Growth in disorders of adrenal hyperfunction

Growth is disturbed by adrenal hypersecretion of androgens or cortisol. Androgen excess in virilizing adrenal tumours causes advanced growth and bone age. In 9 girls with virilizing tumours, mean heights at diagnosis and final heights were 1.23 +/- 0.42 and 1.3 +/- 0.37 SDS respectively. In poorly controlled CAH, excess androgens cause early epiphyseal fusion and adult short stature. Increased growth occurs only after 18 months of age, even in untreated CAH, i.e. hydrocortisone >10 mg/m(2)/day is not generally required and may suppress infantile growth, affecting childhood and adult height. Growth was studied in 19 patients, aged 6.4-17.8 years, with Cushing's disease (CD). At diagnosis, mean height SDS was -1.81 (1.2 to -4.17), 53% < -1.8 SDS, height velocity in 6 was 0.9-3.8 cm/year and mean BMI SDS 2.29 (0.7-5.06). From 1983 to 2001, CD was cured in 18 patients (61%) by transsphenoidal surgery (TSS) alone and 39% by TSS plus pituitary irradiation (RT). In 13 patients, growth hormone (GH) was assessed by ITT/glucagons at 1-108 months after cure. Four had severe GH deficiency (<9 mU/l), 7 subnormal (10-29 mU/l) and 2 normal (>30 mU/l) GH status. Subnormal GH was present in 7 subjects >2 years after TSS or RT cure. In 10 subjects, aged 12.9 +/- 3.4 years, growth after cure was studied for 9.1 +/- 5.0 years. Nine had no catch-up growth in the interval of 0.3-1.1 years after cure (mean HV 5.3 +/- 2.4 cm/year). All these had GH deficiency peak GH 0.5-20.9 mU/l, and received hGH 2.7 mg/m(2)/week, 3 with GnRHa. All 10 showed long-term catch-up growth with mean delta SDS at diagnosis (Ht SDS-target Ht SDS) -1.72 +/- 1.26 improving to -0.83 +/- 1.08 (p = 0.0005) at latest of final Ht. At diagnosis, virilization was present in 82% of 17 patients with CD. Mean SDS values of serum androstenedione, DHEA-S and testosterone were normal, i.e. 0.72 (-2.9 to 3.0), -0.8 (6.0 to 2.2), 0.7 (-7.9 to 9.5) respectively, whereas SHBG was reduced at -2.1 (-5.3 to 1.2), increasing free androgen levels. Bone age (BA) was delayed (mean 1.46 years) in 14/16 patients, suggesting cortisol excess contributed more then androgen effect to skeletal maturation. In conclusion, most paediatric patients with CD had subnormal linear growth with delayed BA. After cure by TSS or pituitary irradiation, GH deficiency was frequent and persisted for many years. Treatment with hGH induced significant long-term catch-up growth leading to reasonable final height.     

Final height after growth hormone therapy in peripubertal boys with a subnormal integrated concentration of growth hormone.

The aim of this study was to test the effect of growth hormone (GH) therapy on final height in peripubertal boys with idiopathic short stature in whom a subnormal integrated concentration of GH (< 3.2 micrograms/l) was found. Twenty-eight peripubertal children were studied. Height was below 2 SD for age, growth velocity was < 4.5 cm/year, bone age was more than 2 SD below mean for age and GH response to provocative tests was more than 10 micrograms/l. Eleven subjects (group B) were treated with recombinant GH 0.75 unit/kg/week, divided into 3 weekly doses for 2 years, and then the same weekly dose divided into daily injections was administered until final height was attained. Seventeen untreated children (group A) who were followed until cessation of growth served as controls. The GH-treated patients reached their target heights (-2.1 +/- 0.5, mean +/- SD in SDS) and predicted heights (-1.8 +/- 0.8) determined by the Bayley and Pinneau method, while the final heights of the untreated patients were significantly lower than their target heights and their predicted final heights (-2.7 +/- 0.7, -1.8 +/- 1.0 and -2.7 +/- 0.7, respectively). The main effect of GH was observed during the 1st year of treatment when height velocity was significantly higher in the GH-treated group than in the untreated one (9.3 +/- 2.1 vs. 5.3 +/- 1.1, respectively, p < 0.001). The high cost of the treatment in this specific age group should be weighed against the results.     

