The aim of the present study was to evaluate retrospectively the influence of various auxological and laboratory parameters on final height in a group of GH-deficient children after replacement therapy and to compare their final height with that of a group of short children with normal GH secretion and hence not treated.The final height was evaluated of 83 patients (51 males and 32 females) affected by idiopathic isolated GH deficiency and treated with recombinant human GH (hGH) for 2-7 years. Inclusion criteria at the start of treatment were short stature (mean height for chronological age in standard deviation score (SDS) ¹2.21) due to idiopathic isolated GH deficiency (GH peak <8 mg/l after two pharmacological tests and/or mean GH concentration <3.3 mg/l during the night) and treatment with recombinant hGH for at least 2 years at a dose of 15-20 U/m 2 per week by s.c. injection for 6 or 7 days/ week. Mean chronological age at diagnosis was 12.2 Ϯ 1.7 years; 35 were prepubertal and 48 pubertal. The final height of 51 untreated short stature (mean height for chronological age in SDS ¹2.13 at diagnosis) subjects (42 males and 9 females; 29 prepubertal and 22 pubertal at diagnosis with mean chronological age 11.6 Ϯ 2.4 years) with normal GH secretion was also evaluated.In the treated subjects final height SDS was higher than that of the untreated group (¹1.3 vs ¹1.7 SDS; P ¼ 0.01). Both treated and untreated subjects showed a final height lower than target height, but 39% of the treated subjects vs only 20% of the untreated group (P ¼ 0.035) had a final height greater than target height. In the treated subjects this percentage was higher in the patients improving their height for bone age in the first years of therapy. While treated females showed a positive correlation only between target and final height (P ¼ 0.0001), in treated males final height correlated with the Bayley-Pinneau prediction at diagnosis, height for chronological age and bone age at diagnosis and target height. Patients who started therapy before puberty also showed these correlations with data calculated at the onset of puberty, together with a correlation with chronological age at the onset of puberty.When considering the influence of GH response at tests on final height, the percentage of subjects exceeding target height increased progressively according to the severity of the GH deficiency. There was no difference in height gain between the patients starting therapy before or during puberty. The height gain, however modest, obtained by our treated patients, the number of patients with final height greater than target height and the favourable comparison with the untreated short-stature subjects represent a promising result, which could be improved by personalizing treatment. European Journal of Endocrinology 137 53-60
Several computed tomographic scan studies have described empty sellae in children with hypothalamic-pituitary disorders. Magnetic resonance imaging, however, is a more precise technique for visualizing the intrasellar content, such as the stalk and pituitary lobes. Using magnetic resonance imaging, we studied 339 children and adolescents (mean age +/- SD, 12.7 +/- 4.5 yr) with possible hypothalamic-pituitary disorders to ascertain the frequency of primary empty sella and examine its relationships with other intrasellar abnormalities, pituitary function, and adverse perinatal events. One hundred and ninety-three patients had isolated GH deficiency, 43 had multiple pituitary hormone deficiency, 10 had diabetes insipidus, 17 had hypogonadotropic hypogonadism, 5 had idiopathic delayed puberty, 47 had precocious puberty, and 24 had other hypothalamic pituitary disorders of hyperfunction. One tenth (10.9%) of the patients (37 cases) had empty sella, with a marked variation of incidences among the disorders listed above. A statistically higher frequency of subjects with empty sellae was found only in patients with multiple pituitary hormone deficiency. Patients with and without empty sellae were not different in regard to age or sex. The incidence of empty sella in the various groups of patients was as follows: isolated GH deficiency, 8.8% (17 cases); multiple pituitary hormone deficiency, 34.9% (15 cases); hypogonadotropic hypogonadism, 5.9% (1 case); idiopathic delayed puberty, 40% (2 cases); and precocious puberty, 4.2% (2 cases). No patients with isolated diabetes insipidus or other hypothalamic-pituitary disorders had empty sellae. In the patients with empty sellae, abnormalities of the stalk or posterior lobe were found in 1 patient with isolated GH deficiency (5.9%), 13 patients with multiple pituitary hormone deficiency (86.7%), and no patients with puberty disorders. Likewise, adverse perinatal events were found only in 1 patient with isolated GH deficiency and 9 patients with multiple pituitary hormone deficiency. These findings suggest that empty sella is not rare in children and adolescents evaluated for hypothalamic-pituitary disorders, particularly if there is multiple pituitary hormone deficiency. Empty sella can be found regardless of abnormalities of the stalk and posterior lobe, and adverse perinatal events do not seem to be the primary etiological factor. Empty sella is usually associated with pituitary hypofunction, but it can be found in patients with hyperfunction of the hypothalamic-pituitary-gonadal axis.
Survival of children with acute lymphoblastic leukaemia (ALL) has increased considerably in recent years and data on the spontaneous growth and final height of these children are conflicting. Therefore, we analysed the longitudinal growth and final height in 52 survivors (33 females, 19 males) of childhood ALL. These children were diagnosed and treated in a single institution, all remained in first remission and were submitted to cranial irradiation with either 2400 or 1800 cGy. None of the patients received testicular or spinal irradiation. Median age at diagnosis was 4.2 (range 1.3-9.6) years in the first group (2400 cGy) and 3.9 (0.8-10.5) years in the second (1800 cGy). Standing height was measured at diagnosis, at the end of treatment (median 3.1 years after diagnosis), 6, 12, 24 months after the end of treatment, and finally at the completion of growth. In girls a significant decrease of mean height standard deviation score (SDS) during treatment and a catch up in growth after the end of therapy was followed by a second period of reduced growth. Mean final height SDS was significantly lower than the value at diagnosis in both groups of girls, but only in males treated with 2400 cGy. Mean overall loss in height SDS from diagnosis to final height was higher in females (-1.24) than in males (-0.40) (P = 0.009). Females < or = 4 years of age at diagnosis showed a higher loss in final height than females > 4 years.(ABSTRACT TRUNCATED AT 250 WORDS)
To identify possible differences between empty sella in children and adults we studied 43 subjects (age 13.6 +/- 5.4 years, range 4.1-27 years) with hypothalamic-pituitary disorders and empty sella at magnetic resonance imaging. Pituitary function, presence of non-endocrine symptoms, perinatal history, sellar volume, pituitary height, midline or intrasellar anatomical abnormalities were evaluated. Twenty subjects had isolated growth hormone deficiency, 17 multiple pituitary hormone deficiency and 6 puberty disorders (3 precocious puberty, 2 idiopathic delayed puberty, 1 Kallmann syndrome). The group with multiple pituitary hormone deficiency had a higher percentage of subjects with complete empty sella, i.e. pituitary height < 2 mm (p = 0.016), or intrasellar anatomical abnormalities (p = 0.0002) than the other groups. The subjects with puberty disorders had a mean sellar volume higher than the other groups (p < 0.05). Apart from pituitary dysfunction, symptoms of the empty sella syndrome were infrequent (9.3% of cases) in our subjects. The age of our subjects, the frequent association between empty sella and pituitary dwarfism and the non-enlarged sellae suggest a different aetiology, perhaps congenital, for empty sella in our subjects. As in adults, empty sella may be associated with both pituitary hypo- and hyperfunction.
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