A multicentre trial of recombinant growth hormone and low dose oestrogen in Turner syndrome: near final height analysis

BACKGROUND—Turner syndrome accounts for 15-20% of childhood usage of growth hormone (GH) in the UK but final height benefit remains uncertain. The most effective strategy for oestrogen replacement is also unclear.METHODS—Fifty eight girls who, at start of treatment, were of mean age 9.1 years and projected final height 142.2 cm were randomised to receive in year 1, either low dose ethinyloestradiol 50-75 ng/kg/day, GH 28 IU/m² surface area/week as a daily injection, or a combination of ethinyloestradiol and GH. After the first year, the ethinyloestradiol treated girls received combination treatment. After two years, girls aged over 12 years were given escalating ethinyloestradiol to promote pubertal development.RESULTS—Near final height was available for 49 girls at age 16.5 years, 146.8 cm, representing a gain of 4.6 cm, range ?7.9 to +11.7 cm. Twelve of the 49 girls gaining 7.5 cm or more were less than 13 years at the start and had received GH for at least four years. Height gain was correlated with greater initial height deficit. Fifteen girls (31%) reached 150 cm or more compared to a predicted 10%. Early supplementation with ethinyloestradiol provided no final height advantage.CONCLUSIONS—Final height gain was modest at 4.6 cm. Younger, shorter girls gained greatest height advantage from GH. Low dosage ethinyloestradiol before planned induction of puberty was not beneficial.     

Final height in girls with Turner's syndrome treated with once or twice daily growth hormone injections. Dutch Advisory Group on Growth Hormone.

OBJECTIVES: To study final height in girls with Turner's syndrome treated with once or twice daily injections of growth hormone (GH) in combination with low dose ethinyl oestradiol. DESIGN: Until final height was reached, the effect of fractionated subcutaneous injections given twice daily was compared with once daily injections of a total GH dose of 6 IU/m2/day. Twice daily injections were given as one third in the morning and two thirds at bedtime. All girls concurrently received low dose oestradiol (0.05 microgram ethinyl oestradiol/kg/day, increased to 0.10 microgram/kg/day after 2.25 years). PATIENTS: Nineteen girls with Turner's syndrome aged > or = 11 years (mean (SD) 13.6 (1.7) years). MEASUREMENTS: To determine final height gain, we assessed the difference between the attained final height and the final height predictions at the start of treatment. These final height predictions were calculated using the Bayley-Pinneau (BP) prediction method, the modified projected adult height (mPAH), the modified index of potential height (mIPHRUS), and the Turner's specific prediction method (PTSRUS). RESULTS: The gain in final height (mean (SD)) was not significantly different between the once daily and the twice daily regimens (7.6 (2.3) v 5.1 (3.2) cm). All girls exceeded their adult height prediction (range, 1.6-12.3 cm). Thirteen of the 19 girls had a final height gain > 5.0 cm. Mean (SD) attained final height was 155.5 (5.4) cm. A "younger bone age" at baseline and a higher increase in height standard deviation score for chronological age (Dutch-Swedish-Danish references) in the first year of GH treatment predicted a higher final height gain after GH treatment. CONCLUSIONS: Division of the total daily GH dose (6 IU/m2/day) into two thirds in the evening and one third in the morning is not advantageous over the once daily GH regimen with respect to final height gain. Treatment with a GH dose of 6 IU/m2/day in combination with low dose oestrogens can result in a significant increase in adult height in girls with Turner's syndrome, even if they start GH treatment at a relatively late age.     

Growth hormone treatment regimens in girls with Turner syndrome. Dutch Advisory Group on Growth Hormone

