Predicting the response to recombinant human growth hormone in Turner syndrome: KIGS models

A mathematical model for predicting the growth response in patients with Turner syndrome who received growth hormone (GH) therapy was developed by analysing data from KIGS, the Pharmacia & Upjohn International Growth Database. A Model for year 1 of GH therapy explained 46% of the variability of the growth response, with GH dose being the most important of the predictors of height velocity. In years 2-4 of therapy, height velocity during the previous year was the most important predictor, suggesting that an individual's initial response to GH may determine the height outcome of treatment. Additional treatment with oxandrolone. The predictions in all 4 years were highly accurate, as indicated by the low error SDs. However, relatively low predictive power ( R ) during years 2-4 of treatment suggests the models are missing other parameters that would explain more of the variability of the growth response. These growth prediction models could help clinicians to design individualized treatment regimens, provide realistic expectations of therapy outcomes, and adjust treatment on the basis of detected differences between observed and predicted height velocities.     

Final height in idiopathic growth hormone deficiency: the KIGS experience. KIGS International Board

Final height was evaluated in 369 patients with idiopathic growth hormone deficiency (IGHD) enrolled in KIGS--the Pharmacia & Upjohn International Growth Database. At the start of growth hormone (GH) therapy, the patients were 9.8 years of age, their mid-parental height SDS was -0.8, and their height SDS was -3.1. Of the 369 patients, 50% had multiple hormone deficiencies, and puberty was induced in 31%. Patients were 18 years of age at completion of GH therapy, and had received GH at a dose of 0.49 IU/kg/week (0.16 mg/kg/week), with a mean of 5.2 injections/week for 8.1 years. Final height SDS was -1.5, final minus initial height SDS was 1.7 and final minus mid-parental height SDS was -0.5. A Swedish subgroup (n = 69) received conventional GH therapy throughout at 0.65 IU/kg/week (0.22 mg/kg/week), with seven injections/week for a mean of 9.4 years. These patients achieved their genetic potential (final minus mid-parental height SDS, 0.03), with a normal final height SDS of -0.3. For the total group, the following variables were associated with final height: mid-parental height SDS (r = 0.62), injection frequency (r = 0.37), duration of GH treatment (r = 0.28), peak stimulated GH concentration (r = -0.25), age (r = -0.19) (all p < 0.001) and height velocity SDS in the first year of treatment (r = 0.20, p = 0.004). In conclusion, genetic potential, expressed as the mid-parental height, is the variable with the greatest identified influence on final height during GH treatment in IGHD. Current GH regimens will lead to a normal height and attainment of mid-parental height. However, higher dose, individualized GH regimens are likely to be necessary for patients with IGHD who are disadvantaged at the time of commencing GH therapy, such as those with short parents, those whose treatment began in late childhood or adolescence and those with less severe GHD.     

Growth hormone treatment of idiopathic short stature: analysis of the database from KIGS, the Kabi Pharmacia International Growth Study

Within the Kabi Pharmacia International Growth Study (KIGS) database, there is information on 1017 (700 male/317 female) patients with idiopathic short stature (ISS). These patients were started on recombinant human growth hormone (GH) at a median age of 10.8 years, a bone age of -1.8 SDS, a height of -2.6 SDS and a predicted adult height (PAH) (Bailey–Pinneau method) of -2.5 SDS. The median dose of GH was 0.6 IU/kg body weight/week and the frequency of injections was six/week. According to the relationship with target height the patients were classified into'familial short stature (FSS)'(height SDS > target height SDS - 1.28) and into'non-FSS'(height SDS < target height SDS - 1.28). During the first year of GH treatment there was an overall increment in the median height velocity from 4.4 to 7.4 cm/year. Over 3 years of GH treatment, cross-sectional analysis demonstrated an overall increment in median PAH of 1.2 SDS. There was a positive correlation between gain in PAH and the GH dose (n = 202, r = 0.18, p < 0.01) during the first year. Longitudinal analysis in 84 patients showed an overall increment of PAH of 0.7 SDS over 2 years of treatment. When applying the KIGS first-year prediction model for patients with idiopathic GH deficiency on cohorts of prepubertal children with FSS and non-FSS, a lower responsiveness to GH in the non-FSS group was observed. It is concluded that higher than substitutive doses of GH are required for the long-term improvement of growth in ISS.     

