Auxology and response to growth hormone treatment of patients with intrauterine growth retardation or Silver-Russell syndrome: analysis of data from the Kabi Pharmacia International Growth Study

Using the database from the Kabi Pharmacia International Growth Study, 105 patients with intrauterine growth retardation (IUGR) (82 males, 23 females) and 45 with Silver-Russell syndrome (SRS) (32 males, 13 females) with persistent postnatal growth failure were studied. Patients with IUGR had a birth length and birth weight more than 2 SD below the mean for gestational age. Their height deficit at the start of GH treatment was -3.0 SDS at a median chronological age of 8.7 years and a median bone age of 7.0 years. Mean paternal and maternal heights were 166 and 153 cm, respectively. The median dose of GH was 0.5 IU/kg/week, given at a median frequency of five injections/week. The median height SDS for chronological age after 1, 2 and 3 years of GH treatment were -2.5, -2.1 and -1.9, respectively. In the 45 patients with SRS, median chronological age and median bone age at the start of treatment were 6.7 and 3.2 years, respectively, and mean paternal and maternal heights were 167.5 and 160 cm, respectively. The median dose of GH was 0.7 IU/kg/week, given at a median frequency of six injections/week. The median height SDS for chronological age at the start of treatment and after 1, 2 and 3 years were -3.5, -2.9, -2.8 and -2.2, respectively. Although the criteria used by physicians when diagnosing SRS were not controlled or verified in this study, it appears that patients with SRS can be differentiated from those with IUGR with persistent growth failure by their reduced bone age for chronological age at the start of treatment, and by the fact that patients with SRS tended to be born to parents of normal height. GH treatment in both groups induced catch-up growth, though long-term follow-up studies will be required to assess the effects of treatment on final height.     

Growth hormone treatment of short children born small for gestational age or with Silver–Russell syndrome: results from KIGS (Kabi International Growth Study), including the first report on final height

The response to growth hormone (GH) therapy was studied in children born small for gestational age (SGA; n = 593) and in those with Silver–Russell syndrome (SRS; n = 127) using data from KIGS (Kabi International Growth Study). For the SGA patients, median birth weight was -2.6 SD scores (SDS), treatment was started at a median age of 9.2 years, at a time when median height was -2.8 SDS while median target height was -1.4 SDS. For the SRS patients, median birth weight was -3.1 SDS, treatment was started at a median age of 7.0 years, at a time when median height was -3.4 SDS with a median target height of -0.1 SDS. GH treatment increased height SDS in both SGA children and patients with SRS; in 16 SGA patients treated to (near) final height with GH (median dose, 0.7 IU/kg/week), height minus target height SDS was -2.0 at the start of treatment and -1.0 at final height. In conclusion, the results obtained in KIGS indicate that GH treatment of short children born SGA is effective in increasing final height above the predicted height and in achieving the target height.     

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.     

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.     

Five years of growth hormone treatment in children with Prader-Willi syndrome. Swedish National Growth Hormone Advisory Group

The authors have followed 18 prepubertal children (3-12 years of age) with Prader-Willi syndrome during 5 years of growth hormone (GH) treatment. Initially, all the children participated in a randomized, controlled GH trial, conducted to assess the effects of GH treatment on growth, body composition and behaviour. GH was administered to group A (n = 9) at a dose of 0.1 IU/kg/day (0.033 mg/kg/day) for 2 years. Group B (n = 9) was untreated for the first year, but the children were given GH at a dose of 0.2 IU/kg/day (0.066 mg/kg/day) during the second year. Thereafter, all children stopped GH treatment for 6 months and were then restarted with GH at a dose of 0.1 IU/kg/day (0.033 mg/kg/day). During the first year of GH treatment, there was a dramatic increase in height SDS in both groups. The attained height percentile was maintained during the continued GH treatment. Five years after the start of GH treatment, mean height SDS is still above average for age. Four children have reached final height, all within 2 SD of target height. During the first year of GH treatment, body mass index (BMI) SDS decreased significantly from 3.0 to 1.5 SDS in group A and from 2.8 to 1.2 SDS in group B, but it increased again during the 6-month period without treatment. Following the restart of GH treatment, BMI SDS has stabilized at 1.7 SDS for group A and 2.5 SDS for group B. In 16 of 18 patients, fasting insulin, glucose and the A1c fraction of glycosylated haemoglobin remained within normal ranges during 5 years of GH treatment. Following a period of rapid weight gain, two children have developed non-insulin-dependent diabetes mellitus. Glucose homeostasis returned to normal when GH treatment was withdrawn. In conclusion, GH treatment has a proven favourable effect on growth and body composition in patients with Prader-Willi syndrome. Treatment should be individualized, and close surveillance of glucose homeostasis is needed, especially if the patient is severely obese.     

