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Growth Hormone Therapy in a Child with Fetal Alcohol Syndrome: Personal Experience with Literature Review

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Giorgio Sodero at Policlinico Universitario Agostino Gemelli
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Lucia Celeste Pane
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Linda Sessa
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Abstract

Introduction: Fetal alcohol syndrome (FAS) is associated with a positive maternal history of drinking during pregnancy and the presence of characteristic dysmorphic features due to alcohol teratogenic effect. No evidence is yet available regarding the use of growth hormone (GH) for children with FAS for whom GH deficiency has not been confirmed. Case Presentation: We have highlighted an improvement in auxological parameters of a child with FAS and normal GH stimulation tests, using a GH dosage similar to that used in idiopathic GH deficit, without side effects. Conclusion: GH therapy in children with FAS may lead to an improvement in growth rate and an increase in final height, although, this condition is not included in the specific recommendations for use of GH. Prolonged follow-up and prospective studies are needed to evaluate long-term efficacy and monitor any possible onset of side effects.
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Case Report
Series of Endocrinology, Diabetes and Metabolism Vol 6 Iss 1
Citation: Sodero G, Pane LC, Sessa L, et al. Growth hormone therapy in a child with fetal alcohol syndrome: personal
experience with literature review. Series Endo Diab Met. 2024;6(1):1-5.
Growth Hormone Therapy in a Child with Fetal Alcohol Syndrome:
Personal Experience with Literature Review
Sodero G *1, Pane LC1, Sessa L1, Rotunno G1, Zampino G 1,2, Rigante D 1,2 and Cipolla C1
1Department of Life Sciences and Public Health, Fondazione Policlinico Universitario A. Gemelli IRCCS, Rome, Italy
2Università Cattolica del Sacro Cuore, Rome, Italy
*Correspondence: Giorgio Sodero, Department of Life Sciences and Public Health, Fondazione Policlinico
Universitario A. Gemelli IRCCS, Rome, Italy
Received on 12 January 2024; Accepted on 30 April 2024; Published on 02 May 2024
Copyright © 2024 Sodero G, et al. This is an open-access article and is distributed under the Creative Commons
Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the
original work is properly cited.
Abstract
Introduction: Fetal alcohol syndrome (FAS) is associated with a positive maternal history of
drinking during pregnancy and the presence of characteristic dysmorphic features due to
alcohol teratogenic effect. No evidence is yet available regarding the use of growth hormone
(GH) for children with FAS for whom GH deficiency has not been confirmed.
Case Presentation: We have highlighted an improvement in auxological parameters of a child
with FAS and normal GH stimulation tests, using a GH dosage similar to that used in idiopathic
GH deficit, without side effects.
Conclusion: GH therapy in children with FAS may lead to an improvement in growth rate and
an increase in final height, although, this condition is not included in the specific
recommendations for use of GH. Prolonged follow-up and prospective studies are needed to
evaluate long-term efficacy and monitor any possible onset of side effects.
Keywords: growth hormone therapy, fetal alcohol syndrome, short stature, personalized medicine
Abbreviations: FAS: fetal alcohol syndrome; GH: growth hormone; SD: standard deviations; GHST: growth
hormone stimulation test; GHD: growth hormone deficiency
Introduction
Short stature is defined as height less than 2 standard deviations (SD) [1]. A child with auxological parameters referred
to as ‘short stature’ is routinely subjected to a growth hormone stimulation test (GHST) to distinguish between growth
hormone deficiency (GHD) and other causes of short stature [2].
Short stature is also one of the clinical features of various syndromic conditions, genetic or acquired, such as fetal
alcohol syndrome (FAS). This diagnosis is established by a positive maternal history of drinking alcohol during
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pregnancy and the presence of characteristic dysmorphic features due to the characteristic teratogenic effect of alcohol
[3].
FAS is characterized by neurobehavioral disabilities (deficient global intellectual ability and abnormal behaviors with
impaired achievement of adaptive skills) associated with typical facial and anthropometric anomalies (short palpebral
fissures 10th percentile or less for age, thin vermilion border of the upper lip, smooth philtrum, and progressive growth
retardation) [4].
Stopping maternal alcohol consumption during pregnancy is the most effective method of FAS prevention, while other
therapies (prenatal administration of food antioxidant supplements, folic acid, choline, neuroactive peptides,
neurotrophic growth factors) have limited efficacy and are poorly active for symptom control [3].
