Adult height in advanced puberty with or without gonadotropin hormone releasing hormone analog treatment

Advanced puberty is defined as the onset of puberty in girls at 8-10 years of age and in boys at 9-11 years. This study analyzes adult height in 57 children with advanced puberty to evaluate the results of treating children (9 girls and 8 boys) with gonadotropin hormone releasing hormone (GnRH) analog and the impact of advanced puberty on adult height in untreated children (31 girls and 9 boys). For treated girls, adult height predicted at the onset of treatment (151.9+/-1.7 cm) was similar to the final adult height (155.3+/-1.4 cm), but lower than target height (157.2+/-1.6 cm, p = 0.04). For untreated girls, adult height predicted at the initial evaluation (156.7+/-1 cm) was also similar to adult height (157+/-1 cm), but lower than the target height (157.6+/-1 cm, p = 0.03). The adult heights of both treated and untreated girls were similar to their target heights. For treated boys, adult height predicted at the onset of treatment (173.2+/-3.1 cm) was greater than the final adult height (164.1+/-2.1 cm, p = 0.01), which was lower than target height (170.4+/-1.2 cm, p = 0.01). For untreated boys, adult height predicted at the initial evaluation (170.8+/-2.7 cm) was similar to both the adult height (169.1+/-1.9 cm) and target height (170.2+/-1.2 cm). Height gains between the onset of puberty and adult height were similar in treated (29.9+/-2.3 cm in girls and 29.8+/-1.7 cm in boys) and untreated (28.6+/-1 and 33.1+/-2 cm) children. When expressed as SD, the adult height was significantly shorter than that at 4 years in treated girls (difference 1 SD, p = 0.03), in untreated girls (difference 0.9 SD, p = 0.0002) and in treated boys (difference 0.9 SD, p = 0.02), but it was similar to that in untreated boys. Adult height was below target height by >5 cm in seven girls (two of them treated) and five boys (four of them treated). In conclusion, treating advanced puberty did not change the adult height reached by girls, and was associated with reduced growth potential in boys. The adult heights of untreated children were similar to those predicted at the initial evaluation and to target heights, but in girls they were 1 SD lower than the height at 4 years. These data suggest that advanced puberty decreases the growth potential by about 5 cm, and that GnRH analog treatment does not prevent this.     

Anabolic steroid and gonadotropin releasing hormone analog combined treatment increased pubertal height gain and adult height in two children who entered puberty with short stature

We studied the effect of gonadal suppression treatment in combination with anabolic steroid on pubertal height gain and adult height in two children who entered puberty with short stature. Patient 1 was a female with idiopathic short stature. She received combined treatment with an anabolic steroid (stanozolol) and a gonadotropin releasing hormone analog (leuprorelin acetate). Her pubertal height gain was 28.5 cm, which is greater than that in normal height girls (20-25 cm). Patient 2 was a male with Aarskog syndrome. Although his growth hormone (GH) secretion was normal, he received GH treatment. Since GH administration did not accelerate his growth, he received combined treatment with stanozolol and leuprorelin acetate. His pubertal height gain was 27.0 cm, which is greater than that observed in GH deficient boys treated with GH alone (21.9 cm). Combined treatment with stanozolol and leuprorelin acetate appears to be effective in increasing pubertal height gain and adult height in children who enter puberty with short stature.     

Height prognosis of children with true precocious puberty and growth hormone deficiency: effect of combination therapy with gonadotropin releasing hormone agonist and growth hormone.