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.     

An auxology-based growth hormone program: update on the Australian experience

In 1988, new guidelines for growth hormone (GH) usage emphasizing auxological criteria were adopted in Australia. Currently, 1,250 children with the following diagnoses are being treated: idiopathic GH deficiency (IGHD), 23.4%; malignancy-related GHD, 7.9%; Turner's syndrome, 12.1%; nonendocrine disorders, 22.2%; idiopathic short stature, 26.0%; endocrine disorders, 3.2%; unknown, 5.3%. At onset of GH therapy, mean age remained lowest in patients with IGHD (8.6 years); mean height SDS was unchanged over time in all groups (-2.8 to -3.3); mean GH doses were lowest for patients with idiopathic and malignancy-related GHD (0.15-0.16 mg/kg/week) and highest for the Turner's syndrome group (0.22 mg/kg/week). Children with GHD demonstrated the best final height outcome (mean final height SDS -1.0 +/- 1.1 for boys and -1.4 +/- 1.2 for girls; improvements of 2.0 SDS for both genders). Mean final height SDS for the other etiologies were similar: -2 in malignancy-related GHD (no improvement), -2.3 in nonendocrine disorders (improvement of 0.7), -1.8 in idiopathic short stature (improvement of 1.1), and -2.3 for Turner's syndrome (improvement of 0.9). In 1993-94, when more stringent entry and exit criteria were introduced, patient numbers and expenditure were halved and have remained unchanged (US dollars 9-10 M per year). The use of auxology-based criteria continues to make possible rational, effective, and economical use of GH therapy in short children in Australia.     

Short-term increments of insulin-like growth factor I (IGF-I) and IGF-binding protein-3 predict the growth response to growth hormone (GH) therapy in GH-sensitive children

The present study included a cohort of 42 children aged between 1.7 and 15.4 years, who presented with short stature and growth failure. Basal and generated serum levels of insulin-like growth factor-I (IGF-I) and IGF-binding protein-3 (IGFBP-3), measured in an IGF generation test following four or seven daily injections of growth hormone (GH), 0.1 IU/kg (0.033 mg/kg), were analysed in these patients. The growth response to 1 year of GH treatment, 0.6 IU/kg/week (0.2 mg/kg/week), was also investigated. Median height velocity of these patients increased from -1.6 SDS (range, -4.6 to -0.3 SDS) to 3.3 SDS (range, -0.2 to 7.1 SDS) after 1 year of GH treatment, and median height SDS increased by 0.7 SDS (range, 0.1 to 2.2 SDS). Strong correlations were observed between basal and generated IGF-I and IGFBP-3 levels. The increase in IGFBP-3 levels in response to GH in the generation test was a strong predictor of the growth response to GH therapy. All the patients in the present study could be differentiated from patients with GH insensitivity syndrome (GHIS) using the criteria of a diagnostic scoring system for GHIS. The most valuable parameters were the increases in IGF-I and IGFBP-3 levels in the generation test, which excluded 95.2% of the patients from a diagnosis of GHIS.     

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.     