To optimize growth hormone (GH) treatment in girls with Turner syndrome, two multicentre studies were carried out in The Netherlands: a frequency-response study (study 1) and a dose-response study (study 2). In study 1, 19 girls with Turner syndrome, aged 11 years or older, were treated with one or two daily injections of GH at a total dose of 6 IU/m2/day (0.067 mg/kg/day) and ethinyloestradiol given orally at a dose of 0.05 microg/kg/day. All the girls reached final height. The mean (+/-SD) gain in final height was not significantly different between the once- or twice-daily regimens (7.6 +/- 2.3 versus 5.1 +/- 3.2 cm, respectively). The mean final height attained was 155.5 +/- 5.4 cm. All the girls exceeded their adult height prediction. In study 2, 68 girls with Turner syndrome, aged 2-11 years, were randomized into three dosage groups: A, B and C. During the first year, the girls in all the groups received GH at a dose of 4 IU/m2/day (0.045 mg/kg/day), which group A continued to receive throughout the study. At the start of the second year, groups B and C were switched to a dose of 6 IU/m2/day, which the girls in group B continued to receive for the remainder of the study. At the start of the third year, the girls in group C were switched to a dose of 8 IU/m2/day (0.090 mg/kg/day) for the remainder of the study. After 7 years of GH treatment, height SDS (based on Turner syndrome and normal population references) increased significantly in all three groups, but significantly more in groups B and C compared with group A (p = 0.02 and p = 0.001, respectively). Predicted adult height increased significantly, without a significant difference between the three dosage groups. The mean final heights of 25 of the girls were 159.1, 161.8 and 162.7 cm for groups A, B and C, respectively.     

Growth hormone treatment regimens in girls with Turner syndrome

To optimize growth hormone (GH) treatment in girls with Turner syndrome, two multicentre studies were carried out in The Netherlands: a frequency-response study (study 2) and a dose-response study (study 2). In study 1, 19 girls with Turner syndrome, aged 11 years or older, were treated with one or two daily injections of GH at a total dose of IU/m²/day (0.067 mg/kg/day) and ethinyloestradiol given orally at a dose of 0.05 μg/kg/day. All the girls reached final height. The mean (±SD) gain in final height was not significantly different between the once- or twice-daily regimens (7.6 ± 2.3 versus 5.1 ± 3.2 cm, respectively). The mean final height attained was 155.5 ± 5.4 cm. All the girls exceeded their adult height prediction. In study 2, 68 girls with Turner syndrome, aged 2-11 years, were randomized into three dosage groups: A, B and C. During the first year, the girls in all the groups received GH at a dose of 4 IU/m²/day (0.045 mg/kg/day), which group A continued to receive throughout the study. At the start of the second year groups B and C were switched to a dose of 6 IU/m²/day, which the girls in group B continued to receive for the reminder of the study. At the start of the third year, the girls in group C were switched to a dose of 8 IU/m²/day (0.090 mg/kg/day) for the remainder of the study. After 7 years of GH treatment, height SDS (based on Turner syndrome and normal population references) increased significantly in all three groups, but significantly more in groups B and C compared with group A ( p = 0.02 and p =0.001, respectively). Predicted adult height increased significantly, without a significant difference between the three groups. The mean final heights of 25 of the girls were 159.1, 161.8 and 162.7 cm for groups A, B and C, respectively.     

A decade of growth hormone treatment in girls with Turner syndrome in the UK. UK KIGS Executive Group.

Fifteen per cent of children treated with growth hormone (GH) are receiving treatment for Turner syndrome, but few results are available on final height in the UK. In this study, data were obtained from the UK KIGS database for 485 girls with Turner syndrome who were treated from 1986, allowing an audit of practice and outcome over 10 years. Over the decade, the mean age of starting growth hormone treatment fell from 10.4 to 8.5 years and the starting dose increased from 0.55 to 0.95 IU/kg/week. The frequency of injections increased from three to six or seven/week. Some girls received suboptimal doses, which also differed depending on whether they were based on weight or surface area. To assess what height gain might be expected at final height, all 52 girls who were prepubertal at the start of treatment, which continued for four years or more, and who had reached final height or had a growth velocity < 2 cm/year were selected. Their mean gain in final height was 5.2 cm and the GH dose was 0.78 IU/kg/week over 5.8 years. Final height gain correlated significantly with duration of treatment, total dose received, and first year response, which itself related to starting dose. This audit shows a changing pattern of treatment over the past decade, which in many instances has been inadequate. When treatment starts before puberty and continues through to final height, with a dose of 30 IU/m2/week in six or seven injections, a mean increase in final height of 5 cm or more would be expected.     

