P Rochiccioli scite author profile

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 µg/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 ΔSDS 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.

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Improvement in Adult Height after Growth Hormone Treatment in Adolescents with Short Stature Born Small for Gestational Age: Results of a Randomized Controlled Study

Carel

Chatelain

Rochiccioli

et al. 2003

The Journal of Clinical Endocrinology & Metabolism

119

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The efficacy of GH for increasing adult height (AH) in short adolescents born small for gestational age (SGA) is unclear, due to the lack of long-term controlled trials. A total of 168 short children born SGA (age, 10.5 yr for girls and 12.5 yr for boys) were randomly assigned to receive either 0.067 mg/kg.d GH until attainment of AH or no treatment. In this per-protocol analysis, 91 of 102 patients in the treated group and 33 of 47 patients in the control group were followed to AH. Mean height at inclusion was -3.2 SD score (SDS). Treatment duration was 2.7 +/- 0.6 yr. AH was -2.7 +/- 0.9 and -2.1 +/- 1.0 SDS in the control and treated groups, respectively (P < 0.005). The groups differed by 0.6 SDS units (95% confidence interval, 0.2-0.9). Height gain was 0.5 +/- 0.8 and 1.1 +/- 0.9 SDS in the control and treated groups, respectively (P = 0.002). Multivariate analyses confirmed the independent effects of treatment (0.6 SDS) and treatment duration (0.4 SDS/yr). All potential biases would tend to decrease the estimate of the treatment effect. Treatment tolerance was excellent. We concluded that the potential for spontaneous catch-up in short adolescents born SGA is limited. GH treatment increases AH by at least 0.6 SDS in this population.

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Growth Hormone (GH) Retesting and Auxological Data in 131 GH-Deficient Patients after Completion of Treatment

Tauber

Moulin

Pienkowski

et al. 1997

The Journal of Clinical Endocrinology & Metabolism

162

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GH state and auxological data after completion of GH therapy are reported in 131 patients (79 males, 52 females). They were treated from 1980-1994 for partial (n = 98) or complete (n = 33) GH deficiency (GHD), either idiopathic (n = 121) or organic (n = 10). A single stimulation test (clonidine+betaxolol) was used, and only 50 patients (38%) maintained a blunted response (GH peak below 10 micrograms/L). Although 9 of the 10 patients with organic GHD had an abnormal low GH peak, 67% of patients with idiopathic GHD normalized their GH secretion. This was particularly true of partial GHD patients (71% vs. 36% of complete GH-deficient patients). Based on a retest GH peak below 5 micrograms/L, only 23% of the patients were considered to be GH deficient and therefore candidates for GH treatment during adulthood. We found no significant difference between hormonal state at completion of treatment and initial GH deficiency, pubertal state, or sex, although we did find a significantly lower GH peak value before and after treatment in patients with elevated body mass index. Of the 14 obese children who were treated, 50% had an abnormally low serum insulin-like growth factor-I level, arguing for true GHD, and only two children remained obese at cessation of treatment. Auxological data showed that with a mean duration of treatment of 3.6 +/- 2.0 yr, patients classified as having complete GHD before treatment had significantly greater catch-up growth as expressed in SDS for height than patients with partial GHD (0.6 +/- 1.1 vs. 1.1 +/- 0.7 SDS, P < 0.05), and that boys grew better than girls (1.4 +/- 0.8 vs. 1.6 +/- 0.6 SDS) for height, P < 0.01). That catch-up growth was not correlated with the result of GH peak after cessation of treatment.

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Long term results of growth hormone treatment in France in children of short stature: population, register based study

Coste

Letrait

Carel³

et al. 1997

BMJ

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Follow-Up of Three Years of Treatment with Growth Hormone and of One Post-Treatment Year, in Children with Severe Growth Retardation of Intrauterine Onset

et al. 1996

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Seventy-eight prepubertal, non-GH-deficient children aged 8.1 +/- 0.2 y, with very short stature (mean, -3.2 SD) of intrauterine onset, were treated for 3 y with GH [0.4 (dose D1) or 1.2 (dose D2) IU/kg/wk] and 66 were followed during a 4th y without GH therapy. A 2-y intermediary report had demonstrated a GH dose-dependent acceleration of growth. During the 3rd y on GH, patients D2 (1.2 IU/kg/wk) continued with the same dose, whereas patients D1 (0.4 IU/kg/wk) were randomized to either continue on D1 (group D1) or be increased to D2 (group D1D2). After 3 y on GH, patients' mean height (SD) reached -2.37 (D1), -2.17 (D1D2), and -1.58 (D2) with a total mean height gain of 0.77 (D1), 0.93 (D1D2) (difference NS), and 1.61 SD (D2 significantly higher than D1 and D1D2, p < or = 0.0001). During the off-treatment year, mean growth rate (cm/y) decreased to 3.4 in patients D1, 3.7 in D1D2, and 4.1 in D2 (NS). During the 4 y, bone age advanced of 4.6, 4.6, and 5.3 y in D1, D1D2, and D2, respectively, and puberty started in 34 patients (10 during the off-treatment year). Age at onset of puberty, apparently within normal range, did not relate either to the dose or the duration of treatment. Clinical and biologic tolerance of treatment was good. In conclusion this study demonstrates a GH dose-dependent effect on growth acceleration in persistent postnatal severe growth retardation of intrauterine onset. This effect was sustained for 3 y at 1.2 IU/kg/wk followed by a peculiar growth deceleration at treatment discontinuation. Additional studies are necessary to optimize long-term GH treatment regimen and to document its effects on final height.

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P Rochiccioli

Auxological and Endocrine Evolution of 28 Children with Prader-Willi Syndrome: Effect of GH Therapy in 14 Children

Improvement in Adult Height after Growth Hormone Treatment in Adolescents with Short Stature Born Small for Gestational Age: Results of a Randomized Controlled Study

Growth Hormone (GH) Retesting and Auxological Data in 131 GH-Deficient Patients after Completion of Treatment

Long term results of growth hormone treatment in France in children of short stature: population, register based study

Follow-Up of Three Years of Treatment with Growth Hormone and of One Post-Treatment Year, in Children with Severe Growth Retardation of Intrauterine Onset

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