We evaluated height prognosis and therapeutic efficacy of long-term, combination therapy with gonadotropin releasing-hormone agonist and growth hormone (GH) in five children (three girls) with coexistent precocious puberty and GH deficiency. Their clinical characteristics and growth response were compared with those of 12 girls with idiopathic true precocious puberty and eight prepubertal GH-deficient children (one girl). Precocious GH-deficient subjects were older than the precocious GH-sufficient children (9.5 +/- 1.8 years vs 6.5 +/- 1.3 years; mean +/- SD), but bone ages were comparable (12 +/- 3.7 years vs 10 +/- 0.9 years); their chronologic age was similar to that of the prepubertal GH-deficient children (9.6 +/- 2.1 years), but bone age was significantly more advanced (6.9 +/- 2.3 years). The mean height velocity of the prepubertal GH-deficient children (3.8 +/- 1.5 cm/yr) was lower than that of the precocious GH-deficient subjects (6.7 +/- 1.6 cm/yr) and the precocious GH-sufficient children (9.5 +/- 2.9 cm/yr). Baseline adult height prediction z scores were significantly lower in the precocious GH-deficient children (-3.7 +/- 1.0) than in either the precocious GH-sufficient children (-2.2 +/- 1.0) or the prepubertal GH-deficient subjects (-1.5 +/- 0.8). During therapy with gonadotropin releasing-hormone agonist, growth rates slowed to an average of 3.7 cm/yr in the precocious GH-deficient children but increased after the addition of GH to 7.4 cm during the first year of combination therapy. After 2 to 3 years of combination therapy, height predictions increased an average of 10 cm, compared with an increase of 2.8 cm in the precocious GH-sufficient group treated with gonadotropin releasing-hormone agonist alone. We conclude that combination treatment with gonadotropin releasing-hormone agonist and GH improves the height prognosis of children with coexistent true precocious puberty and GH deficiency, but falls short of achieving normal adult height potential.     

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.     

Treatment of central precocious puberty with an LHRH analog. Effect on growth and bone maturation after 2 years of treatment

Eighteen children (15 girls and 3 boys) with true precocious puberty have been treated with an LHRH analogue (HOE 766, Buserelin suprefact) given subcutaneously during one (n = 11) or two (n = 7) years. Six of 18 children had organic precocious puberty, but their responses to therapy did not show any difference. A satisfactory suppression was achieved in 16 cases with plasma testosterone below 0.5 ng/ml (boys) or estradiol below 25 pg/ml and vaginal maturation index below 35 (girls). The mean annual height gain diminished from 9.5 +/- 0.8 cm during the control year to 7.7 +/- 0.7 cm and 5.1 +/- 0.7 cm during the first and second years of therapy respectively (p less than 0.05). Simultaneously, the mean bone age of 10.4 +/- 0.4 yr at onset of treatment, was 11.4 +/- 0.4 yr after one year and 11.8 +/- 0.3 yr after two years. These changes explain an average increase of predicted height of 5.7 cm after two years of treatment with the LHRH analogue. At least on the basis of these data with two years follow-up, this treatment seems satisfactory. We did not find anti-Buserelin antibodies in any of these patients.     

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.     

Longitudinal study of the pubertal growth spurt in children born small for gestational age without postnatal catch-up growth

Most children born small for gestational age (SGA) experience extensive catch-up growth during the first months of life (87%) and by the age of 2 years only 13% are below -2 SDS for height. The long-term outcome, including pubertal growth spurt, of the subset of children born SGA without postnatal catch-up (SGAWPC) has been evaluated in very few surveys, and in none of them was the landmarks of puberty well described. Thus, a longitudinal study was conducted in these children throughout puberty since this is the only reliable way to accurately evaluate the pubertal growth spurt. In an observational, retrospective and multicenter collaborative study, from an initial group of 553 SGA children, a subset of 15 boys (BW = 2,070 +/- 379.6 g) and 16 girls (BW = 2,244 +/- 331.1 g) SGAWPC whose data were recorded regularly during puberty were selected. Growth standards for growth and maturity during puberty were Tanner and Whitehouse and Spanish Hernandez and Sobradillo charts. In pubertal growth spurt, 'take-off' occurred later than in the reference populations with a height SDS deficiency of -2.3 and -2.2 for boys and -2.0 and -1.9 for girls, compared with Spanish and Tanner references, respectively. Peak height velocity was normal in chronology and intensity, but the total pubertal gain was smaller. However, considering their growth from the same chronological age at which the reference populations took off until adulthood, the total gain was not significantly different in the three cohorts (32.5 +/- 5.4 cm vs 30.9 +/- 4.4 in boys, and 23.3 +/- 4.1 vs 25.7 +/- 5.4 cm in girls - Spanish reference - and 27.2 +/- 6.3 vs 27.6 +/- 3.5 cm in boys - Tanner charts), except in the case of girls (21.1 +/- 3.9 vs 25.3 +/- 4.1 cm, p <0.005 - Tanner charts). Adult height was significantly reduced (161.9 +/- 3.9 cm in males and 147.0 +/- 2.6 cm in females). Therefore, although the pubertal growth was smaller in these children, puberty probably did not modify their short final height.     