Final height in children with medulloblastoma treated with growth hormone

BACKGROUND: Medulloblastoma is the most frequent primary solid central nervous system tumour in children. The 5-year survival rate is at present at about 60%. Height in general is severely compromised in survivors. The present study is an extension of the investigation by the author's group of the effect of exogenous growth hormone (GH) among medulloblastoma patients. METHODS: A total of 113 patients with medulloblastoma (out of 682 cases documented in KIGS, Pfizer International Growth Database) were treated with GH till final height was achieved. At the start of GH therapy (median dose 0.18 mg/kg/week), patients were 8.9 years old and had a median height SDS of -1.6. RESULTS: After 6.8 years of GH, final height SDS was -1.9, reflecting an overall loss in height of 0.3 SDS. This contrasted with an age-matched group of patients with idiopathic growth hormone deficiency (iGHD, n = 1,986), whose gain in height was 1.6 SDS on the same dose. The index of responsiveness averaged -0.9 during the first prepubertal year and -2.0 during total pubertal growth, thus indicating a major impairment in responsiveness to GH as compared to iGHD. Height at GH start, which correlated positively with the age at disease onset, was found to be the major determinant of final height. CONCLUSIONS: Our findings show that attempts to improve the height outcome in medulloblastoma must involve earlier recognition and treatment with higher-than-replacement doses of GH; additionally, modifications in cancer treatment programs need to be considered, such as lowering the dose of craniospinal irradiation or avoiding it as far as possible.     

Final height in children with idiopathic growth hormone deficiency treated with a fixed dose of recombinant growth hormone

There is no consensus regarding the optimal dosing of recombinant human growth hormone (rhGH) for children with growth hormone deficiency (GHD). Our objective was to evaluate the final adult height (FAH) in children with idiopathic GHD treated with a fixed rhGH dose of 0.18 mg/kg/week. We reviewed all charts of patients with idiopathic GHD treated with rhGH since 1985 who reached FAH. Ninety-six patients were treated for an average of 5.4 years. The mean age was 11.9 years, the mean height -2.87 standard deviation score (SDS) and the mean FAH was -1.04 SDS. Females had a lower predicted adult height than males at the initiation of therapy (-2.0 vs. -1.01 SDS; p = 0.0087) but a higher FAH - predicted adult height (1.08 vs. 0.04 SDS; p = 0.0026). In multiple regression analysis, the FAH SDS was positively related to the midparental height SDS, the height SDS at GH initiation and growth velocity during the first year of therapy, and negatively correlated with peak GH and bone age at initiation (r(2) = 0.51; p < 0.005). Treatment of children with idiopathic GHD with a fixed dose of 0.18 mg/kg/week rhGH is sufficient to reach FAH within 2 SDS of the normal population range (84%) with an average FAH within -0.5 SDS of midparental height.     

Volumetric bone mineral density in young women with Turner's syndrome treated with estrogens or estrogens plus growth hormone

To explore the effects of estrogen replacement therapy (ERT) and recombinant growth hormone (GH) treatment on bone mineral density (BMD) in Turner's syndrome, we assessed volumetric BMD (vBMD), which is less dependent on body and bone sizes, in these patients at final height. The areal BMD (aBMD) was measured in 26 young women with Turner's syndrome (age range 17.5-25.0 years) by dual-energy X-ray absorptiometry, and vBMD was calculated. Patients were subdivided as group 1 (n = 12; ERT alone) and group 2 (n = 14; GH + ERT). Years of estrogen exposure were not different between the groups (group 1: 6. 4 +/- 1.5 years; group 2: 5.3 +/- 1.7 years); in group 2, GH therapy was 5.3 +/- 1.4 years. Final heights were significantly higher in group 2 than in group 1 (148.1 +/- 3.0 vs. 142.0 +/- 2.8 cm; p < 0. 0001) as well as aBMD (1.073 +/- 0.118 vs. 0.968 +/- 0.122 g/cm(2); p < 0.04). vBMD was higher in group 2 but not significantly different from group 1 (0.374 +/- 0.030 vs. 0.358 +/- 0.027 g/cm(3); p = 0.169). aBMD was reduced with respect to the normative values in both groups (group 1: -1.97 +/- 1.04 SDS, p < 0.0001 vs. 0; group 2: -0.93 +/- 1.01 SDS, p < 0.005 vs. 0), whereas vBMD was not (group 1: -0.07 +/- 0.79 SDS; group 2: 0.42 +/- 0.82 SDS). Our data suggest that: in Turner's syndrome GH administration improves final height and aBMD, but it does not significantly increase vBMD; aBMD reduction in Turner's syndrome is likely due to the impaired growth and reduced bone size; Turner's patients on ERT from adolescence show vBMD values in the normal range in young adulthood.     