Growth hormone (GH) treatment to final height in children with idiopathic short stature: evidence for a dose effect

OBJECTIVES: To investigate in an open-label randomized study, the effect of two doses of growth hormone (GH) on final height and height velocity during the first 2 years of treatment of children with idiopathic short stature (mean baseline height standard deviation score [SDS] -3.2). STUDY DESIGN: Patients were treated with GH at 0.24 mg/kg/week, 0.24 mg/kg/week for the first year and at 0.37 mg/kg/week thereafter (0.24-->0.37), or 0.37 mg/kg/week. Final height was evaluated in 50 patients at study completion (mean treatment duration, 6.5 years). RESULTS: Patients who received 0.37 mg/kg/week (n = 72) experienced a significantly greater increase in height velocity than those who received 0.24 mg/kg/week (n = 70) (treatment difference = 0.8 cm/year; P = .003) or 0.24-->0.37 mg/kg/week (n = 67) (treatment difference = 0.9 cm/year; P = .001). For the 50 patients for whom final height measurements were available, mean height SDS increased by 1.55, 1.52, and 1.85 SDS, respectively, for the three dose groups. For the primary comparison between the 0.37 mg/kg/week and 0.24 mg/kg/week dose groups, the mean treatment difference (adjusted for differences in baseline predicted height SDS) was 0.57 SDS (3.6 cm; P = .025). Mean overall height gains (final height minus baseline predicted height) were 7.2 cm and 5.4 cm for the 0.37 mg/kg/week and 0.24 mg/kg/week dose groups, respectively, without dose effects on safety parameters. Final height measurements were within the normal adult height range for 94% of patients randomized to 0.37 mg/kg/week who continued to final height. CONCLUSION: GH treatment dose-dependently increases height velocity and final height in children with idiopathic short stature.     

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.     

Physiological Growth Hormone Secretion and Response to Growth Hormone Treatment in Children with Short Stature and Intrauterine Growth Retardation

Stanhope, R., Ackland, F., Hamill, G., Clayton, J., Jones, J. and Preece, M.A. (Department of Growth and Development, Institute of Child Health, London and Serono Laboratories, UK). Physiological growth hormone secretion and response to growth hormone treatment in children with short stature and intrauterine growth retardation. Acta Paediatr Scand [Suppl] 349: 47, 1989.
Physiological growth hormone (GH) secretion was examined in 31 children (8 girls, 23 boys) with short stature secondary to intrauterine growth retardation (IUGR). Seventeen (4 girls, 13 boys) had dysmorphic features of Russell-Silver syndrome. Four of the 31 children had GH insufficiency with peak GH levels of < 20 mU/I during the night. Nine of the patients (8 of whom had Russell-Silver syndrome) had a single nocturnal GH pulse. Twenty-three children (6 girls, 17 boys) were randomized into two groups treated with either 15 or 30 U/m²/week of GH by daily subcutaneous injections. Age, sex distribution, pretreatment height velocity SD score (SDS), and distribution of dysmorphic and non-dysmorphic children were similar in both groups. The group treated with 15 U/m2/week for a mean of 0.82 years showed an increase in mean height velocity SDS from - 0.61 to +1.09, and the group treated with 30 U/m²/week for a mean of 0.92 years showed an increase in mean height velocity SDS from -0.69 to +3.48. The results suggest that physiological GH insufficiency is probably common in children with Russell-Silver syndrome and that both dysmorphic and non-dysmorphic children with short stature secondary to IUGR will respond to GH treatment. Initial evidence suggests that the increase in short-term growth velocity does not result in an improved final height prognosis.     

Effect of Oxandrolone on Growth and Final Height in Turner's Syndrome

ABSTRACT. Thirty-two girls with Turner's syndrome aged 11.5-16.7 years were treated with oxandrolone (0.125 mg/kg/day). The treatment period was scheduled to 2 years. Height velocity (HV) was expressed in Standard Deviation Scores (SDS), calculated by growth standards for untreated Danish Turner-girls. For girls with initial bone age below 13 years HV increased significantly from a mean pretreatment value of -0.2 SDS (3.1 cm/year) to + 3.5 SDS (5.6 cm/year) in the 1st year of treatment and + 2.1 SDS (4.1 cm/year) in the 2nd year. Mean bone age velocity during treatment was 0.9 year/year. Twenty-two girls have reached final height. Predictions of their final height were made by three different methods and compared to observed final height. A significant ( p <0.001) improvement in the order of 3-4 cm was found for girls with initial bone age below 13 years, while girls with higher initial bone age had no height gain ( p >0.3). Side effects were seen in 16% of the girls.     

The effect of growth hormone treatment on stature in Aarskog syndrome.