Despite the well-known relationship between FAS and short stature, no evidence is available regarding the use of
growth hormone (GH) in these particular types of children in the absence of a confirmed GHD, and results regarding
the efficacy of hormonal therapy in FAS are conflicting.
We report our experience with GH therapy in a 10-year-old patient with FAS being followed up at our center.
Case Report
Our patient is a boy adopted from Russia, born in 2010, who has lived in Italy since 2014, affected by FAS. He was
periodically evaluated at the Pediatric Endocrinology Day Hospital of the Fondazione Policlinico Universitario A.
Gemelli IRCCS to manage his condition, and, in particular, to assess growth velocity and his pubertal development.
No detailed information regarding pregnancy and birth was available, except for a history of alcohol abuse by this
patient’s biological mother. The baby was born small for gestational age (weight 1.780 kg; length 42 cm; head
circumference 30.1 cm) at T36 weeks of gestational age. He underwent full evaluation for the most common infectious
diseases transmitted from mother to child (human immunodeficiency virus, hepatitis B, hepatitis C, toxoplasmosis,
cytomegalovirus) and was found healthy.
The foster care environment selected by social services was found to be adequate. Child neuropsychiatric evaluations
performed during periodic follow-up visits showed cognitive development at the lower normal level, assessed
according to the Wechsler Intelligence Scale for Children (WISC).
In 2019, at 9 years, due to the detection of a slowdown in his growth rate (4 cm/year), the child was subjected to
various lab tests (full blood count, antibodies for coeliac disease, thyroid function, and IGF-1); the hand-wrist X-ray
showed a bone age comparable to patient’s chronological age, while brain magnetic resonance highlighted a
simplification of the cerebral hemispheres in the absence of frank anatomical alterations of the hypothalamic-pituitary
axis. The child also presented prepubertal characteristics, with gonadotropin and testosterone levels at the lower limits;
the testicular volume was less than 4 ml.
As usual in children with an impaired growth rate, GHST was performed (with arginine), to exclude the presence of
GHD, but resulted in normal (GH peak: 16.4 ng/ml). In June 2021, a reduced growth rate was confirmed (height -2.80
SD); in October 2021, another GHST was performed (with clonidine), giving another normal result (GH peak: 19.7
ng/ml).
During the endocrinological evaluation of June 2022, a low growth rate was confirmed with further loss of height SD
(from -2.96 to -3.40 SD). Based on the growth rate slowdown and progressive reduction of height SD, it was therefore
decided to start GH therapy, after obtaining a positive opinion from our regional commission as required by national
guidelines, despite the absence of a documented GHD [5]. The dosage of GH used was similar to that used in the case
of idiopathic GHD (0.028 mg/kg of body weight/day).
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At the subsequent follow-up visit (January 2023), a modest increase in growth rate was highlighted (Figure 1) with
significant improvement in height (132.1 cm) and height SD (from -3.40 to -3.16 SD). The child’s adoptive parents
reported an excellent adherence to GH therapy and no side effects were reported. Blood tests were normal and no
alterations in glycemia were found. His echocardiogram remained stable compared to previous controls.
In October 2023, a further increase in height was observed with an improvement in height SD (3.01 SD) with no side
effects. No significant progression of secondary sexual characteristics was documented; therefore, the improvement
in growth velocity and height was merely attributed to GH therapy. For this reason, the therapeutic indication was
renewed, and the GH dosage was adjusted to the child's weight without modifying the pro-kg dosage. The child is
currently being followed up in our center, and GH therapy is still ongoing.
Figure 1: Height growth chart of the patient described in this report.
Discussion
GH therapy in patients with FAS is not standardized, and GH prescription is subordinated to the result of GHST. In
this report, we have described our experience in a case of FAS receiving GH, despite normal GHST results on two
occasions.
Short stature and slow growth rate are characteristics of children with FAS [3]. Due to multifactorial etiologies, alcohol
is a well-established teratogen that can cause variable physical and behavioral effects on the fetus, and exposure to
alcohol during pregnancy could increase IGF-I and IGF-II, also decreasing leptin in early childhood [6]. Baseline GH
levels are decreased compared to children with normal height but are still within the normal range [7], and the response
to classic GHSTs is normal in most cases. A study conducted on 5 children diagnosed with FAS showed normal or
abnormal increased GH response (up to 150 ng/ml) [8], following classic GHSTs (arginine or hypoglycemia
stimulation) with impaired growth rate and height below normal limits; in fact, these pseudopathological GH levels
are not associated with a normal growth [9], and this may be explained by a partial peripheral resistance to GH similar
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to patients with Laron syndrome. Indeed, peripheral resistance to GH is one of the possible pathophysiological
mechanisms of other conditions with stunted growth, including idiopathic short stature [10]. It is possible to
hypothesize that increased GH levels might lead to receptor overstimulation, triggering the normal production of IGF-
1 and improving the anthropometric parameters of these patients.
