<i>Aim:</i> This study was designed to estimate the percentage of growth hormone (GH)-treated children born small for gestational age (SGA), with serum IGF-1 >2 SDS before and after GH dose adaptation. <i>Methods:</i> SGA boys aged 4–9 and girls aged 4–7 with a height <–2 SDS and an annual growth rate below the mean received a subcutaneous GH dose of 57 µg/kg/day for 2 years. The GH dose was to be decreased by 30% in children with serum IGF-1 >2 SDS at 12 months and on the previous sample. The GH dose could be reduced a second time to 35 µg/kg·day. IGF-1 and IGFBP-3 dosages were centralized. <i>Results:</i> Among the 49 (21 boys) children included in the study, 8 (16.3%) had an IGF-1 >2 SDS consecutively at 9 and 12 months (95% CI 7.3, 29.7). The GH dose was decreased in 6/8 children. However, IGF-1 levels were elevated at several nonconsecutive determinations in 45% (95% CI 28.4, 56.6) of the patients. <i>Conclusion:</i> A high IGF-1 level is observed in 45% of the GH SGA-treated children with a relatively high dose of GH. A 30% reduction in the GH dose causes a decrease in IGF-1 below 2 SDS in most children.
Objective Turner Syndrome is associated with several phenotypic conditions associated with a higher risk of subsequent comorbidity. We aimed to evaluate the prevalence of congenital malformations and the occurrence of age-related comorbid conditions and to determine whether the frequencies of congenital and acquired conditions depend on X chromosome gene dosage, as a function of karyotype subgroup. Design and methods This national retrospective observational cohort study includes 1501 patients. We evaluated the prevalence of congenital malformations and the cumulative incidence of subsequent specific comorbidities at five-year intervals, from the ages of 10 to 30 years, with stratification by karyotype subgroup: 45,X ( n = 549), 45,X/46,isoXq ( n = 280), 46,X,r(X)/46,XX ( n = 106), 45,X/46,XX ( n = 221), presence of Y ( n = 87). Results Median age was 9.4 (3.7–13.7) years at first evaluation and 16.8 (11.2–21.4) years at last evaluation. Congenital heart (18.9%) malformations were more frequent in 45,X patients, and congenital renal (17.2%) malformations were more frequent in 45,X, 45,X/46,isoXq and 46,X,r(X)/46,XX patients than in those with 45,X/46,XX mosaicism or a Y chromosome ( P < 0.0001). The cumulative incidence of subsequent acquired conditions, such as thyroid disease, hearing loss, overweight/obesity, dyslipidemia and, to a lesser extent, celiac disease, glucose intolerance/type 2 diabetes, hypertension and liver dysfunction increased with age, but less markedly for patients with mosaicism than for those with other karyotypes. Patients with a ring chromosome were more prone to metabolic disorders. Conclusion These data suggest that X gene chromosome dosage, particularly for Xp genes, contributes to the risk of developing comorbidities.
The first treatment trials on patients presenting with Turner syndrome were successful in accelerating growth velocity. It is therefore essential to know the final height of the patients who were treated in order to ascertain whether or not growth hormone treatment increases final height. We are reporting on a group of 117 patients with Turner syndrome whose growth hormone treatment was initiated in 1986. The mean growth hormone dose was 0.74 IU/ kg/week for an average period of 4 years. At the start of treatment, the patients' chronological age was 129/12 years, height -3.8 ± 1.0 standard deviation scores (SDS) and bone age 10.5 ± 2.1 years. Mean final height was 147.7 ± 5.6 cm, i.e. a gain of 1.5 SDS. We noted no significant difference due to the type of chromosomal abnormality, nor to oxandrolone or estrogen-associated treatment. A significant correlation was found between final height, mean parental height, the duration of the treatment, height SDS at the start of treatment and growth hormone peak during pharmacological stimulation tests. However, there was no correlation between growth hormone dosage, chronological age and bone age at the start of treatment. These results show that the growth hormone treatment improves the final heights of patients with Turner syndrome.