We describe 19 males with Aarskog syndrome who were treated with growth hormone (GH) and enrolled in the National Cooperative Growth Study (NCGS). There was a significant increase in both growth rate (3.9 +/- 1.9 cm/yr vs 8.9 +/- 1.7 cm/yr, p < 0.001) and height SD score (change in HtSDS = 1.0 +/- 0.8). The increase in HtSDS was dependent on treatment duration, frequency of injections, weight-for-height SDS, and HtSDS at enrollment. The results of our study suggest a positive effect of GH treatment on growth and adult height in Aarskog syndrome patients.     

Short-term increments of insulin-like growth factor I (IGF-I) and IGF-binding protein-3 predict the growth response to growth hormone (GH) therapy in GH-sensitive children

Schwarze CP, Wollmann HA, Binder G, Ranke MB. Short-term increments of insulin-like growth factor I (IGF-I) and IGF-binding protein-3 predict the growth response to growth hormone (GH) therapy in GH-sensitive children. Acta Paediatr 1999; Suppl 428:200-8. Stockholm. ISSN 0803-5326
The present study included a cohort of 42 children aged between 1.7 and 15.4 years, who presented with short stature and growth failure. Basal and generated serum levels of insulin-like growth factor-I (IGF-I) and IGF-binding protein-3 (IGFBP-3), measured in an IGF generation test following four or seven daily injections of growth hormone (GH), 0.1 IU/kg (0.033 mg/kg), were analysed in these patients. The growth response to 1 year of GH treatment, 0.6 IU/kg/week (0.2 mg/kg/week), was also investigated. Median height velocity of these patients increased from-1.6 SDS (range, -4.6 to -0.3 SDS) to 3.3 SDS (range, -0.2 to 7.1 SDS) after 1 year of GH treatment, and median height SDS increased by 0.7 SDS (range, 0.1 to 2.2 SDS). Strong correlations were observed between basal and generated IGF-I and IGFBP-3 levels. The increase in IGEBP-3 levels in response to GH in the generation test was a strong predictor of the growth response to GH therapy. All the patients in the present study could be differentiated from patients with GH insensitivity syndrome (GHIS) using the criteria of a diagnostic scoring system for GHIS. The most valuable parameters were the increases in IGF-I and IGFBP-3 levels in the generation test, which excluded 95.2% of the patients from a diagnosis of GHIS. □ Growth hormone treatment, insulin-like growth factor I, insulin-like growth factor binding protein-3, insulin-like growth factor generation test     

Effect of Human Growth Hormone Treatment for 1 to 7 Years on Growth of 100 Children,with Growth Hormone Deficiency,Low Birthweight,Inherited Smallness,Turner's Syndrome,and Other Complaints

(1) Human growth hormone (HGH) has been given for one whole year or longer to 100 patients, aged 1·5 to 19 years, participating in the Medical Research Council Clinical Trial of HGH. Each patient was measured 3-monthly for a control year before treatment, and the majority for a control year after the first treatment year. All measurements were made by one anthropometrist. Radiographic measurements of widths of bone, muscle, and fat in calf and upper arm were made. Methods and standards for assessing the significance of a given height acceleration are presented.(2) The characteristics at diagnosis are given of 35 patients with isolated GH deficiency or hyposomatotrophism (HS), 18 with craniopharyngiomas and other CNS lesions, 3 with multiple trophic hormone deficiency, 18 with low birthweight short stature, 4 with hereditary smallness and/or delay in growth, 4 with psychosocial short stature, 1 with high resting HGH and low somatomedin, 6 with Turner''s syndrome, and 11 with other diagnoses.(3) 29 of the 35 HS patients were boys and 13 had an abnormally small penis and ill-developed scrotum. Only 2 were sibs. Parents averaged 40th centile for height. 4 children developed growth-suppressing antibodies, and had to cease treatment. The mean standard deviation score (SDS) for height at diagnosis was -4·7, range -2·6 to -7·3. Bone age SDS averaged -3·2, range -0·8 to -5·7. Skinfold SDS averaged +0·91. Limb muscle width SDS averaged about -3·0. GH peak in insulin hypoglycaemia averaged 4·7 ± 0·7 μU/ml, range 1 to 13.(4) A category of partial growth hormone deficiency is defined as patients with GH peaks of 7-20 μU/ml inclusive and height velocity SDS in the year before treatment between -1 and -2. Total HS patients have GH peaks of 1 to 6 μU/ml inclusive and height velocity SDS of < -2. Partial HS patients are accelerated by HGH and should be treated; but their average acceleration is below that of total HS patients.(5) There was a highly significant relation (r = -0·64) between blood GH peak level and pretreatment height velocity in the HS patients.(6) The LBW patients were 10 boys and 7 girls; all the boys had normal genitalia. The average height SDS at diagnosis was -3·7; parents'' height centile averaged 50th, bone age SDS -1·8, skinfold SDS -0·9. GH peaks were all above 30     