Through this report, we have highlighted an improvement in our patient's auxological parameters using a GH dosage
similar to that used in GHD (0.028 mg/kg/day). The prepubertal status of our patient, associated with his stable
psychosocial condition and lack of previous infections, allowed us to hypothesize that the benefit of height gain should
be attributed mainly to GH therapy.
Our experience is limited to a single patient, and data reported to FAS in the medical literature are conflicting.
Therefore, a prolonged observation in a larger cohort of patients is necessary to evaluate both the efficacy and safety
profile of GH in FAS patients.
GH therapy in children with FAS may lead to an improvement in growth rate and an increase in final height, although,
this condition is not included in the specific recommendations for use of GH. Prolonged follow-up and prospective
studies are needed to evaluate long-term efficacy and monitor any possible onset of side effects.
Ethics Approval and Consent to Participate
The growth hormone therapy has been approved by the regional commission of the Lazio region, Italy, in accordance
with national guidelines.
Consent for Publication
The parents of the patient have consented to the publication of their child's information and have signed an informed
consent.
Conflicts of Interest
The authors declare that they have no disclosures in relationship with the subject of this report.
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3. Gupta KK, Gupta VK, Shirasaka T. An Update on Fetal Alcohol Syndrome-Pathogenesis, Risks, and
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7. Hellström A, Jansson C, Boguszewski M, et al. Growth hormone status in six children with fetal alcohol
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GH Resistance Is a Component of Idiopathic Short Stature: Implications for rhGH Therapy
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To study the effect of in-utero alcohol exposure on the insulin-like growth factor axis (IGF) and leptin during infancy and childhood, considering that exposed children may exhibit pre- and postnatal growth retardation. We prospectively identified heavily drinking pregnant women who consumed on average 4 or more drinks of ethanol per day (≥ 48 g/day) and assessed growth in 69 of their offspring and an unexposed control group of 83 children, measuring serum IGF-I (radioimmunoassay), IGF-II (immunoradiometric assay, IRMA), insulin-like growth factor-binding protein 3 (IGFBP-3) (IRMA) and leptin (IRMA) at 1 month and 1, 2, 3, 4, and 5 years of age. IGF-II levels increased with age in both groups, but the rate of increase was significantly higher in exposed children, and levels were significantly higher in ethanol-exposed children at 3, 4, and 5 years of age. In exposed children, IGF-I levels were higher at 3 and 4 years and leptin levels were significantly lower at 1 and 2 years. Exposed subjects showed a much lower correlation between IGF-I and growth parameters than unexposed subjects. Exposure to ethanol during pregnancy increases IGF-I and IGF-II and decreases leptin during early childhood. The increase in serum IGF-II concentrations in ethanol-exposed children suggests that this hormone should be explored as a potential marker for prenatal alcohol exposure.
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  • Oct 1976
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In the fetal alcohol syndrome (FAS) there is severe physical growth retardation both prenatally and postnatally. Secretion of growth hormone (GH) after insulin-induced hypoglycaemia and arginine infusion was analysed in 5 cases of FAS to find out whether changes in GH secretion might account for the abnormal growth pattern. Results showed a normal or slight hyper-response of GH up to 150 ng/ml, and normal somatomedin activity in those blood samples with high GH level. It was concluded that the growth retardation in FAS is not caused by GH or somatomedin deficiencies.
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Fetal alcohol syndrome (FAS) and fetal alcohol spectrum disorders (FASD) result from intrauterine exposure to alcohol and are the most common nonheritable causes of intellectual disability. The percentage of women who drink or binge drink during pregnancy has increased since 2012. FAS is commonly missed or misdiagnosed, preventing affected children from receiving needed services in a timely fashion. Diagnosis is based on the presence of the following clinical features, all of which must be present: prenatal and/or postnatal growth retardation, facial dysmorphology, central nervous system dysfunction, and neurobehavioral disabilities. FASD is a broader diagnosis that encompasses patients with FAS and others who are affected by prenatal alcohol exposure but do not meet the full criteria for FAS. Management is multidisciplinary and includes managing comorbid conditions, providing nutritional support, managing behavioral problems and educational difficulties, referring patients for habilitative therapies, and educating parents. The Centers for Disease Control and Prevention and other organizations recognize no safe amount of alcohol consumption during pregnancy and recommend complete abstinence from alcohol. All women should be screened for alcohol use during preconception counseling and prenatal care, and alcohol use should be addressed with brief interventions.
