Recent advancement in the treatment of boys and adolescents with hypogonadism.

Clinical manifestations and the need for treatment varies according to age in males with hypogonadism. Early foetal-onset hypogonadism results in disorders of sex development (DSD) presenting with undervirilised genitalia whereas hypogonadism established later in foetal life presents with micropenis, cryptorchidism and/or micro-orchidism. After the period of neonatal activation of the gonadal axis has waned, the diagnosis of hypogonadism is challenging because androgen deficiency is not apparent until the age of puberty. Then, the differential diagnosis between constitutional delay of puberty and central hypogonadism may be difficult. During infancy and childhood, treatment is usually sought because of micropenis and/or cryptorchidism, whereas lack of pubertal development and relative short stature are the main complaints in teenagers. Testosterone therapy has been the standard, although off-label, in the vast majority of cases. However, more recently alternative therapies have been tested: aromatase inhibitors to induce the hypothalamic-pituitary-testicular axis in boys with constitutional delay of puberty and replacement with GnRH or gonadotrophins in those with central hypogonadism. Furthermore, follicle-stimulating hormone (FSH) priming prior to hCG or luteinizing hormone (LH) treatment seems effective to induce an enhanced testicular enlargement. Although the rationale for gonadotrophin or GnRH treatment is based on mimicking normal physiology, long-term results are still needed to assess their impact on adult fertility.

Utilidad de la hormona anti-Mülleriana (AMH) y la inhibina B en el diagnóstico del hipogonadismo en el niño

Durante la infancia, el eje hipotálamo-hipófiso-testicular se encuentra parcialmente quiescente: bajan los niveles de gonadotrofinas y la secreción de testosterona disminuye siguiendo a la caída de la LH. Por el contrario, las células de Sertoli están activas, como lo demuestran los niveles séricos de hormona anti-mülleriana (AMH) e inhibina B. Por lo tanto, el hipogonadismo en la infancia puede ser puesto en evidencia, sin necesidad de pruebas de estímulo, si se evalúa la función de las células de Sertoli. La AMH sérica es alta desde la vida fetal hasta el inicio de la pubertad. La producción testicular de AMH aumenta en respuesta a la FSH pero es potentemente inhibida por los andrógenos. La inhibina B es alta en los primeros años de la vida, luego disminuye parcialmente aunque permanece claramente más alta que en las mujeres, y aumenta nuevamente en la pubertad. Las concentraciones séricas de AMH e inhibina B son indetectables en pacientes anórquidos. En el hipogonadismo primario que afecta a todo el testículo, establecido durante la vida fetal o la infancia, todos los marcadores testiculares están bajos. Cuando en el hipogonadismo están afectadas sólo las células de Leydig, la AMH y la inhibina B sérica son normales y/o altas, mientras que están bajas cuando se ven afectadas las células de Sertoli. La AMH y la inhibina B están bajas en varones con hipogonadismo central en edad prepuberal y continúan bajas en edad puberal. El tratamiento con FSH induce un aumento en los niveles séricos de los marcadores de la célula de Sertoli. En conclusión, la determinación de los niveles séricos de AMH e inhibina B es útil para evaluar la función testicular, sin necesidad de pruebas de estímulo, y orientar el diagnóstico etiológico en el hipogonadismo masculino en pediatría.

During childhood, the hypothalamic-pituitary-gonadal axis is partially quiescent: gonadotropin and testosterone levels decrease, but Sertoli cells remain active, as shown by serum anti-Müllerian hormone (AMH) and inhibin B levels. Therefore, hypogonadism may be diagnosed during childhood, without the need for stimulation tests, provided Sertoli cell function is assessed. Serum AMH levels are high from fetal life until the onset of puberty. Testicular AMH production increases in response to FSH but is potently inhibited by androgens. Serum inhibin B levels are high until the age of 3-4 years in boys; although they decrease thereafter, they remain clearly higher than in girls of the same age. During the early stage of puberty, serum inhibin B increases again to reach adult values. AMH and inhibin B are undetectable in the serum of anorchid patients. In boys with fetalonset primary hypogonadism affecting the whole testicular parenchyma, AMH and inhibin B are low in serum. Conversely, they are normal or high when only the interstitial tissue of the gonads is impaired. AMH and inhibin B are low in children with central hypogonadism and persist low during pubertal age. FSH treatment induces an increase in both Sertoli cell markers. In conclusion, the determination of serum AMH and inhibin B levels is useful for the assessment of testicular function, without the need for stimulation tests, in pediatric patients.