When and how to combine growth hormone with a luteinizing hormone-releasing hormone analogue

The effect of combined treatment with growth hormone (GH) and a luteinizing hormone-releasing hormone (LHRH) analogue, or GH alone, on pubertal height gain was assessed in an uncontrolled study in 15 boys and 10 girls with GH deficiency (GHD). Seven boys and six girls were treated with GH alone (group 1), and eight boys and four girls were treated with a combination of GH and an LHRH analogue during puberty (group 2). Mean ages (+/- SD) at the start of GH treatment and at the onset of puberty were significantly lower in group 2 (8.0 +/- 3.3 years and 11.2 +/- 0.8 years, respectively, in boys, and 6.3 +/- 1.6 years and 10.8 +/- 0.7 years in girls) than in group 1 (12.8 +/- 1.9 years and 13.7 +/- 1.4 years in boys, and 11.2 +/- 1.0 years and 12.5 +/- 1.2 years in girls). Height at the onset of puberty was less in group 2 than in group 1, but the difference was significant only for the boys. Combination treatment was started at a mean age of 11.7 +/- 1.2 years in boys and 11.5 +/- 1.0 years in girls. The duration of the combination treatment was 5.1 +/- 1.5 years in boys and 2.3 +/- 0.7 years in girls. The duration of the period between the onset of puberty and the end of GH treatment was significantly longer in group 2 (6.8 +/- 1.2 years in boys and 5.5 +/- 1.0 years in girls) than in group 1 (4.3 +/- 1.6 years in boys and 3.6 +/- 1.4 years in girls). The pubertal height gain was also significantly greater in group 2 (36.7 +/- 6.5 cm in boys and 29.0 +/- 8.3 cm in girls) than in group 1 (21.9 +/- 4.1 cm in boys and 18.6 +/- 4.1 cm in girls). Final height was significantly greater in group 2 than in group 1 in boys. Although there was no significant difference in final height between groups in the girls, the change in height SDS from the start of GH treatment until final height was significantly greater in group 2 (2.7 +/- 1.6 in boys and 4.5 +/- 0.5 SD in girls) than in group 1 (1.0 +/- 0.8 in boys and 1.8 +/- 0.9 SD in girls), in both boys and girls. In conclusion, it appears that combination of an LHRH analogue and GH may increase the pubertal height gain and the final height of children with GHD. The improvement is attributed to the prolongation of the treatment period, permitting slow bone maturation, and to the maintenance of height velocity. This combination treatment appears to be more effective in boys than girls. To fully assess this therapeutic approach, prospective controlled studies are needed.     

Final height in girls with Turner's syndrome treated with once or twice daily growth hormone injections

OBJECTIVES—To study final height in girls with Turner''s syndrome treated with once or twice daily injections of growth hormone (GH) in combination with low dose ethinyl oestradiol.
DESIGN—Until final height was reached, the effect of fractionated subcutaneous injections given twice daily was compared with once daily injections of a total GH dose of 6 IU/m²/day. Twice daily injections were given as one third in the morning and two thirds at bedtime. All girls concurrently received low dose oestradiol (0.05 µg ethinyl oestradiol/kg/day, increased to 0.10 µg/kg/day after 2.25years).
PATIENTS—Nineteen girls with Turner''s syndrome aged ⩾ 11 years (mean (SD) 13.6 (1.7) years).
MEASUREMENTS—To determine final height gain, we assessed the difference between the attained final height and the final height predictions at the start of treatment. These final height predictions were calculated using the Bayley-Pinneau (BP) prediction method, the modified projected adult height (mPAH), the modified index of potential height (mIPH_RUS), and the Turner''s specific prediction method (PTS_RUS).
RESULTS—The gain in final height (mean (SD)) was not significantly different between the once daily and the twice daily regimens (7.6(2.3) v 5.1 (3.2) cm). All girls exceeded their adult height prediction (range, 1.6-12.3 cm). Thirteen of the 19 girls had a final height gain > 5.0 cm. Mean (SD) attained final height was 155.5 (5.4) cm. A "younger bone age" at baseline and a higher increase in height standard deviation score for chronological age (Dutch-Swedish-Danish references) in the first year of GH treatment predicted a higher final height gain after GH treatment.
CONCLUSIONS—Division of the total daily GH dose (6 IU/m²/day) into two thirds in the evening and one third in the morning is not advantageous over the once daily GH regimen with respect to final height gain. Treatment with a GH dose of 6 IU/m²/day in combination with low dose oestrogens can result in a significant increase in adult height in girls with Turner''s syndrome, even if they start GH treatment at a relatively late age.