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.     

Randomised trial of LHRH analogue treatment on final height in girls with onset of puberty aged 7.5-8.5 years.

OBJECTIVE: To study the effectiveness of luteinising hormone releasing hormone (LHRH) analogues in improving final height in girls affected by early puberty. PATIENTS: Forty six consecutive girls with onset of puberty aged 7.5-8.5 years randomly divided into two groups: one treated with 3.75 mg triptorelin intramuscularly every four weeks (group 1); and the other with no treatment (group 2). RESULTS: Mean (SD) chronological age at onset of menarche was significantly higher in group 1 than in group 2 (11.9 (1.0) v 10.8 (0.7) years). However, mean (SD) height at menarche (152.7 (7.2) v 152.5 (5.7) cm) and mean (SD) growth after menarche (4.9 (3.0) v 5.4 (2.2) cm) were similar in both groups. The mean (SD) final height was similar in the two groups (group 1, 158.1 (6.2) cm; group 2, 158. 6 (6.0) cm) and not significantly different from target height. Fourteen of 20 patients in group 1 and 12 of 18 patients in group 2 showed final height equal to or higher than target height. Final heights of girls with poor initial height prognosis were significantly lower than those of girls with good prognosis, but in patients with the same initial height prognosis, both groups showed final heights similar and not significantly different from their target heights. CONCLUSIONS: LHRH analogue has no apparent effect on final height in subjects with onset of puberty between 7.5 and 8.5 years.     

Growth and sexual maturation in children after kidney transplantation

Linear growth and sexual maturation were assessed in 68 long-term pediatric renal allograft recipients (43 boys) receiving daily or alternate-day prednisone therapy. Growth was analyzed both during the prepubertal period and during puberty. Height at transplantation was greater than 2 SD below the mean in 34.2% of prepubertal children. After the first posttransplant year, 59.2% of the prepubertal children had a normal height increment (greater than 4.8 cm/yr). Onset of puberty was recorded at a chronologic age of 14.6 +/- 1.9 years in boys and 13.3 +/- 1.9 years in girls. Height at onset of puberty related to chronologic age was -2.4 +/- 1.3 SD. Height velocity during puberty was within normal limits in 62.5% of the children. No significant difference in pubertal growth was detected in patients who had received transplants before and after the onset of puberty. Duration of pubertal development was within normal limits. In girls, menarche was achieved at a mean chronologic age of 15.9 years and bone age 12.9 years. Adult height was attained at an average age of 20.3 years in boys and 18.7 years in girls. Overall, one third of the children attained an adult height greater than 2 SD below the mean. Our data indicate that although poor growth before kidney transplantation has a great influence on adult height, the loss of growth potential during pubertal development seems even more important.     

Combined therapy with GnRH analog plus growth hormone in central precocious puberty

GnRH analogues (GnRHa) arrest pubertal development, and slow growth velocity (GV) and bone maturation, thus improving adult height in central precocious puberty (CPP). In some patients, however, GV decreases to such an extent that it compromises the improvement in predicted adult height (PAH) and therefore the addition of GH is suggested. Of 20 patients with idiopathic CPP (treated with GnRHa [depot-triptorelin] at a dose of 100 microg/kg every 21 days i.m. for at least 2-3 yr) whose GV fell below the 25th percentile for chronological age (CA), ten received, in addition to the GnRHa, GH at a dose of 0.3 mg/kg/wk, s.c. 6 days weekly, for 2-4 yr. Ten patients matched for BA, CA, and duration of GnRHa treatment who showed the same growth pattern but refused GH treatment, served to evaluate the efficacy of the addition of GH. No patient showed classical GH deficiency. Both groups discontinued treatment at a comparable BA (mean +/- SEM): 13.2 +/- 0.2 yr in GnRHa + GH vs 13.0 +/- 0.1 yr in the control group. At the conclusion of the study all the patients had achieved adult height. Adult height was considered to be attained when the growth during the preceding year was less than 1 cm, with a BA of over 15 yr. Patients of the group treated with GH + GnRHa showed an adult height significantly higher (p<0.001) than pretreatment PAH (160.6 +/- 1.3 vs 152.7 +/- 1.7 cm). Height SDS for BA significantly increased from -1.5 +/- 0.2 at start of GnRHa to -0.21 +/- 0.2 at adult height (p<0.001). Target height was significantly exceeded. The GnRH alone treated group reached an adult height not significantly higher than pretreatment PAH (157.1 +/- 2.5 vs 155.5 +/- 1.9 cm). Height SDS for BA did not change (from -1.0 +/- 0.3 at start of GnRHa to -0.7 +/- 0.4 at adult height). Target height was just reached but not significantly exceeded. The gain in centimeters obtained calculated between pretreatment PAH and final height was 7.9 +/- 1.1 cm in patients treated with GH combined with GnRH analogue while in patients treated with GnRH analogue alone the gain was just 1.6 cm +/- 1.2 (p=0.001). Furthermore, no side effects, bone age progression, or ovarian cysts, were observed in GnRHa + GH treated patients. In conclusion, a gain of 7.9 cm in adult height represents a significant improvement which justifies the addition of GH for 2-3 yr to conventional treatment with GnRH analogues in patients with central precocious puberty, and with a decrease in growth velocity so marked as to impair predicted adult height to below the third percentile.     

