and an undescended testis.
    • The dysgenetic or streak gonad is associated with ipsilateral müllerian derivatives (uterus, fallopian tube)
      • In virtually all patients, a uterus, vagina, and fallopian tube are present.
    • The dysgenetic testis
      • Is capable of responding to gonadotropins and secreting testosterone in normal quantities at puberty
      • Lacks germinal elements, so infertility is the rule
    • Increased risk of developing
      • A gonadal tumor (gonadoblastoma, dysgerminoma)
        • Gonadoblastoma is the most common
      • Wilms tumor
    • Management
      • Gender assignment
      • Appropriate gonadectomy
      • Proper screening for Wilms tumor

 

  • Partial Gonadal Dysgenesis.
    • Karyotype: typically 45,X/46,XY or 46,XY
    • Characterized by two dysgenetic testes
      • Closely related to mixed gonadal dysgenesis (one dysgenetic testis and a streak gonad)
    • Clinical characteristics:
      • Spectrum of external genital abnormalities
        • Depends on the capability of the dysgenetic gonads to produce testosterone
      • Persistent müllerian structures
        • Typically present, but to varying degrees depending on MIS secretion by the dysgenetic gonads
    • Increased risk for gonadal (gonadoblastoma, dysgerminoma) malignancy
    • Management
      • Similar to mixed gonadal dysgenesis

 

  • 46,XY Complete (“Pure”) Gonadal Dysgenesis (Swyer Syndrome)
    • Karyotype: may be due to an abnormality of the SRY gene
      • Mutations in the SRY gene are the cause in 10-15% of cases
    • Characterized by:
      • [Female phenotype] normal female genitalia, well-developed müllerian structures
      • Bilateral streak gonads
      • Non-mosaic karyotype
    • Because there is complete absence of testicular determination in this condition, ambiguity of genitalia is not an issue, but sexual infantilism is the primary clinical problem
    • Majority present in their teens with delayed puberty and amenorrhea
    • Increased risk for germ cell tumors
      • Gonadoblastoma is most common, and it is frequently bilateral
    • Management:
      • Removal of both streak gonads and proper cyclic hormone replacement with estrogen and progesterone.
Ovotesticular Disorder of Sex Development
46,XX Disorder of Sex Development (Over-masculinized Female)

 

Adrenal steroid hormone synthesis

Steroidogenesis

Source: Wikipedia

 

    • Diagnosing and treating the CAH prenatally
      • Diagnosis is made during the first trimester, usually by HLA genotyping or by DNA analysis of genes by chorionic villus sampling at 9-11 weeks’ gestation
      • Management
        • Treatment of the mother with dexamethasone, which crosses the placenta, suppresses fetal secretion of ACTH, thereby preventing virilization of the genitalia.
          • Once pregnancy is confirmed, treatment should be initiated before 9 weeks after the last menstrual period.
            • However, a diagnosis of CAH cannot be confirmed before therapy is initiated because the diagnosis is usually made at 9-11 weeks’ gestation. Therefore, if treatment is initiated for all at-risk fetuses, 7/8 may be treated unnecessarily before confirmatory diagnosis.
46,XY Disorder of Sex Development (Under-masculinized Male)
Unclassified Forms
Approach to the newborn with ambiguous genitalia
References