     

A decade of growth hormone treatment in girls with Turner syndrome in the UK

Fifteen per cent of children treated with growth hormone (GH) are receiving treatment for Turner syndrome, but few results are available on final height in the UK. In this study, data were obtained from the UK KIGS database for 485 girls with Turner syndrome who were treated from 1986, allowing an audit of practice and outcome over 10 years. Over the decade, the mean age of starting growth hormone treatment fell from 10.4 to 8.5 years and the starting dose increased from 0.55 to 0.95 IU/kg/week. The frequency of injections increased from three to six or seven/week. Some girls received suboptimal doses, which also differed depending on whether they were based on weight or surface area. To assess what height gain might be expected at final height, all 52 girls who were prepubertal at the start of treatment, which continued for four years or more, and who had reached final height or had a growth velocity < 2 cm/year were selected. Their mean gain in final height was 5.2 cm and the GH dose was 0.78 IU/kg/week over 5.8 years. Final height gain correlated significantly with duration of treatment, total dose received, and first year response, which itself related to starting dose. This audit shows a changing pattern of treatment over the past decade, which in many instances has been inadequate. When treatment starts before puberty and continues through to final height, with a dose of 30 IU/m²/week in six or seven injections, a mean increase in final height of 5 cm or more would be expected.

     

Reduction of body height in tall girls by estrogen treatment]

Twenty-six girls with constitutional tall stature were treated with 0.5 mg ethinyloestradiol daily po and 10 mg norethisteronacetate from day 21 to 25 of the cycle for 1.4 +/- 0.4 years. Height, weight, bone age according to Greulich-Pyle (GP) and Tanner (RUS), height predictions according to Bayley Pinneau (BP) and Tanner Whitehouse (TW) were recorded at the onset of therapy, at the end of treatment and 7.4 years later. The mean chronological age at start of treatment was 12.6 +/- 1.1 years, bone age (GP) 12.4 +/- 0.7 years, (RUS) 13.5 +/- 0.7 years. The initial height prediction according to BP was 186.2 +/- 4.1 cm, which was 3.5 cm higher than the prognosis according to Tanner Whitehouse. Depending on the method used for height prediction, the height reduction by treatment was 4.6 +/- 3.0 cm (BP) or 1.4 +/- 2.2 cm (TW), respectively. The reduction of predicted height was more pronounced in girls with a bone age (GP) < 12.5 years at the initiation of therapy (n = 13), than in girls with a bone age > or = 12.5 years (n = 13). Final height was measured 7.4 years after the end of treatment. Chronological age: 21.3 +/- 3.7 years, final height 181.8 +/- 3.7 cm. Mean final height after therapy was 7.7 cm above target height, or, after allowance for the secular trend, 3.8 cm above target height. Body weight, recorded in centiles of body mass index, increased from the 38.5 +/- 26 to the 58.1 +/- 22 centile, weight gain was more pronounced in younger girls. At follow up investigation 18/19 girls, who answered a questionnaire, had a positive view of the previous treatment.     

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.     

Final height after combined growth hormone and GnRH analogue treatment in adopted girls with early puberty

Background: Girls adopted from developing countries often have early or precocious puberty, requiring treatment with gonadotrophin-releasing hormone (GnRH) analogues. During such treatment, decreased growth velocity is frequent. Aim: To study whether the addition of growth hormone (GH) to GnRH analogue treatment improves final height in girls with early or precocious puberty. Methods: Forty-six girls with early or precocious puberty (age ≤9.5 y) adopted from developing countries were randomized for treatment for 2-4 y with GnRH analogue, or with a combination of GH and GnRH analogue. Results: During treatment, the mean growth velocity in the GH/GnRH analogue group was significantly higher compared to the control group. Combined GH/GnRH analogue treatment resulted in a higher final height: 158.9 cm compared to 155.8 cm in the GnRH analogue-treated group. Three out of 24 girls (13%) in the combined group and nine of the 22 girls (41%) treated with GnRH analogue alone attained a final height below -2 standard deviation scores (SDS).