Effect of growth hormone treatment in children with craniopharyngioma with reference to the KIGS (Kabi International Growth Study) database

In children with craniopharyngioma, poor growth commonly precedes diagnosis, but is observed less frequently than neurological or visual symptoms. A deficiency of growth hormone (GH) is common before, and almost universal after, treatment of the tumour, and is usually treated with GH. However, a minority of these children with GH deficiency (GHD) grow well without GH replacement therapy but exhibit other metabolic effects of GHD that are correctable by GH treatment. This article provides a review of studies in 422 children with craniopharyngioma whose details have been entered into the database of KIGS, the Kabi International Growth Study. The response to GH during the first year of therapy was similar to that seen in children with idiopathic GHD (IGHD). Leg length was relatively greater than sitting height and this disproportion was maintained during treatment. Adiposity increased in some children receiving GH treatment. At the end of GH treatment in 82 patients, there was a median gain in height SD score of 1.51, with evidence of residual growth potential still remaining in the majority. Tumour recurrence occurred in 13.5% of the total group of patients with craniopharyngioma within KIGS, at a median of 3.9 years from diagnosis and 2.3 years from the start of GH therapy. Tumour recurrence was not associated with an impairment in height achieved, but there was a tendency towards greater adiposity in patients in whom recurrence occurred. Adverse events during GH treatment were more frequent in children with craniopharyngioma than in those with IGHD, and headache was commonly reported. The results of these studies suggest that GH treatment is recommended for the treatment of children with craniopharyngioma on the grounds of improved growth velocity, adult height and other GH-dependent metabolic functions, and of the good safety profile of GH in these patients.     

Growth Response in Prepubertal Children with Idiopathic Growth Hormone Deficiency During the First Two Years of Treatment with Human Growth Hormone. Analysis of the Kabi Pharmacia International Growth Study

From the large database of patients enrolled in the Kabi Pharmacia International Growth Study (KIGS), 289 prepubertal patients with idiopathic growth hormone deficiency (GHD), treated for 2 years with growth hormone (GH) substitution therapy, were selected. A multiple regression analysis was performed to determine both the auxological factors characterizing the patients at the beginning of the first and second years on GH therapy and the respective treatment modalities relevant to the magnitude of the growth response. It was observed that during the first year on GH therapy the magnitude of the growth response was negatively correlated with chronological age and height SDS, and positively correlated with target height SDS, GH dose (IU/kg/week) and frequency of GH injections. During the second year the growth response was negatively correlated with chronological age and the first-year GH dose (IU/kg/week), and positively correlated with height velocity during the first year, GH dose (second year), and injection frequency (second year). The data suggest that the forces of'catch-up'- auxologically entrenched within the distance between target height SDS and height SDS - no longer prevail during the second year of GH therapy. The inverse influence of the first-year GH dose in the two yearly phases of growth suggests that optimizing GH treatment must be attempted by analysing growth in response to GH over longer periods of time and considering that the growth process is influenced by interactive factors.     

Growth in pre-pubertal children with myelomeningocele (MMC) on growth hormone (GH): the KIGS experience