Identification of dendritic cells in the blood and synovial fluid of children with Juvenile Idiopathic Arthritis

Childhood chronic arthritis of unknown etiology is known collectively as juvenile idiopathic arthritis (JIA) and consists of heterogeneous subtypes with unique clinical patterns of disease. JIA is the commonest rheumatic disease in children and may still result in significant disability, with joint deformity, growth impairment, and persistence of active arthritis into adulthood. Basic research is rather focused on rheumatoid arthritis, and this lead to small number of publications considering JIA. In this study we examine, by flow cytometry, the expression of dendritic cells (DCs) in the peripheral blood and synovial fluid of children with active JIA in a group of 220 patients. We reveal a significant decrease in the percentage of immature DCs in the blood of patients compared to control children. Surprisingly, we found higher percentages of mature circulating dendritic cells. Both populations of DCs, immature and mature, were accumulated in patients' synovial fluid. We also confirmed the presence of CD206+/CD209+ in JIA samples, which can represent a population of macrophages with dendritic cells morphology. Our results support the thesis that dendritic cells are crucial in the induction and maintenance of autoimmune response and local inflammation during juvenile idiopathic arthritis.     

Long-term evolution of endocrine disorders and effect of GH therapy in 35 patients with pituitary stalk interruption syndrome

We report long-term evolution of endocrine functions and the results of GH treatment in 35 patients (26 male and 9 female) with pituitary stalk interruption. At diagnosis, mean chronological age was 4.8 +/- 2.7 years, mean SDS for height -3.1 +/- 0.8 with a bone age retardation of 2.3 +/- 1.3 years and a mean SDS for growth velocity of -0.5 +/- 1.1; 80% presented complete GH deficiency (GHD) and 20% partial GHD; thyroid deficiency was present in 47.1% of children with complete GHD but absent in all partial GHD. Diagnosis was made during the first months of life in only 2 patients while 23% presented with severe neonatal distress; neonatal signs were only observed in the group with pituitary height below 2 mm (45.7% of patients). GHD was isolated in 40.6% of patients below 10 years while multiple hormone deficiencies was consistent at completion of growth in all patients. Height gain was significantly higher in patients who started GH treatment before 4 years (p = 0.002). GH treatment is very effective: in 13 patients, final height was -0.4 +/- 1.0, total height gain 3.2 +/- 1.2 and distance to target height -0.3 +/- 1.6 SDS.     

Auxological and endocrine evolution of 28 children with Prader-Willi syndrome: effect of GH therapy in 14 children

We report on the auxological and endocrine evolution of 28 patients presenting with Prader-Willi syndrome. Half of them received growth hormone (GH) therapy (group 2). The spontaneous auxological evolution was analyzed in the two groups from 2 to 8 years; the mean SDS for height remained stable (-0.6 +/- 0.6) in group 1 and decreased (from -2.0 +/- 0.9 to -2.7 +/- 0.6) in group 2. Magnetic resonance imaging showed marked pituitary hypoplasia in the two groups. In group 2, the mean GH peak after two provocative tests was 3.8 +/- 2.4 microg/l, the mean SDS values for insulin-like growth factor I levels were -2.0 +/- 1.5 (range from -0.5 to -5.0). The mean duration of GH treatment was 3.6 +/- 2.9 (range 1-9.3) years. 14 children completed 1 year of treatment. The two groups had opposite evolutions in Delta SDS for height (-0.8 +/- 0.8 vs. +1.1 +/- 0.8), for growth velocity (-1.9 +/- 2.2 vs. +2.9 +/- 2.7), and for Z score of the body mass index (+0.37 +/- 1.3 vs. -0.14 +/- 0.76; group 1 vs. group 2). This retrospective study shows that, in children with Prader-Willi syndrome and true GH deficiency, long-term GH therapy is effective in increasing growth velocity and in maintaining body mass index.     