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     

Effect of oxandrolone on growth and final height in Turner's syndrome

Thirty-two girls with Turner's syndrome aged 11.5-16.7 years were treated with oxandrolone (0.125 mg/kg/day). The treatment period was scheduled to 2 years. Height velocity (HV) was expressed in Standard Deviation Scores (SDS), calculated by growth standards for untreated Danish Turner-girls. For girls with initial bone age below 13 years HV increased significantly from a mean pretreatment value of -0.2 SDS (3.1 cm/year) to +3.5 SDS (5.6 cm/year) in the 1st year of treatment and +2.1 SDS (4.1 cm/year) in the 2nd year. Mean bone age velocity during treatment was 0.9 year/year. Twenty-two girls have reached final height. Predictions of their final height were made by three different methods and compared to observed final height. A significant (p less than 0.001) improvement in the order of 3-4 cm was found for girls with initial bone age below 13 years, while girls with higher initial bone age had no height gain (p greater than 0.3). Side effects were seen in 16% of the girls.     

Characteristics of children with idiopathic short stature in the Kabi Pharmacia International Growth Study, and their response to growth hormone treatment

The auxological characteristics and the response to growth hormone (GH) treatment of children with idiopathic short stature were studied, using the database of the Kabi Pharmacia International Growth Study. Pretreatment data from a total of 271 children were analysed. The children were selected for a birth weight above -2 SDS. The correlation coefficient of birth weight SDS and birth length SDS was 0.51, compared with 0.72 for the reference population. Median length at birth was -0.6 SDS, which fell to -2.5 SDS by 3 years of age. Thereafter, there was no further loss in height SDS. The response to GH treatment was studied in 222 of these prepubertal children who were given six or seven injectiodweek over a 3-year period. During this time, the median height SDS increased from -2.5 to -1.5, with those children receiving more than 0.65 IU/kg/week having a greater gain in height SDS than those on 0.5 IU/kg/week or less. The degree of bone age delay did not appear to influence the response to GH therapy.     

Improved final height with long-term growth hormone treatment in Noonan syndrome

Aim: To assess whether children with Noonan syndrome on long-term growth hormone (GH) therapy improve their final height to near mid-parental height. Methods: Twenty-five prepubertal children (13 girls) with Noonan syndrome (NS) were studied. A single clinician made the diagnosis based on clinical criteria. GH treatment started at an age ranging from 3.1 to 13.8 y and was continued for at least 2 y. Improvement or “gain” in final height (FH) was defined as either the difference between adult height SD scores (SDS) and pre-treatment height SDS (the childhood component of the Swedish reference) or height SDS compared to the Noonan reference. Results: Ten children received a GH dose of 33 μg/kg/d (mean age at start 7.7±2.1 y, mean age at stop 17.6±1.7 y) and 15 received a dose of 66 μg/kg/d (mean age at start 8.6±3.3 y, mean age at stop 18.4±2.1 y). Eighteen out of 25 patients reached FH. A substantial improvement in FH of 1.7 SDS, equivalent to 10.4 cm compared to pre-treatment height, was observed. No significant difference was seen between the two GH doses. Females gained a mean height of 9.8 cm and males 1-13 cm (FH 174.5±7.8 cm vs mean adult height of 162.5±5.4 cm for males with NS) at final height. Moreover, 60% reached a mid-parental height of±1 SD.

Conclusion: GH treatment improves final height in patients with Noonan syndrome, with a mean gain of 1.7 SDS. The prepubertal height gain is maintained to final height and the children achieve a height close to their mid-parental height.