Conclusion: The difference between the two groups is statistically significant, and possibly of clinical importance. A future challenge is to identify a subgroup with clinically significant advantage of GH addition to GnRH analogue treatment. Being very short on arrival in Sweden and being short and young at start of treatment are possible indicators.     

Effects of combined gonadotropin-releasing hormone agonist and growth hormone therapy on adult height in precocious puberty: a further contribution

Out of 35 girls with idiopathic central precocious puberty (CPP) treated with gonadotropin-releasing hormone agonist (GnRHa) (depot-triptorelin) at a dose of 100 microg/kg every 21 days i.m. for at least 2-3 years whose growth velocity fell below the 25th percentile for chronological age (CA), 17 received growth hormone (GH) in addition at a dose of 0.3 mg/kg/week, s.c., 6 days per week, for 2-4 years. The other 18, matched for bone age (BA), CA and duration of GnRHa treatment, who showed the same growth pattern but refused GH treatment, remained on GnRHa alone, and were used as a control group to evaluate GH efficacy. No patient was GH deficient. Both groups discontinued treatment at a comparable BA (mean +/- SD): BA 13.4 +/- 0.6 in GnRHa plus GH group vs 13.0 +/- 0.5 years in the GnRHa alone group. The 35 patients have reached adult height (i.e. growth during the preceding year was less than 1 cm, with a BA of over 15 years). Patients of the group treated with GH plus GnRHa showed an adult height (161.2 +/- 4.8 cm) significantly higher (p < 0.001) than pre-treatment predicted adult height (PAH) calculated according to tables either for accelerated girls (153.2 +/- 5.0 cm) or for average girls (148.6 +/- 4.3 cm). The adult height of the GnRH alone treated group (156.6 +/- 5.7) was not significantly higher than pre-treatment PAH if calculated on Bayley and Pinneau tables for accelerated girls (153.9 +/- 3.8 cm), whilst it remained significantly higher if calculated on tables for average girls (149.6 +/- 4.0 cm) (p < 0.001). The gain between pre-treatment PAH and final height was 8.2 +/- 4.8 cm according to tables for accelerated girls and 12.7 +/- 4.8 cm according to tables for average girls in patients treated with GH plus GnRHa; while in patients treated with GnRH alone the gain calculated between pre-treatment PAH for accelerated girls was just 2.3 +/- 2.9 cm and 7.1 +/- 2.7 cm greater than pre-treatment PAH for average girls. The difference between the gain obtained in the two groups (about 6 cm) remained the same, however PAH was calculated. The addition of GH to GnRHa in a larger cohort of patients with CPP with a longer follow-up confirms the safety of the combined treatment and the still significant but more variable gain in the group with the combined treatment, probably due to the larger number of patients analyzed. Caution is advised in using such an invasive and expensive treatment, and there is need for further studies before widespread clinical use outside a research setting.     

Final height outcome in girls with Turner syndrome treated with a combination of low dose oestrogen and oxandrolone

Final stature in girls with Turner syndrome treated with combination of low dose oestrogen and oxandrolone. Nineteen prepubertal girls with Turner syndrome (mean age 10.9 years, range, 8.9–14.2 years) were randomly assigned to receive either oxandrolone (0.05 mg/kg/day) or ethinyloestradiol (40 ng/kg/day) for 1 year. Subsequently the alternate therapy was added and the combination given until attainment of final height. Ethinyloestradiol was gradually increased at the age of 12.5 years in order to induce secondary sexual characteristics. The duration of treatment was a mean of 5.2 years (range, 3–7 years) when the 1st year of monotherapy was included. Therapy produced a sustained acceleration in growth rate for a duration of 4 years and eventually has resulted in an increment of mean adult height of 3 cm relative to pre-treatment projected height with mean values of 146.5 cm versus 143.5 cm respectively. The moderate side-effects observed did not cause any of the girls to discontinue treatment. Nevertheless, amelioration of adult height appears to be modest, notably in comparison to published data of growth hormone treatment and 4 girls had a decrease in final height prediction. Conclusion Combination of low dose of oxandrolone and oestrogen may have a moderate but positive impact on final height in girls with Turner syndrome. However, some girls do worse than predicted in term of final height using this regimen. Oestrogen therapy started at low dose around the age of 10 years and increased gradually at approximately 12.5 years to induce secondary sexual characteristics does not have a deleterious effect on adult height in Turner syndrome. In summary, low dose oxandrolone-oestrogen treatment was found to accelerate the tempo of growth in girls with Turner syndrome, but did not appear to have a consistent effect on final height. Received: 22 July 1996 / Accepted: 22 October 1996     

Height reduction in 539 tall girls treated with three different dosages of ethinyloestradiol.