Final height in patients with idiopathic short stature and high growth hormone responses to stimulation tests

Children with idiopathic short stature (ISS) may have normal or increased growth hormone (GH) responses to provocation tests and achieve a final height (FH) below -2.0 standard deviation score (SDS) if untreated. FH of subjects with high stimulated GH levels has not been studied in detail. AIM: It was the aim of this study to analyse FH in ISS patients with high GH peak responses to the provocation test. PATIENTS AND METHODS: We studied 16 patients (9 pre-pubertal) with ISS and a GH peak >or=40 mU/l to insulin-induced hypoglycaemia. The patients were recalled at age 19.7 +/- 2.5 years for measurement of FH when blood samples were obtained for serum insulin-like growth factor (IGF)-I, IGF binding protein 3, acid-labile subunit and GH binding protein measurements. GH bioactivity was determined using the Nb2 bioassay. RESULTS: FH was -3.1 +/- 1.0 SDS, being significantly lower than target height (TH). At FH, IGF-I levels were within -1.5 and +1.5 SDS for age and sex in 10 patients and higher than +1.5 SDS in 6 patients. IGF binding protein 3, acid-labile subunit, GH binding protein levels and GH bioactivity values were normal. SUMMARY: These data suggest that patients with ISS and high GH levels during a GH stimulation test may have a more compromised FH. The association of severe ISS with a peak GH >40 mU/l might suggest a degree of insensitivity for the GH-IGF-I axis.     

Turner syndrome, insulin sensitivity and growth hormone treatment

Mild insulin resistance appears to be an early metabolic defect in girls with Turner syndrome (TS). Impaired glucose tolerance has been reported in 10-34% of patients with TS, and type 2 diabetes mellitus is 2-4 times more common and occurs at a younger age in girls with TS than in the general population. In a mixed longitudinal and cross-sectional study, we analysed carbohydrate tolerance and insulin sensitivity in 46 children and adolescents with TS who reached their final height after long-term treatment (mean 6.3 +/- 2.5 years) with growth hormone (GH: 0.33 mg/kg/week [0.05 mg/kg/day]), and in 36 of these patients who were followed-up after the cessation of GH therapy (mean follow-up, 2.6 +/- 2.5 years; range, 1-9.5 years). Patients with TS were compared with an age-matched female control group. Insulin sensitivity appeared to be lower in patients with TS than in controls, even before the start of GH therapy. As in controls, insulin sensitivity decreased with age in patients with TS, and levels were lower in those aged >12 years than in those aged <12 years. GH therapy resulted in good catch-up growth in patients with TS, with final height significantly higher than projected height evaluated before the initiation of GH therapy. Insulin sensitivity increased after 7-8 years of therapy and, on the cessation of GH therapy, returned to pre-treatment levels. The increase in insulin sensitivity seen on the cessation of GH therapy appeared to be influenced negatively by body mass index and triglyceride levels, and correlated positively with the number of years since cessation of GH therapy. As in the general population, excess weight and an abnormal lipid profile, in particular excess triglyceride levels, worsened insulin sensitivity. In conclusion, our study confirms that GH therapy reduces insulin sensitivity, but at its cessation there is a return to pre-therapy values. We therefore report a progressive improvement in carbohydrate tolerance and insulin function in patients with TS, despite an increase in age.     