PURPOSE: To analyse the auxological data of children with myelomeningocele (MMC) on growth hormone (GH) therapy whose growth data was documented within KIGS (Pfizer International Growth Database). Longitudinal growth data of a sub-group of pre-pubertal children were studied after a treatment period of 3 years. PATIENTS AND METHODS: Eighty patients (38 m, 42 f) with MMC with a median chronological age (CA) of 11.6 years (at latest visit) on GH were registered in the KIGS database. In 52 patients, GH deficiency was documented. GH therapy started with a median dose of 0.23 mg kg(-1) per week. The 3-year longitudinal growth was analysed in 21 patients (13 m, 8 f; median CA 9.2 years, latest visit), all of whom were pre-pubertal at start and during GH therapy. RESULTS: GH therapy started at 7.5 years with a dose of 0.23 mg kg(-1) per week. Birth length SDS (-0.51) and mid-parental height SDS (+0.07) were in the normal range. BMI SDS at start was +0.24, at latest visit -0.03. After a median treatment duration of 3.0 years (latest visit), height SDS improved from -2.97 (start of GH) to -2.01. The sub-group of pre-pubertal MMC patients started GH therapy (dose 0.22 mg kg(-1) per week) at 6.2 years. Growth velocity (GV) SDS increased significantly (at start: -1.77; 1 year: +2.60, 2 years: +2.25, 3 years: +1.24), thus height SDS improved from -3.25 at start to -1.87 at 36 months. BMI SDS was in the normal range and remained unchanged during GH therapy. No major side effects of GH were recorded. CONCLUSION: GH had positive effects on height SDS in MMC patients. The analysis of the longitudinal growth data of pre-pubertal MMC patients showed a significant increase in GV SDS and improvement of height SDS.     

Gender does not influence prepubertal growth velocity during standard growth hormone therapy--analysis of United States KIGS data

BACKGROUND: Gender is an important determinant that affects the ultimate dose of growth hormone (GH) used for replacement in adult GH deficiency (GHD). Women require larger doses of GH per body weight to achieve comparable age-adjusted serum IGF-I concentrations than do men. OBJECTIVE: To test whether this is entirely a sex steroid effect or biologically inherent in gender. PATIENTS AND METHODS: We examined growth response to GH (0.25-0.35 mg/kg/week) during the first 2 years of therapy in 147 children (44 girls), and in the first 3 years of therapy in 83 of these children (23 girls). Children were aged 3-8 years at onset of therapy, had peak stimulated GH <10 microg/l, and were reported to be prepubertal during the period of analysis. RESULTS: In the relative absence of sex steroid, there was no gender difference in growth velocity SDS or gain in height SDS during 2 or 3 years of GH therapy. CONCLUSIONS: Inherent gender differences in linear growth response to GH prior to puberty may exist, but are not evident in the first years of GH therapy at this GH dose.     

Predictors of growth response to growth hormone in otherwise normal short children.

Sixty prepubertal short children (39 boys) with heights less than 2 SD for age and gender were treated daily for 1 year with recombinant human growth hormone (GH), either 0.1 IU/kg (group 0.1, n = 32) or 0.05 IU/kg (group 0.05, n = 28). Reserve of GH was determined by at least one GH provocative stimulus and 24-hour continuous blood withdrawal to determine the integrated concentration of GH (IC-GH). All participants had a GH response to provocative tests greater than 10 micrograms/L. The height velocity (mean +/- SD) of the group as a whole increased from 4.46 +/- 1.02 to 7.59 +/- 1.65 cm/yr (p less than 0.001). The growth velocity of group 0.1 was significantly greater than that of group 0.05 (8.1 +/- 1.5 vs 7.0 +/- 1.65 cm/yr; p less than 0.01). Bone age did not advance more than 1 year during the treatment period. Growth velocity after 1 year of GH therapy was inversely correlated with the IC-GH in both groups, as was the pretreatment height velocity. We found no correlation of growth velocity during GH therapy with other measures such as parental heights, bone age/chronologic age ratio, maximal GH response to provocative tests, chronologic age, or pretreatment insulin-like growth factor I levels. We conclude that the best predictors for the 1-year growth outcome of short children with a normal GH response to provocative tests are the pretreatment growth velocity and the IC-GH. The short-term benefit from GH therapy in children with a normal growth velocity and a normal IC-GH is poor, whereas marked growth acceleration is noted in children with a low growth velocity and a low 24-hour IC-GH.     