During the period 1970 to 1985, 539 constitutionally tall girls were treated with ethinyloestradiol in varying dosages to reduce final height. They all had a predicted final height above 181 cm (greater than +2.5 SD). The girls were all healthy and were treated with three different dosages of ethinyloestradiol. Throughout these 15 years recommended treatment regimens changed, and the treatments described followed these guidelines. Girls in group 1 (n = 263) were treated with 0.5 mg of ethinyloestradiol, group 2 (n = 178) with 0.25 mg, and group 3 (n = 98) with 0.1 mg. The total mean (SEM) reduction of final height was 5.9 (0.2), 5.3 (0.1), and 4.4 (0.2) cm when treated with 0.5, 0.25, and 0.1 mg respectively. Group 1 was treated for 2.02 (0.03) years and group 2 and 3 for 1.85 (0.04) and 1.63 (0.05) years respectively. When expressed in relation to the treatment period the reduction of final height was 3.0 (0.1), 3.1 (0.1), and 2.9 (0.2) cm/year of treatment respectively. All the girls were treated with ethinyloestradiol as a daily single dose, while progestogen was given daily the first 10 days of every month. In conclusion we found that a daily dose of ethinyloestradiol 0.1 mg for about 20 months is sufficient to reduce final height. We recommend starting treatment at a bone age of about 12 years.     

High dose growth hormone treatment induces acceleration of skeletal maturation and an earlier onset of puberty in children with idiopathic short stature.

BACKGROUND: Long term growth hormone (GH) treatment in children with idiopathic short stature (ISS) results in a relatively small mean gain in final height of 3-9 cm, which may not justify the cost of treatment. As it is unknown whether GH treatment during puberty adds to final height gain, we sought to improve the cost-benefit ratio, employing a study design with high dose GH treatment restricted to the prepubertal period. AIMS: To assess the effect of short term, high dose GH treatment before puberty on growth, bone maturation, and pubertal onset. METHODS: Five year results of a randomised controlled study are reported. Twenty six boys and nine girls were randomly assigned to a GH treatment group (n = 17) or a control group (n = 18). Inclusion criteria were: no signs of puberty, height less than -2 SDS, age 4-8 years for girls or 4-10 years for boys, GH concentration >10 micro g/l after provocation, and normal body proportions. To assess GH responsiveness, children assigned to the GH treatment group received GH treatment for two periods of three months (1.5 IU/m2/day and 3.0 IU/m2/day), separated by three month washout periods, during the first year of study. High dose GH treatment (6.0 IU/m2/day) was then started and continued for at least two full years. When puberty occurred, GH treatment was discontinued at the end of a complete year's treatment (for example, three or four years of GH treatment). RESULTS: In response to at least two years on high dose GH treatment, mean (SD) height SDS for chronological age increased significantly in GH treated children from -2.6 (0.5) to -1.3 (0.5) after two years and -1.4 (0.5) SDS after five years of study. No changes in height SDS were observed in controls. A rapid rate of bone maturation of 3.6 years/2 years in treated children compared to 2 years/2 years in controls was observed in response to two years high dose GH treatment. Height SDS for bone age was not significantly different between groups during the study period. GH treated children entered into puberty at a significantly earlier age compared to controls. CONCLUSIONS: High dose GH treatment before puberty accelerates bone age and induces an earlier onset of puberty. This may limit the potential therapeutic benefit of this regimen in ISS.     