Randomised trial of LHRH analogue treatment on final height in girls with onset of puberty aged 7.5-8.5 years

OBJECTIVE—To study the effectiveness of luteinising hormone releasing hormone (LHRH) analogues in improving final height in girls affected by early puberty.PATIENTS—Forty six consecutive girls with onset of puberty aged 7.5-8.5 years randomly divided into two groups: one treated with 3.75 mg triptorelin intramuscularly every four weeks (group 1); and the other with no treatment (group 2).RESULTS—Mean (SD) chronological age at onset of menarche was significantly higher in group 1 than in group 2 (11.9 (1.0) v 10.8 (0.7) years). However, mean (SD) height at menarche (152.7 (7.2) v 152.5(5.7) cm) and mean (SD) growth after menarche (4.9 (3.0) v 5.4(2.2) cm) were similar in both groups. The mean (SD) final height was similar in the two groups (group 1, 158.1 (6.2) cm; group 2, 158.6 (6.0) cm) and not significantly different from target height. Fourteen of 20 patients in group 1 and 12 of 18 patients in group 2 showed final height equal to or higher than target height. Final heights of girls with poor initial height prognosis were significantly lower than those of girls with good prognosis, but in patients with the same initial height prognosis, both groups showed final heights similar and not significantly different from their target heights.CONCLUSIONS—LHRH analogue has no apparent effect on final height in subjects with onset of puberty between 7.5 and 8.5years.     

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/m(2) 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 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.     

Efficacy of combined treatment with growth hormone and gonadotropin releasing hormone analogue in children with poor prognosis of adult height

OBJECTIVE: This study was conducted to study the role of combination therapy of growth hormone and Gonadotropin-releasing hormone (GnRH) analogues in girls with idiopathic central precocious puberty (CPP) or idiopathic short stature (ISS). METHODS: Five girls with CPP (median age 9.1 y, pubertal stage 2-3) (3 of them previously treated with GnRH analogue (GnRHa) for 16.2 +/- 0.3 months) and 8 girls with ISS (median age 11.4 y, pubertal stage 2-3) (previously treated with GH for 10.95 +/- 1.42 months), were treated with recombinant human GH (0.33 mg/kg/week) and GnRHa (3.75 mg/28 days) for 22 months. RESULTS: Height of girls with CPP improved from - 1.3 to - 0.2 SDS and height for BA from - 2.1 to - 0.6 SDS (P = 0.042). Predicted adult height (PAH) improved from - 3.1 to - 0.6 SDS (P = 0.042). In girls with ISS only PAH improved from - 3.0 to - 1.5 SDS (P = 0.025). CONCLUSION: Combined treatment improves height and PAH in CPP. Height in ISS is also improved however not significantly.     

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.     