Growth hormone therapy in Silver Russell Syndrome: 5 years experience of the Australian and New Zealand Growth database (OZGROW)

Data were analysed on 33 children (22 males) with Silver Russell syndrome treated with growth hormone for periods up to 5 years. Baseline data (medians) at commencement of growth hormone (GH) therapy were age 6.7 years, bone age delay 1.7 years, height standard deviation score (SDS)-3.2, weight SDS –3.1, and growth velocity 5.7 cm/ year. All were prepubertal. Median birth weight SDS for gestational age was –3.2. GH was commenced at 14 IU/m² per week and subsequently adjusted according to response. Growth velocity and growth velocity SDS for chronological age (CA) improved over baseline and gains in height SDS for CA were 1.0, 1.5 and 1.8 SD over 3, 4 and 5 years respectively (P < 0.001). No significant increase in height SDS for bone age was observed. Increased GH doses were required after the 1st year to maintain growth rates. Mean bone age advancement was 3.1 years after 3 years of treatment, and 6.0 years after 5 years treatment. Younger age was a predictor of the growth response over the 1st year. Predictors of response after 3 years were catch-up growth, low weight SDS at birth and low height SDS for CA. Age at onset of puberty was normal, but height at onset of puberty was lower than normal means. Conclusion We have demonstrated significant improvement in growth in Silver Russell syndrome after 3 years of GH therapy, however data on estimated mature height and final height are insufficient to conclude final outcomes. Further follow up is required to assess the long-term benefit. Received: 19 July 1995 Accepted: 4 March 1996     

Response to growth hormone with respect to pubertal status on increased dose in idiopathic growth hormone deficiency: an analysis of Turkish children in the KIGS database (Pfizer International Growth Study)

AIM: To compare the growth response to growth hormone (GH) treatment in patients with idiopathic GH deficiency (IGHD) who were prepubertal with the response of those who were pubertal at the onset of GH therapy on an increased GH dose. PATIENTS AND METHODS: Among the Turkish patients enrolled in the Pfizer International Growth Study (KIGS) database with the diagnosis of IGHD, the growth data over 2 years of GH therapy were analyzed longitudinally of 113 (79 M) prepubertal (Group 1) and 44 (33 M) pubertal (Group 2) patients. Pubertal signs were reported to be present initially or to have appeared within 6 months of GH therapy in Group 2. Mean +/- SD age at onset of therapy was 8.7 +/- 3.5 and 13.5 +/- 1.8 years; height SDS -4.2 +/- 1.4 and -3.2 +/- 1.1 (p < 0.05) in Groups 1 and 2, respectively. Mid-parental height (MPH) SDS did not show a significant difference between the two groups (-1.5 +/- 1.1 vs -1.7 +/- 1.1). RESULTS: Delta height SDS over 2 years of therapy was significantly higher in Group 1 (1.1 +/- 1.0) than in Group 2 (0.7 +/- 0.6) (p <0.05) in spite of a significantly lower dose of GH (14.6 +/- 3.3 in Group 1 vs 17.0 +/- 3.1 IU/m2/week in Group 2, p < 0.05). Ht--MPH SDS showed an increase from -2.4 +/- 1.7 to -1.4 +/- 1.5 in Group 1 and from -1.5 +/- 1.5 to -0.8 +/- 1.3 in Group 2. Overall delta height SDS showed negative correlations with age (r = -0.32), height SDS (r = -0.41) and height--MPH SDS (r = -0.40) at onset of therapy (p < 0.001). CONCLUSIONS: These data show that in IGHD the slight increase (15-20%) in the dose of GH during puberty was not adequate to maintain height velocity at the same magnitude as in prepuberty, and thus was not cost effective.     

Growth hormone treatment in Aarskog syndrome: analysis of the KIGS (Pharmacia International Growth Database) data

Aarskog syndrome is an X-linked disorder characterized by faciogenital dysplasia and short stature. The present study set out to determine the effect of growth hormone (GH) therapy in patients with Aarskog syndrome enrolled in KIGS--the Pharmacia International Growth Database. Twenty-one patients (20 males) were evaluated. Median age at start of treatment was 8.3 years (10-90th percentiles, 5.1-14.1 years) and median height SDS was -2.8 (10-90th percentiles, -2.1 to -3.7). The median dose of GH was 0.22 mg/kg/week (10-90th percentiles, 0.15-0.30 mg/kg/week) given at a median frequency of six (4-7) times per week. Prepubertal patients were followed longitudinally for 1 year (n = 13) or 3 years (n = 7). After 1 year, the median height SDS had improved from -2.8 to -2.3 in 13 patients. After 3 years, height SDS had improved significantly (p <0.05) to -1.8 (10-90th percentiles, -2.1 to -1.1) in the seven patients. No adverse events were noted. Although final height data for these patients are still awaited, the present results support the use of GH to promote growth in children with Aarskog syndrome.     