Extreme short stature after intrauterine growth retardation: factors associated with lack of catch-up growth

The factors associated with lack of catch-up growth after intrauterine growth retardation (IUGR) are unknown. OBJECTIVE: To identify these factors by analyzing the clinical features and growth hormone (GH)-insulin-like growth factor I (IGF-I) axis. METHODS: 95 patients with height <-3 SD after IUGR were assigned to group 1 without (n = 50) or group 2 with (n = 45) malformations. Twenty-one in group 1 and 19 in group 2 were treated with GH. RESULTS: They were seen at 5.3 +/- 0.5 and 4 +/- 0.5 year (p = 0.02) with heights at -3.4 +/- 0.1 and -3.9 +/- 0.2 SD (p = 0.03). Group 1 differed from group 2 in having a lower frequency of consanguinity (2 vs. 28.9%, p < 0.001), and higher frequencies of target heights (26.5 vs. 6.7%, p = 0.02) and mothers' heights (34.7 vs. 8.9%, p < 0.01) <-2 SD, multiparity (26 vs. 8.9%, p < 0.05), prematurity (36 vs. 15.5%, p < 0.05) and cesarean section birth (42 vs. 17.8%, p = 0.01). The GH-IGF-I axis data and the height increases after 3 years of GH treatment (1.6 +/- 0.2 in group 1 and 1.1 +/- 0.3 SD in group 2) were similar. CONCLUSION: The short height of the parents, particularly of the mother, is associated with factors limiting the catch-up growth after IUGR of children without malformations, while the high frequency of consanguinity in those with malformations suggests that transmitted fetal factors affect organogenesis or development.     

Final height in children with idiopathic growth hormone deficiency treated with recombinant human growth hormone: the Belgian experience

BACKGROUND: The growth response to recombinant hGH (rhGH) treatment and final height of 61 Belgian children (32 boys) with idiopathic growth hormone deficiency (GHD) were studied. PATIENTS/METHODS: Two patient groups were compared: Group 1 with spontaneous puberty (n = 49), Group 2 with induced puberty (n = 12). The patients were treated with daily subcutaneous injections of rhGH in a dose of 0.5-0.7 IU/kg/week (0.17-0.23 mg/kg/week) from the mean +/- SD age of 11.9 +/- 3.1 years during 5.1 +/- 2.1 years. RESULTS: rhGH treatment induced a doubling of the height velocity during the first year and resulted in a normalisation of height in 53 (87%) patients. Final height was -0.7 +/- 1.1 SDS, being 170.4 +/- 7.2 cm in boys and 158.0 +/- 6.4 cm in girls. Corrected for mid-parental height, final height was 0.0 +/- 1.1 SDS. Ninety-two percent of the patients attained an adult height within the genetically determined target height range. Although height gain during puberty was smaller in the patients with induced puberty (boys: 17.1 +/- 7.0 cm vs. 27.5 +/- 6.6 cm (p < 0.005); girls: 9.6 +/- 7.4 cm vs. 22.2 +/- 6.1 cm (p < 0.005)), no differences in final height after adjustment for mid-parental height were found between patients with spontaneous or induced puberty. CONCLUSIONS: We conclude that patients with idiopathic GHD treated with rhGH administered as daily subcutaneous injections in a dose of 0.5-0.7 IU/kg/week reach their genetic growth potential, resulting in a normalisation of height in the majority of them, irrespective of spontaneous or induced puberty.     

Adult height in patients treated for isolated growth hormone deficiency: role of birth weight

To evaluate the effect of growth hormone (GH) administration on adult height (AH) in two groups of isolated GH-deficient (IGHD) children born either small (birth weight below -2 SD) or appropriate (birth weight above -2 SD) for gestational age (GA). Out of 35 prepubertal IGHD children, 14 small for GA (SGA, group A) and 21 appropriate for GA (AGA, group B) were examined. All patients received continuous GH treatment at a median dose of 0.028 mg/kg/day (range 0.023-0.032) in group A and 0.024 (range 0.023-0.028) in group B. GH treatment was administered for a period of 67.0 months (range 42.37-96.05) in group A and 54.31 months (range 47.14-69.31) in group B. All children were measured using a Harpenden stadiometer every 6 months until they reached AH (growth velocity <1 cm/year). The patients underwent a retesting a few months after stopping GH therapy. A significant difference was found between group A and B as expected for birth weight SD, -2.70 (range -2.87 to -2.29) and -0.73 (range -1.30 to 0.14) respectively (p < 0.000001) and interestingly also for body mass index SDS (BMI SDS) at retesting, 0.08 (range 0.30 to -1.51) and 0.61 (range 0.73 to -1.10) respectively (p < 0.04). We observed no significant differences between groups A and B in height (expressed as the SDS for chronological age, height SDS) at diagnosis (p = 0.75), height SDS at start of puberty (p = 0.51), height SDS at retesting (p = 0.50), target height SDS (TH SDS) (p = 0.47), AH SDS (p = 0.92), corrected height SDS (height SDS - TH SDS) (p = 0.60), BMI SDS at diagnosis (p = 0.25), GH dosage (p = 0.34) and therapy duration (p = 0.52). GH treatment with a standard dose in short IGHD children leads to a normalization of AH without any significant difference between SGA and AGA patients.     

