Clinical Utility of Anti-Mullerian Hormone in Pediatrics

CONTEXT: Anti-Mullerian hormone (AMH) was originally described in the context of sexual differentiation in the male fetus but has gained prominence now as a marker of ovarian reserve and fertility in females. In this mini-review, we offer an updated synopsis on AMH and its clinical utility in pediatric patients. DESIGN AND RESULTS: A systematic search was undertaken for studies related to the physiology of AMH, normative data, and clinical role in pediatrics. In males, AMH, secreted by Sertoli cells, is found at high levels prenatally and throughout childhood and declines with progression through puberty to overlap with levels in females. Thus, serum AMH has clinical utility as a marker of testicular tissue in males with differences in sexual development and cryptorchidism and in the evaluation of persistent Mullerian duct syndrome. In females, serum AMH has been used as a predictive marker of ovarian reserve and fertility, but prepubertal and adolescent AMH assessments need to be interpreted cautiously. AMH is also a marker of tumor burden, progression, and recurrence in germ cell tumors of the ovary. CONCLUSIONS: AMH has widespread clinical diagnostic utility in pediatrics but interpretation is often challenging and should be undertaken in the context of not only age and sex but also developmental and pubertal stage of the child. Nonstandardized assays necessitate the need for assay-specific normative data. The recognition of the role of AMH beyond gonadal development and maturation may usher in novel diagnostic and therapeutic applications that would further expand its utility in pediatric care

The Care of Adolescents and Young Adults with Turner syndrome: A Pediatric and Adolescent Gynecology Perspective

Turner syndrome (TS) is caused by the absence of a part or whole X-chromosome in a phenotypic female and has an estimated prevalence of 25-50/100,000 liveborn females. The primary gynecologic manifestation of TS is Primary Ovarian Insufficiency (POI) and the resulting hypoestrogenism and infertility are experienced by most individuals with TS. In this review, we summarize the recommendations for the care of adolescents and young adults (AYA) with TS, with a focus on primary ovarian insufficiency in TS, hormone replacement therapy, fertility preservation and pregnancy in TS. Powered

Anti-Mullerian hormone and spontaneous puberty in a diverse US Turner syndrome clinic cohort: A cross-sectional study

OBJECTIVE: Serum Anti-Mullerian Hormone (AMH) concentrations have been proposed as a marker of spontaneous puberty and future fertility in Turner syndrome (TS). Gonadotropins during minipuberty may also provide a clue to ovarian function but there is insufficient data to inform utility in the routine clinical management of TS. Our objective was to describe the distribution of AMH in a cross-sectional cohort of patients in a TS specialty clinic, and correlate with spontaneous puberty and karyotype, as well as gonadotropins during the minipuberty of infancy in a smaller subset of patients aged 2-9 months. DESIGN: Retrospective chart review of patients seen in the TS clinic at Children\u27s National Hospital from 1/1/2019 to 8/24/2022, to assess AMH and correlate with karyotype and spontaneous puberty. RESULTS: Among 114 patients (median age 9.6 year, 0.08-22 year), AMH values were detectable in only (40/104) 38%, and higher mean AMH (2.7 ± 0.95 ng/mL) was seen in mosaic 45,X/46,XX karyotype compared to 45,X (0.03 ± 0.14 ng/mL) (p \u3c .001), and structurally abnormal-X karyotype (0.11 ± 0.5) (p = .0003). Mean AMH was higher (1.4 ± 1.6 ng/mL) among those with spontaneous menarche compared with spontaneous thelarche but no menarche. AMH was detectable in 2/10 during minipuberty in those with the lowest luteinizing hormone (LH). CONCLUSIONS: Our institutional data reflects a diverse cohort of patients seen in a TS specialty clinic in the United States, showing correlation of AMH with karyotype and spontaneous menarche, as well as description of gonadotropins during minipuberty highlighting their clinical relevance. Studies in larger, prospective longitudinal cohorts will help determine their predictive value and role in the care of TS

Cell-Free DNA Screening Positive for Monosomy X: Clinical Evaluation and Management of Suspected Maternal or Fetal Turner Syndrome

Initially provided as an alternate to evaluation of serum analytes and nuchal translucency for the evaluation of pregnancies at high-risk of Trisomy 21, cell-free DNA (cfDNA) screening for fetal aneuploidy, also referred to as non-invasive prenatal screening (NIPS), can now also screen for fetal sex chromosome anomalies (SCAs) such as monosomy X as early as 9 to 10 weeks of gestation. Early identification of Turner syndrome, a SCA resulting from the complete or partial absence of the second X chromosome, allows for medical interventions such as optimizing obstetrical outcomes, hormone replacement therapy, fertility protection and support as well improved neurocognitive outcomes. However, cfDNA screening for SCAs and monosomy X in particular is associated with high false positive rates and low positive predictive value. A cfDNA result positive for monosomy X may represent fetal TS, maternal TS, or confined placental mosaicism. A positive screen for monosomy X with discordant results of diagnostic fetal karyotype presents unique interpretation and management challenges due to potential implications for previously unrecognized maternal Turner syndrome (TS). . The current international consensus clinical practice guidelines for the care of individuals with TS throughout the lifespan do not specifically address management of individuals with a cfDNA screen positive for monosomy X. The objective of this manuscript is to provide context and expert-driven recommendations for maternal and/or fetal evaluation and management when cfDNA screening is positive for monosomy X. We highlight unique challenges of cfDNA screening that is incidentally positive for monosomy X, present recommendations for determining if the result is a true positive and discuss when diagnosis of TS is applicable to the fetus or the mother. While we defer the subsequent management of confirmed TS to the clinical practice guidelines, we highlight unique considerations for these individuals initially identified through cfDNA screening