Prediction of the growth response in children with various growth disorders treated with growth hormone: analyses of data from the Kabi Pharmacia International Growth Study

Analyses to predict the growth response to recombinant human growth hormone (GH) in prepubertal children during the first year of treatment were performed on data from 472 patients with idiopathic GH deficiency (IGHD), 202 children with Turner's syndrome, 327 children with idiopathic short stature (ISS) and 135 children with intrauterine growth retardation (IUGR). In IGHD, 56% of the variability of the response could be predicted from a model based on six variables. These variables could be ranked in order of importance as follows: target height SDS minus height SDS, chronological age, frequency of GH injections, dose of GH, weight-for-height index, and birth weight SDS. When the model for IGHD was applied to Turner's syndrome, ISS and IUGR, there was a high degree of similarity between the predicted and achieved growth response in ISS and IUGR. However, an uneven distribution within the plot of Studentized residuals in ISS and IUGR suggested heterogeneity within these populations. Prediction of growth in Turner's syndrome was greatly exaggerated by the model for IGHD, suggesting a different pathogenesis as the basis of the growth disorder. Specific prediction models were therefore developed for Turner's syndrome, ISS and IUGR. In all three disorders, the dose of GH was found to be the most important predictor, suggesting that, in contrast to IGHD, first-year growth is governed less by the difference between height and the presumed genetically determined target height. Again, in contrast to IGHD, this suggests that catch-up phenomena are not involved. As the predictability of the variation in growth response in Turner's syndrome, ISS and IUGR did not exceed 32% (for ISS), the search for new predictors should continue in these disorders.     

Response to growth hormone treatment and final height in Noonan syndrome in a large cohort of patients in the KIGS database

BACKGROUND: Noonan syndrome (NS) is an autosomal dominant inherited disease, characterized by a distinctive facial appearance, congenital heart defects, and short stature. Treatment with growth hormone (GH) is an option to enhance height, but long-term effects are still unclear. PATIENTS AND METHODS: A cohort of 402 patients (269 males, 133 females), mean age 9.7 years at start with GH, was studied within the KIGS International growth database with respect to long-term response to GH therapy and final height after GH therapy. RESULTS: At the start of GH therapy median height was -2.61 SDS (Tanner 1966 standards). Seventy-three patients who were followed longitudinally for 3 years had an increment in height SDS (Ht SDS) over the first 3 successive years of 0.54, 0.13 and 0.13, respectively. Twenty-four patients had reached their final height after 4-12 years of GH treatment. Their Ht SDS increased from a median of -3.28 to a median of -2.41 at final height. CONCLUSION: This group of patients with NS showed an early response to GH treatment, with an attenuation of this effect thereafter. At final height the median increment of final height was 0.61 SDS according to Tanner standards and 0.97 SDS according to Noonan standards. No serious side effects were reported.     

Growth response to growth hormone therapy following cranial irradiation

The growth response to growth hormone (GH) therapy has been studied in 12 children who received irradiation to the cranium alone either for brain gliomas, distant from the hypothalamic-pituitary axis, or as prophylaxis against CNS leukaemia. Seven children have completed GH treatment (mean duration 4 years) and five are presently on GH (mean duration 1.2 years). This response has been compared to that seen in 14 children with isolated idiopathic GH deficiency (IGHD), following GH therapy. Before treatment, the cranially irradiated patients (C-PRGHD) had higher standard deviation scores (SDS) for standing height, sitting height and leg length, and less bone age (BA) retardation, but started treatment at a similar age, and with a similar pre-treatment growth velocity and GH peak to standard provocative tests, compared to IGHD patients. GH produced a significant and similar increase in growth velocity (cm/year and SDS for BA) over the first 2 years' treatment in both groups. However C-PRGHD patients entered puberty and thus completed growth earlier than the IGHD group. As a result, cranially-irradiated children showed no change in height SDS with GH therapy, compared to catch-up growth in IGHD. Nevertheless, GH has enabled C-PRGHD patients to maintain their centile position and to achieve a more acceptable final height.Abbreviations GH growth hormone - IGHD idiopathic growth hormone deficiency - C-PRGHD post cranial-irradiation growth hormone deficiency - SDS standard deviation score - BA bone age - ALL acute lymphatic leukaemia - TSH thyroid stimulating hormone - CA chronological age - HA height age     