Final height of growth hormone-treated GH-deficient children and girls with Turner's syndrome: the Dutch experience. The Dutch Advisory Group on Growth Hormone

In the Dutch growth hormone (GH) registration database there are currently 552 GH-deficient children being treated, subcutaneously, with recombinant human GH six to seven times per week. Of those, 112 who have been treated for at least 2 years have reached final height. Mean age at start of therapy was 11.70 years. Mean GH dose was 15.5 IU/m(2) body surface per week. Mean final height was 173.2 cm (boys) and 159.7 cm (girls) and -1.36 SD of the population mean. Of the patients, 73.2% and 63.4%, respectively, reached a final height above -2 SD of the population or within target limits. FH-SDS was higher compared with the results of earlier cohorts with different treatment regimens. Target height, GH peak value at diagnosis, age at start of GH therapy, height SDS (HSDS) at start of puberty, and duration of GH therapy were significantly correlated with final height. These results, combined with those of a prospective GH dose-response study, suggest that better long-term results can be obtained with early and prolonged treatment and if the GH dose is individually adapted to the short-term growth response. In an ongoing dose-response study, 68 girls with Turner's syndrome, aged 2-11 years, were randomized into three dosage groups with a daily GH dose of: (group A) 4 IU/m(2) body surface; (group B) 4 IU/m(2) in the first year of therapy and 6 IU/m(2) thereafter; (group C) 4 IU/m(2) in the first year, 6 IU/m(2) in the second year, and 8 IU/m(2) thereafter. After 4 years of GH therapy, girls aged 12 years or older started low-dose oestrogen therapy. After 7 years of GH therapy, mean HSDS in all three groups had increased to values above the third percentile for healthy girls. Mean final height and final height gain of 25 girls was 159.1 and 12.5 cm, 161.8 and 14.6 cm, and 162.7 and 16.0 cm in groups A, B and C respectively. These long-term and final height results are more favourable than the results of earlier Dutch Turner's syndrome studies. Possible explanations are the higher GH doses and/or the younger age at start of GH therapy.     

Bone age progression during the first year of growth hormone therapy in pre-pubertal children with idiopathic growth hormone deficiency, Turner syndrome or idiopathic short stature, and in short children born small for gestational age: analysis of data from KIGS (Pfizer International Growth Database)

BACKGROUND/AIMS: The beneficial effects of growth hormone (GH) therapy on statural growth in children are well established, but the effects on skeletal maturation are less clear. The progression of bone age (BA) was therefore studied during the first year of GH treatment in pre-pubertal children with idiopathic GH deficiency (GHD), Turner syndrome (TS) or idiopathic short stature (ISS), and in short pre-pubertal children born small for gestational age (SGA). METHODS: Cross-sectional data on 2,209 short children with idiopathic GHD, 694 with TS, 569 with ISS and 153 with SGA were analysed. Longitudinal data were also analysed from 308 children with idiopathic GHD, 99 with TS, 57 with ISS and 29 with SGA. All patients included in the study were enrolled in KIGS (Pfizer International Growth Database) and were being treated with recombinant human GH (Genotropin). BA was assessed using the Greulich and Pyle method at baseline and after 1 year of GH therapy. RESULTS: In all groups of patients the mean progression of BA was 1 year during the year of GH therapy, although there was considerable individual variation. Progression of BA was not correlated with chronological age, BA, height SD score (SDS) or body mass index SDS at the onset of GH therapy. There was also no consistent effect of the GH dose on BA progression. CONCLUSION: Progression of BA appears to be normal in patients receiving GH in these diagnostic groups, at least over the first year of treatment in pre-puberty.     