Use of growth hormone and gonadotropin releasing hormone agonist in addition to L-thyroxine to attain normal adult height in two patients with severe Hashimoto's thyroiditis

AIM: We report two patients with severe acquired juvenile hypothyroidism who presented with compromised predicted adult height (PAH), and the successful use of growth hormone (GH) and gonadotropin releasing hormone agonist (GnRHa) in addition to L-thyroxine to attain normal adult height. PATIENTS AND RESULTS: Patient 1: 13 year-old girl who presented with pubertal delay, short stature (height SDS -4), and marked bone age retardation (BA 8 yr). Serum T4 was undetectable and TSH level was 1,139 mIU/l. After 1 year of treatment with L-thyroxine, growth rate improved from 1.0 cm/yr to 9.8 cm/yr but puberty progressed (Tanner 3 breast) and BA accelerated by 4 years, compromising predicted adult height (PAH) (144 cm vs mid-parental target height [MTH] of 163 cm). Combined use of GH and GnRHa for one year slowed BA progression, and catch-up growth (10.4 cm/yr) continued to attain a final height (FH) of 155 cm. Patient 2: 14 year-old boy with undetectable T4, TSH of 811 mIU/l in mid-puberty with poor growth rate (1.0 cm/yr), without any bone age delay (BA 14 years) but compromised PAH (163.8 cm vs MTH 174 cm). Because of the advanced puberty and poor growth rate, treatment with GH and GnRHa was initiated. Treatment for 2 years led to improvement of growth velocity (10.6 cm/yr), slowed BA progression to attain a FH equal to MTH. CONCLUSION: Combined use of GH and GnRHa improved the FH of two patients, with Hashimoto's thyroiditis: one with pubertal and bone age delay and the other with normal onset of puberty and normal bone age.     

Management of Growth Hormone Deficiency Through Puberty

ABSTRACT. As a model of the growth hormone (GH) dependence of growth in prepuberty and puberty, the growth of 182 children (93 boys, 89 girls) who survived in first remission for treatment of acute lymphoblastic leukaemia was examined. Chemotherapy regimens, including intrathecal methotrexate, were similar in all patients, but CNS treatment differed, in that one group received 2400 cGy cranial irradiation, while the other received 1800 cGy. There was a significant decrease in height SDS during prepuberty, which was equivalent in both sexes, whereas there was a much greater decrease in pubertal growth in girls than in boys. Girls treated with the lower dose regimen of cranial irradiation had their onset of pubertal maturation significantly advanced, to a mean of 9.9 years ( p < 0.001). Previous studies have indicated that the duration of puberty is shortened by GH treatment in patients with idiopathic multiple pituitary hormone deficiency or isolated GH deficiency (GHD). To determine whether an increase in the dose of GH administered during the adolescent growth spurt would improve final height, a prospective randomized trial was performed in 32 children (25 boys, 7 girls) with isolated GHD treated with a GH dose regimen of 15 IU/m²/week as daily s.c. injections. At the onset of the pubertal growth spurt, the patients were randomized either to an unchanged dose or to 30 IU/m²/week. There was no significant change in height velocity with the doubled dose of GH, but there was a trend in the advancement of pubertal maturation which was considered to be dose related. It is suggested that these findings are of relevance to the treatment of GHD in puberty, especially in girls with early or precocious puberty occurring as a consequence of low-dose cranial irradiation. It is concluded that optimum final heights may not be achieved in these patients without the therapeutic manipulation of the onset and/or duration of puberty.     

Pubertal growth in chronic renal failure

We evaluated the growth records of 15 boys and 14 girls who developed end-stage renal failure before or during puberty and who were regularly followed from the onset to the end of their pubertal growth spurt. Height data were smoothed by using the kernel estimation method. Mean values for age, height, and height velocity at defined points of the pubertal growth period were compared with those of normal children entering puberty both at an average and late age. The start of the pubertal growth spurt was delayed by 2.5 y in both sexes. Its duration and intensity were significantly reduced. Mean pubertal height gain was 17.3 cm in boys and 13.9 cm in girls, i.e. 58 and 48% of that observed in the late maturing control group. Mean height at the onset of the pubertal spurt in the patients was the same as that in the late maturing healthy girls and 1.0 SD below that of corresponding boys. During the pubertal growth spurt, mean height declined to -2.9 SD in boys and -2.3 SD in girls. Although skeletal maturation was increasingly retarded, we did not observe accelerated growth velocity during late puberty. Our data indicate that most patients reaching end-stage renal failure before or during puberty irreversibly lose growth potential during this period. Renal transplantation did not consistently improve pubertal growth.     

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.