Prediction of the growth response of short prepubertal children treated with growth hormone

The aim of this study was to identify predictors of the growth response to growth hormone (GH) during the first 2 years of GH treatment, using auxological data and the maximum GH response (GH_max) to provocation tests. The patients were 169 prepubertal short children (27F, 142M), with Gmax values ranging from 0 to 65 mU/1. Their mean age (± SD)was8.3 ± 2.4 years (range 3-13 years), mean height SDS –3.0 ± 0.7 (range –1.5 to –6.0SDS) and mean pretreatment height velocity was normal (± 0.0 SDS) (range -1.6 to + 0.9 SDS). The increase in height SDS during the first 2 years of GH treatment (0.1 U/kg/day) varied from 0.10 to 3.75 SDS, with younger children having a better growth response. Individual growth responses correlated (p < 0.001) with GH_max (r =–0.37), age (r= -0.35), 1-year pretreatment delta SDS (r = -0.25), mid-parental height SDS (r = 0.34), height SDS at start of treatment (r =–0.22) and difference between height SDS of an individual child at the onset of GH treatment and mid-parental height expressed in SDS (diff SDS) (r = –0.43). In a multiple stepwise linear regression model, diff SDS and log GH_max were found to be the strongest predictors of the magnitude of the growth response. In the short children in this study who exhibited a broad range of GH_max values, 33% of the growth response during the first 2 years of treatment could be predicted.     

Effect of combined treatment with gonadotropin releasing hormone analogue and growth hormone in patients with central precocious puberty who had subnormal growth velocity and impaired height prognosis

Growth hormone-insulin-like growth factor-I status and response to growth hormone therapy (0.6 IU/kg/week sc, six times a week for 12 months) were evaluated in 12 girls (chronological age 9.4 ± 1.6 years) suffering from central precocious puberty with growth velocity less than 4 cm/year and no substantial increase or decrease in predicted adult height during gonadotropin releasing hormone (Gn-RH) analogue treatment (D-Trp⁶-LH-RH, 60 μg/kg im/28 days). At baseline, large variations were observed in nocturnal growth hormone (GH) means (pathological values (< 3.6μg/l) 33.3%), stimulated levodopa GH peaks (pathological values (<10.0 μg/I) 28.6%) and serum insulin-like growth factor-I (IGF-I) levels. Neither GH nor IGF-I levels were correlated with growth velocity. During recombinant GH therapy, growth velocity increased significantly (baseline 3.0 ± 0.9 cm/year; 6 months 6.4 ± 1.9cm/year, p < 0.001 versus baseline; 12 months 6.0 ± 1.3cm/year, p < 0.001 versus baseline). There was a significant increase in height SDS for bone age (baseline –1.6 ±0.5 SDS; 12 months -1.04 ± 0.6SDS; p < 0.002) and in predicted adult height (baseline 152.0 ± 3.6cm; 12 months 155.9 ± 3.4cm; p < 0.002). Our results suggest that combined therapy with Gn-RH analogues and recombinant GH can improve growth velocity and predicted adult height in girls with central precocious puberty and impaired height prognosis during Gn-RH analogue treatment.     

Noonan's syndrome: abnormalities of the growth hormone/IGF-I axis and the response to treatment with human biosynthetic growth hormone

Auxological and endocrine data from 6 children (3 male, 3 female) aged 8.5-12.8 years with Noonan's syndrome and the results of treatment with human biosynthetic growth hormone (hGH) are presented. All the children were short (Ht SDS -3.5 to -2.3) and height velocity SDS ranged between -1.76 and +0.03. The maximum plasma growth hormone (GH) response to standard provocation tests ranged from 17 to 52 mU/l, yet, plasma insulin-like growth factor I (IGF-I) concentrations were low or low normal. Overnight GH secretory profiles were normal in all but 2 children who had disordered pulsatility with high trough concentrations. In 5 children who have completed one year of hGH therapy mean height velocity increased from 4.8 to 7.4 cm/year and the height velocity SDS ranged from +0.2 to +3.75. This improvement was associated with an increase in plasma IGF-I in three subjects. These results suggest that a defect of the GH/IGF-I axis may be present in some children with Noonan's syndrome and hGH therapy may have a role in the management of the short stature in these children.     