Changes of thyroid function during long-term hGH therapy in GHD children. A possible relationship with catch-up growth?

BACKGROUND: Growth hormone (GH) treatment in patients with GH deficiency (GHD) can determine changes in the thyroid function. The clinical significance of these changes remains controversial, and all studies have so far covered rather a short period--usually no longer than one year. OBJECTIVE: To determine the effect of long-term recombinant hGH treatment in children with idiopathic GHD on the thyroid function. PATIENTS AND METHODS: Nineteen prepubertal children (12 boys and 7 girls, mean age 9.2 +/- 3.1 years) with idiopathic GHD were studied and followed for twenty-four months. None of the patients showed multiple pituitary hormone deficiencies. Nineteen healthy children matched for age and sex acted as controls. RESULTS: Patients with GHD showed a significant increase in TT (3) at twelve months and in FT (3) at six and twelve months after starting GH treatment, with a significant decrease at eighteen and twenty-four months. TT (4) level decreased significantly at twelve months and increased significantly at eighteen and twenty-four months. FT (4) also decreased, but only slightly, after twelve months of hGH treatment, and then increased significantly at twenty-four months. TSH levels did not vary significantly during the course of therapy. TT (3)/TT (4) and FT (3)/FT (4) ratios increased significantly after six and twelve months of therapy and significantly decreased later, approaching pre-therapy values. The SDS of Growth Velocity (SDS-GV) increased remarkably during the first year of therapy and then decreased significantly during the second year, although it remained significantly higher than the pre-therapy values. TT (3) and TT (3)/TT (4) ratio displayed a significant correlation with SDS-GV at twelve months of therapy. In a multiple regression analysis with age, bone age, parental height, GH dose, TT (3,) TT (3)/TT (4), and the SDS of IGF-I, only the TT (3)/TT (4) ratio at twelve months of therapy (p < 0.001) was identified as a significant predictor of SDS-GV. CONCLUSION: Our data confirm that changes in thyroid function are present in GHD children during long-term hGH therapy. These changes probably resulted from the effect of hGH on the peripheral metabolism of thyroid hormones and appear to be transitory, disappearing during the second year of hGH treatment. We speculate on the functional significance of these changes, and in particular, on their role in catch-up growth after hGH therapy.     

Quality of life in adolescents born small for gestational age: does growth hormone make a difference?

BACKGROUND/AIMS: To evaluate quality of life (QoL) in adolescents born SGA without spontaneous catch-up growth, treated with and without long-term growth hormone (GH) therapy. Additionally, to assess whether GH treatment has a positive effect on QoL, besides improving adult height and height SDS during childhood. METHODS: Two groups of adolescents born SGA without spontaneous catch-up growth participated in the QoL evaluation; a GH-treated group (n = 44, mean GH duration: 8.8 (1.7) years) and an untreated group (n = 28), both mean age 15.8 (2.1) years. QoL was measured by self-reports of the TACQOL-S, a disorder-specific questionnaire, and the CHQ, a generic questionnaire. RESULTS: The GH group scored significantly better health status and health-related QoL on several scales of the TACQOL-S. On all TACQOL-S scales the GH group scored better QoL than the untreated group, with effect sizes of moderate to large, not all differences reaching statistical significance. The generic CHQ did not reveal significant differences in QoL between the GH group and the untreated group. CONCLUSIONS: Firstly, adolescents born SGA, with a GH-induced improved height, had in many aspects a better QoL than untreated adolescents born SGA, according to the disorder-specific questionnaire. Secondly, we advise to use, in addition to a generic questionnaire, a disorder-specific questionnaire for measuring QoL in children treated for short stature, as the generic CHQ did not reveal such differences.     