Favorable final height outcome in girls with Ullrich-Turner syndrome treated with low-dose growth hormone together with oxandrolone despite starting treatment after 10 years of age

The objective of this study was to find out whether moderate doses of growth hormone (GH) in combination with oxandrolone (Ox) and late initiation of puberty could improve adult height even in relatively old patients with Ullrich-Turner syndrome (UTS). Ninety-one patients with UTS were randomly assigned to receive either GH alone (Saizen, Ares-Serono, Geneva) 18 IU/m2/week (0.2 mg/kg/week) by daily s.c. injections (group GH) or a combination of GH and Ox 0.1 mg/kg/day p.o. (group GH + Ox). Prior to treatment mean age was 10.2 years (GH) and 10.5 years (GH + Ox), mean projected adult height (PAH) was 146.4 cm (GH) and 146.7 cm (GH + Ox). During year 2 the GH dose was increased in the GH group to 24 and later to 28 IU/m2/week (0.27 mg and later 0.31 mg/kg/week). In group GH + Ox, the Ox dose was reduced to 0.05 mg/kg/day after the first 12 months of therapy, and during the last treatment years the GH dose was raised to 24-28 IU/m2/week (0.27-0.31 mg/kg/week) due to declining growth promotion. Some of the patients of group GH were later given Ox in addition to GH because of waning growth velocity, whereas some of the patients of group GH + Ox were taken off Ox due to virilizing side-effects of the high Ox dose, thus making up a third group of patients: group GH + transient Ox. Puberty was induced at a mean age of 14.9 years. In group GH + Ox, cumulative growth during 5 years of therapy was twice the growth anticipated from standards of untreated patients with UTS. Forty-seven patients are now near or at final height: in group GH (n = 7), mean final height was 151.7 cm (PAH 148.1 cm, gain 3.6 cm); in group GH + Ox (n = 15), 155.1 cm (PAH 147.2 cm, gain 7.9 cm); and in group GH + transient Ox (n = 25), 152.8 cm (PAH 146.4 cm, gain 6.4 cm). These results should be regarded as an underestimate of true final height since some the patients are still growing. Moderate doses of GH plus Ox and late induction of puberty definitely improved final height even in patients with UTS treated relatively late.     

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.     

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.     

Growth response, pubertal growth and final height in Greek children with growth hormone (GH) deficiency on long-term GH therapy and factors affecting outcome

The growth data of 156 children (100 boys, 56 girls) with growth hormone deficiency (GHD), treated with human growth hormone (GH) for 5.7+/-3.7 years, from 1970-1997, were retrospectively analyzed to assess the efficacy of GH treatment and the factors involved. 62.2% of the studied population had idiopathic GHD (IGHD) and 35.2% had organic GHD (OGHD). At initiation of treatment, chronological age (CA) was 10.1+/-4.0 years in children with IGHD and 9.7+/-4.0 years in those with OGHD, while bone age (BA) was 7.0+/-3.7 and 7.7+/-3.2 years, respectively. The SDS of the growth velocity during the first year of therapy (GV1) was negatively related to CA at start of therapy (r = -0.53, p = 0.01). 109 children have reached final height (FH): 67 boys (FH = 165.3+/-6.3 cm) and 42 girls (FH = 153.9+/-5.4 cm). FH SDS was not significantly different from target height (TH) SDS. In the total group, FH SDS was positively related to height SDS for CA and BA at start of therapy (p = 0.01, p = 0.001, respectively), to TH SDS (r = 0.40, p = 0.001), and to GV1 (r = 0.33, p = 0.001). TH SDS was not different between the IGHD and OGHD groups (-1.02+/-0.8 vs. -0.94+/-6.9). The height gain at puberty did not differ between the groups with induced or spontaneous puberty in boys (23.7+/-8.6 vs. 25.4+/-6.9, not significant), while in girls it was higher in the group with spontaneous puberty (12.7+/-7.3 vs. 20.0+/-9.0, p = 0.008). The age and height at start of puberty was higher in girls and boys with induced puberty. In the total group, the FH SDS of children with induced puberty was higher in comparison with those with spontaneous puberty (-1.0+/-0.8 vs. -1.7+/-0.9, p = 0.001) and it was positively related to the height at start of puberty. When the two sexes were analyzed separately, the difference reached significance only in boys. In conclusion, children with GHD on GH treatment achieved a final height which was comparable to their genetic potential. The FH of children with OGHD was not different from those with IGHD. The age and height at start of puberty were the most significant determining factors for FH. Hence, a better FH might be expected by delaying or arresting puberty.     

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.