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Management of Growth Disorders in Puberty: GH, GnRHa and Aromatase Inhibitors: A Clinical Review.

Nelly MaurasJudith RossVeronica Mericq
Published in: Endocrine reviews (2022)
Pubertal children with significant growth retardation represent a considerable therapeutic challenge. In growth hormone (GH) deficiency, and in those without identifiable pathologies (idiopathic short stature), the impact of using GH is significantly hindered by the relentless tempo of bone age acceleration caused by sex steroids, limiting time available for growth. Estrogen principally modulates epiphyseal fusion in females and males. GH production rates and growth velocity more than double during puberty, and high dose GH use has shown dose-dependent increases in linear growth, but also can raise IGF-I concentrations supraphysiological, and increase treatment costs. Gonadotropin releasing hormone analogues (GnRHa) suppress physiologic puberty, and when used in combination with GH can meaningfully increase height potential in males and females while rendering adolescents temporarily hypogonadal at a critical time in development. Aromatase inhibitors (AIs) block androgen to estrogen conversion, slowing down growth plate fusion, while allowing normal virilization in males and stimulating longitudinal bone growth via androgen receptor effects on the growth plate. Here, we review the physiology of pubertal growth, estrogen and androgen action on the epiphyses, the therapeutic impact of GH, alone and in combination with GnRHa and with AIs. The pharmacology of potent oral AIs, and pivotal work on their efficacy and safety in children is also reviewed. Timed-limited use of AIs is a viable alternative to promote growth in pubertal males, particularly combined with GH. Use of targeted growth-promoting therapies in adolescence must consider the impact of sex steroids on growth plate fusion, and treatment should be individualized.
Keyphrases
  • growth hormone
  • young adults
  • high dose
  • low dose
  • physical activity
  • depressive symptoms
  • climate change
  • body composition