Depression,smoking, physical inactivity and season independently associated with midnight salivary cortisol in type 1 diabetes

Background

Trisomy 9p is an uncommon anomaly characterised by mental retardation, head and facial abnormalities, congenital heart defects, kidney abnormalities, and skeletal malformations. Affected children may also show growth and puberty retardation with delayed bone age. Auxological and endocrinological data are lacking for this syndrome.

Methods

We describe three girls and one boy with 9p trisomy showing substantial growth failure, and we evaluate the main causes of their short stature.

Results

The target height was normal in all families, ranging from 0.1 and -1.2 standard deviation scores (SDS). The patients had a low birth-weight (from -1.2 to -2.4 SDS), birth length (from -1.1 to -3.2 SDS), and head circumference (from -0.5 to -1.6 SDS). All patients presented with substantial growth (height) retardation at the time of 9p trisomy diagnosis (from -3.0 to -3.8 SDS). The growth hormone stimulation test revealed a classic growth hormone (GH) deficiency (GHD) in patients 1, 3, and 4. In contrast, patient 2 was determined to have a GH neurosecretory dysfunction (GHNSD). The plasma concentrations of IGF-I and IGFBP-3 were low in all patients for their ages and sexes (from -2.0 to -3.4 SDS, and from -1.9 to -2.8 SDS, respectively). The auxological follow-up showed that those patients who underwent rhGH treatment exhibited a very good response to the GH therapy, whereas patients 3 and 4, whose families chose not to use rhGH treatment, did not experience any significant catch-up growth.

Conclusions

GH deficiency appears to be a possible feature of patients with 9p trisomy syndrome. These patients, particularly those with growth delays, should be evaluated for GH secretion.     

Long-Term GH therapy: epidemiology and auxologic outcome

OBJECTIVES: Epidemiologic and auxologic characteristics of patients treated with GH during childhood and adolescence and entered in a national registry in Catalonia were studied between 1988 and 1997. At the end of 1997, prevalence was 53.2 treatments/100,000 inhabitants aged 0-14 years. Maximum annual incidence rates were observed in 1990 and 1991 (34.0-35.6 cases/100,000 inhabitants aged 0-14 years). STUDY DESIGN: Analysis of treatments terminated in 1993 (n = 548) revealed, for the three principal reasons for cessation of treatment ('near-final height', 'adequate height but further growth potential', and 'poor growth response'), that males began and ended treatment at older ages with a better auxologic situation in SDS than girls at the beginning and end of therapy in the first two subgroups, with a similar duration of therapy. Severe GH deficiency (GHD) [both multiple pituitary hormone deficiency (MPHD) and the most severe isolated GHD (IGHD-A)] was more frequent in the group ending treatment at 'near-final height', whereas cessation of therapy because of 'poor growth response' was more frequent in the group with 'other causes of short stature' and no demonstrable GHD by routine tests. In the near-final height group, after excluding Turner's syndrome, MPHD and GHD cases secondary to brain tumors and GH deficiencies associated with malformative syndromes, positive linear correlations were observed between HSDS at the end of treatment and HSDS at the beginning, predicted adult height SDS (PAHSDS) and target height SDS (THSDS). Multiple regression analysis showed that in this group of patients, 41.4% of the variability in HSDS increment can be explained by the equation: HSDS increment = -0.33 + 0.29 THSDS - 0.68 HSDS at the beginning of treatment. RESULTS: The outcome showed a reasonable use of GH, since good-response cases generally continued treatment until final height whereas therapy was suspended in doubtful cases.     

Long-term results with growth hormone therapy in idiopathic hypopituitarism

More than 30 years after its introduction, growth hormone (GH) treatment is well established in children with GH deficiency. Nevertheless, the long-term results of this therapy, expressed as height, are generally considered unsatisfactory. We report on results obtained in a group of GH-deficient children who were treated with daily injections of recombinant GH within the first 5 years of life and who reached an adult height very close to their target height. The full catch-up growth to the target height demonstrated in these patients suggests that replacement therapy should be started early and continued until adulthood. Height at onset of puberty is an important variable which might significantly influence the adult height. The significant and prolonged influence of birth weight on growth response to GH therapy underlines the important role of fetal growth in planning early treatment of GH-deficient children.