Noonan's Syndrome: Abnormalities of the Growth Hormone/IGF-I Axis and the Response to Treatment with Human Biosynthetic Growth Hormone

ABSTRACT. Auxological and endocrine data from 6 children (3 male, 3 female) aged 8.5–12.8 years with Noonan's syndrome and the results of treatment with human biosynthetic growth hormone (hGH) are presented. All the children were short (Ht SDS -3.5 to -2.3) and height velocity SDS ranged between -1.76 and +0.03. The maximum plasma growth hormone (GH) response to standard provocation tests ranged from 17 to 52 mU/l, yet, plasma insulin-like growth factor I (IGF-I) concentrations were low or low normal. Overnight GH secretory profiles were normal in all but 2 children who had disordered pulsatility with high trough concentrations. In 5 children who have completed one year of hGH therapy mean height velocity increased from 4.8 to 7.4 cm/year and the height velocity SDS ranged from +0.2 to +3.75. This improvement was associated with an increase in plasma IGF-I in three subjects. These results suggest that a defect of the GH/IGF-I axis may be present in some children with Noonan's syndrome and hGH therapy may have a role in the management of the short stature in these children.     

Demography, auxology and response to recombinant human growth hormone treatment in girls with Turner's syndrome in the Kabi Pharmacia International Growth Study

Demographic and auxological data were analysed from 818 girls with Turner's syndrome treated with recombinant human growth hormone (GH) and entered into the Kabi Pharmacia International Growth Study. Size at birth was low and correlated with the heights of both parents. The median age at start of GH treatment was 11.4 years and the parents had a median height SDS of -2.9. Height SDS at the start of treatment correlated with parental heights. Height velocities conformed to Turner-specific standards. The weight-for-height index increased sharply above 9 years of age. The frequency of spontaneous appearance of Tanner breast stage 2 was high (34.1% of girls > 10 years of age). Bone age (Greulich and Pyle) data were described by the equation: bone age = 1.61 (chronological age) -0.04(chronological age)² - 3.61. This equation was used to correct adult height predictions. The median initial dose of GH was 0.8 IUkglweek and was maintained during the first 3 years of treatment. The median frequency of injections was six/week. Height velocity increased from 4.1 to 6.8 cm/year in the first year, and height velocity SDS for chronological age remained positive for 4 years. The height prediction corrected for bone age increased over the first 2 years only. Differences in demography and auxology were described according to karyotype and country of origin. A greater height velocity SDS was observed at higher GH doses and when oxandrolone was used concomitantly.     

A controlled trial of methionyl growth hormone therapy in prepubertal children with short stature, subnormal growth rate and normal growth hormone response to secretagogues. Dutch Growth Hormone Working Group

Thirty short and slowly growing children with normal plasma growth hormone (GH) responses to standard provocation tests were randomly assigned to either a group (n = 20) undergoing treatment with methionyl GH (somatrem), 2 IU per m2 body surface s.c. daily, or a control group (n = 10). Twelve out of 18 children who completed the first year of treatment showed a height velocity increment of more than 2 cm/year. The mean (SD) growth velocity of the treatment group increased by 3.0 (1.9) cm/year over the first year, compared with -0.2 (0.7) cm/year in the control group. Neither parameters of endogenous GH secretion nor plasma IGF-I levels showed a significant correlation with the growth response. Of the auxological variables studied, pre-treatment growth velocity (r = -0.8) and the short-term height velocity increment (r = 0.7-0.9) showed significant correlations with the growth response in the first year of treatment. Somatrem therapy was without side effects, except in one child who developed anti-GH antibodies in combination with a poor growth response.