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  • Jul 2016
Alcohol is a well-established teratogen that can cause variable physical and behavioral effects on the fetus. The most severe condition in this spectrum of diseases is known as fetal alcohol syndrome (FAS). The differences in maternal and fetal enzymes, in terms of abundance and efficiency, in addition to reduced elimination, allow for alcohol to have a prolonged effect on the fetus. This can act as a teratogen through numerous methods including reactive oxygen species (generated as by products of CYP2E1), decreased endogenous antioxidant levels, mitochondrial damage, lipid peroxidation, disrupted neuronal cell-cell adhesion, placental vasoconstriction, and inhibition of cofactors required for fetal growth and development. More recently, alcohol has also been shown to have epigenetic effects. Increased fetal exposure to alcohol and sustained alcohol intake during any trimester of pregnancy is associated with an increased risk of FAS. Other risk factors include genetic influences, maternal characteristics, for example, lower socioeconomic statuses and smoking, and paternal chronic alcohol use. The treatment options for FAS have recently started to be explored although none are currently approved clinically. These include prenatal antioxidant administration food supplements, folic acid, choline, neuroactive peptides, and neurotrophic growth factors. Tackling the wider impacts of FAS, such as comorbidities, and the family system have been shown to improve the quality of life of FAS patients. This review aimed to focus on the pathogenesis, especially mechanisms of alcohol teratogenicity, and risks of developing FAS. Recent developments in potential management strategies, including prenatal interventions, are discussed.
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Growth retardation in fetal alcohol syndrome. Unresponsiveness to growth-promoting hormones
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  • Feb 1981
The relationships between growth retardation and metabolic and hormonal parameters were studied in 7 children with fetal alcohol syndrome (FAS). Fasting blood concentrations of TSH, T4, T3, FSH and LH were normal. Plasma prolactin concentrations after chlorpromazine stimulation were normal. 3 children had abnormal oral glucose tolerance tests with increased plasma insulin response. Peak plasma growth hormone responses to insulin-induced hypoglycemia were elevated in 5 patients. Fasting bioassayable serum somatomedin activity, determined in 6 patients, was elevated in 3 patients and normal in 3 patients. Administration of hGH to 3 patients with FAS had little effect upon nitrogen retention and did not increase plasma insulin concentrations, although serum somatomedin activity sharply increased in 1 patient evaluated for somatomedin response. The data indicate that the growth defect in FAS is not due to deficiency of growth-promoting hormones, but rather to peripheral unresponsiveness.
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  • Jan 1997
Prenatal alcohol exposure may cause fetal alcohol syndrome (FAS), which is associated with pre- and postnatal retardation. Spontaneous 24-h growth hormone (GH) secretion was measured in six prepubertal short children with FAS (two boys and four girls) aged 4-14 years. The response to a GH stimulation test, and levels of insulin-like growth factor-I (IGF-I) and IGF-binding protein-3 (IGFBP-3) were also measured. Comparisons were made between the children with FAS and healthy children of both normal and short stature, as well as children born small for gestational age (SGA). There were no differences in the mean area under the curve above the baseline or the maximum level of GH during a 24-h period (GHmax) between the children with FAS and the reference groups. However, the estimated rate of spontaneous 24-h GH secretion in children with FAS was similar to that of children born SGA, but lower than in children of normal stature (p = 0.02). The plasma concentrations of IGF-I and IGFBP-3 were in the lower parts of the normal range. We conclude that GH secretion in short children with FAS is similar to that in short children born SGA; that is, in the lower range of normal children.
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Consensus guidelines for the diagnosis and treatment of growth hormone (GH) deficiency in childhood and adolescence: summary statement of the GH Research Society. GH Research Society
  • Jan 2000
  • 3990-3993
Growth Hormone Research Society. Consensus guidelines for the diagnosis and treatment of growth hormone (GH) deficiency in childhood and adolescence: summary statement of the GH Research Society. GH Research Society. J Clin Endocrinol Metab. 2000;85(11):3990-993.