New perspectives in the diagnosis of pediatric male hypogonadism: the importance of AMH as a Sertoli cell marker / Novas perspectivas no diagnóstico do hipogonadismo pediátrico masculino: a importância do AMH como marcador de células de Sertoli

Sertoli cells are the most active cell population in the testis during infancy and childhood. In these periods of life, hypogonadism can only be evidenced without stimulation tests, if Sertoli cell function is assessed. AMH is a useful marker of prepubertal Sertoli cell activity and number. Serum AMH is high from fetal life until mid-puberty. Testicular AMH production increases in response to FSH and is potently inhibited by androgens. Serum AMH is undetectable in anorchidic patients. In primary or central hypogonadism affecting the whole gonad and established in fetal life or childhood, serum AMH is low. Conversely, when hypogonadism affects only Leydig cells (e.g. LHβ mutations, LH/CG receptor or steroidogenic enzyme defects), serum AMH is normal or high. In pubertal males with central hypogonadism, AMH is low for Tanner stage (reflecting lack of FSH stimulus), but high for the age (indicating lack of testosterone inhibitory effect). Treatment with FSH provokes an increase in serum AMH, whereas hCG administration increases testosterone levels, which downregulate AMH. In conclusion, assessment of serum AMH is helpful to evaluate gonadal function, without the need for stimulation tests, and guides etiological diagnosis of pediatric male hypogonadism. Furthermore, serum AMH is an excellent marker of FSH and androgen action on the testis.

As células de Sertoli são a população de células mais ativa nos testículos durante a primeira e segunda infância. Neste período, o hipogonadismo só pode ser evidenciado sem o uso de testes estimulatórios se a função das células de Sertoli for avaliada. O AMH é um marcador útil do número e da atividade das células de Sertoli no período pré-puberal. A concentração sérica de AMH é alta da metade da vida fetal até a metade da puberdade. A produção de AMH pelos testículos aumenta em resposta ao FSH e é potencialmente inibida por androgênios. O AMH sérico não é detectável em pacientes anorquídicos. No hipogonadismo central ou primário afetando a gônada inteira, ou estabelecido na vida fetal ou infância, a concentração de AMH sérica é baixa. Por outro lado, quando o hipogonadismo afeta apenas as células de Leydig (por exemplo, nas mutações, LHβ, defeitos do receptor de LH/CG ou das enzimas esteroidogênicas), a concentração de AMH sérico é normal ou alta. Em meninos púberes com hipogonadismo central, a concentração de AMH é baixa para o estágio na escala de Tanner (refletindo a falta de estímulo pelo FSH), mas alta para a idade (indicando a falta do efeito inibidor da testosterona). O tratamento com FSH provoca um aumento do AMH sérico, enquanto a administração de hCG aumenta os níveis de testosterona, que fazem a downregulation do AMH. Em conclusão, a concentração sérica de AMH é útil na avaliação da função gonadal, excluindo a necessidade de testes estimulatórios, e direciona o diagnóstico etiológico do hipogonadismo pediátrico masculino. Além disso, o AMH sérico é um marcador excelente da ação do FSH e dos androgênios nos testículos.

Congenital bilateral anorchia: hormonal, molecular and imaging study of a case

The aetiology of congenital bilateral anorchia is unknown. For many years there was speculation of an association between genetic factors and anorchia. We performed different tests in an anorchid boy, 2.5 years old, presented to us with micropenis and absence of both testes, in order to determine any possible factors contributing to the anorchia. Physical examination and hormonal, imaging, chromosomal, and molecular analyses of this case were performed. The basal FSH and LH levels were increased, and their increase in response to gonadotrophin-releasing hormone test was prolonged, while testosterone levels failed to increase after hCG administration. Ultrasonography of the pelvis and magnetic resonance of the abdomen were performed and failed to show any testicular tissue. Lastly, surgical exploration confirmed the absence of testicular structure. Chromosomal analysis revealed a normal male karyotype and molecular analysis did not reveal mutations or polymorphisms in the open reading frame of the SRY gene. Diagnostically, the lack of testosterone response to hCG stimulation is the hormonal hallmark of bilateral congenital anorchia. In addition, according to our case and previous studies, there is lack of association between genetic factors necessary for correct testicular descent and anorchia.