Molecular defects in achondroplasia and the effects of growth hormone treatment

Achondroplasia is a common skeletal dysplasia with severe growth retardation. Recently, mutations in the fibroblast growth factor receptor 3 (FGFR3) were identified in patients with achondroplasia. In the present study, 70 of 75 Japanese patients with achondroplasia were found to have a G1138A mutation in FGFR3, and two patients had a G1138C mutation. Growth hormone therapy was given to 145 patients with achondroplasia. Significant dose-dependent effects on skeletal growth were obtained, with no long-term adverse effects.     

Molecular defects in achondroplasia and the effects of growth hormone treatment

Seino Y, Moriwake T, Tanaka H, Inoue M, Kanzaki S, Tanaka T, Matsuo N, Niimi H. Molecular defects in achondroplasia and the effects of growth hormone treatment. Acta Pa; diatr 1999; Suppl 428: 118–20. Stockholm. ISSN 0803–5326
Achondroplasia is a common skeletal dysplasia with severe growth retardation. Recently, mutations in the fibroblast growth factor receptor 3 (FGFR3) were identified in patients with achondroplasia. In the present study, 70 of 75 Japanese patients with achondroplasia were found to have a G1138A mutation in FGFR3, and two patients had a G1138C mutation. Growth hormone therapy was given to 145 patients with achondroplasia. Significant dose-dependent effects on skeletal growth were obtained, with no long-term adverse effects. □ Achondroplasia, fibroblast growth factor receptor, growth hormone therapy, growth, skeletal dysplasia     

Robinow syndrome with growth hormone deficiency: treatment with growth hormone.

We describe a 5 years and nine months old boy who presented with facial features, vertebral anomalies and dwarfism consistent with Robinow syndrome. Investigations revealed growth hormone (GH) deficiency to be the cause of his dwarfism. We reviewed data on four other patients with Robinow syndrome from the Genentech National Cooperative Growth Study (NCGS). Results of GH testing on three out of four were available and showed GH deficiency. Recombinant human GH therapy in our patient and the three patients from the NCGS resulted in a significant increase in the growth rate per year. The cause of dwarfism in children with Robinow syndrome has hitherto not been studied. We propose its association with GH deficiency and that treatment with rhGH can result in a significant increase in the growth rate of these children.     

Treatment of constitutional delay of growth and puberty with oxandrolone compared with growth hormone.

The effects of oxandrolone or biosynthetic human growth hormone (r-hGH) on the growth of 26 boys with constitutional delay of growth and puberty were studied. Both regimens increased growth rate twofold, oxandrolone to a greater extent than r-hGH. We conclude that oxandrolone is a more effective method of increasing growth rate in such children.     

Growth hormone therapy for 3 years: The OZGROW experience

Objective : To examine the growth response over 3 years of growth hormone deficient (GHD) and non-GHD children who have received growth hormone (GH) in Australia.
Methodology : A retrospective study of a group of patients (1362 children) who commenced GH prior to 1 September 1990. Data were collected at 12 growth centres located in major cities throughout Australia. The data were transferred after informed consent to the national OZGROW database located at the Royal Alexandra Hospital for Children, Sydney, NSW. Of the 1362 children, 898 had received 3 years or more GH therapy and were eligible for this analysis. This cohort was then categorized by diagnosis. Growth response was assessed using height standard deviation score, estimated mature height, growth velocity (GV), GH dose and bone age (years).
Results : For children who completed 3 years therapy, the baseline characteristics among diagnostic groups were similar with mean height standard deviation score (SDS) less than – 3 SDS (except for the malignancy group) and mean GV ranging from 3.5 to 4.4 cm/year. The GV during the first year improved in all groups (7.7-9.4 cm/year) followed by an attenuated response during the second and third years of therapy. After 3 years GH therapy the GHD group with peak levels <10 mU/L demonstrated the greatest change in estimated mature height and height SDS. The GHD group with peak levels between £10 but <20 mU/L had a growth response similar to the non-GHD children for all outcome parameters. Change in bone age ranged from 3.1 to 3.8 years with no differences being noted between the diagnostic groups, nor consistently with pubertal status.
Conclusions : Australian GH guidelines have targeted very short children when compared to other series. This large cohort of non-GHD children has demonstrated short-term benefits of GH therapy; however, the long-term benefit remains unclear until these children reach final adult height.     

Treatment of children with Down syndrome and growth retardation with recombinant human growth hormone.

The effect of recombinant human growth hormone on children with Down syndrome who had growth retardation and microcephaly was examined. Thirteen children with trisomy 21 without congenital heart disease who were short for age (-1.19 to -3.5 standard deviation score) and microcephalic (-1.58 to -6.60 standard deviation score) were given recombinant human growth hormone, 0.1 mg/kg subcutaneously, 3 days a week for 1 year. Before treatment, peak serum growth hormone concentrations were less than 10 micrograms/L after levodopa and clonidine stimulation tests in five patients, after clonidine in three patients, and after levodopa in three patients. Three patients had nocturnal integrated growth hormone concentrations of 0.5, 1.5 and 0.65 micrograms/L, respectively. The mean growth rate before treatment was 5.4 +/- 1.6 cm/yr and increased to 12.2 +/- 3.2 cm/yr (p less than 0.001) after 12 months of recombinant human growth hormone treatment. The mean head circumference standard deviation score before treatment was -3.1 +/- 1.3 and increased to -2.3 +/- 1.2 (p less than 0.001) at 12 months. Bone age before and 1 year after treatment increased in correspondence with chronologic age. Plasma hemoglobin A1c concentration was normal during treatment with recombinant human growth hormone. The mean plasma concentrations of insulin-like growth factor I at baseline and at 12 months were 0.54 +/- 0.19 U/ml and 1.25 +/- 0.97 U/ml, respectively (p less than 0.02). We conclude that recombinant human growth hormone therapy can result in a significant increase in annual growth rate and head circumference in children with Down syndrome, without significant side effects.     

Two years of growth hormone treatment in the first growth hormone deficient patient with cerebrofaciothoracic dysplasia

We recently reported two siblings, a sister and a brother, with intrauterine growth retardation, microcephaly, short stature, mental retardation, facial dysmorphism and multiple costovertebral malformations. These features fit most with the diagnosis of cerebrofaciothoracic dysplasia, or Pascual-Castroviejo syndrome. The second sibling, our index patient, presented also with cleft palate and growth hormone (GH) deficiency, suggesting that endocrinological assessment should be performed in short patients with this syndrome, especially if midline defects are present. We present the results of 2 years GH treatment of this first GH deficient patient with cerebrofaciothoracic syndrome and compare the results to those observed in other genetic syndromes with GH deficiency.     

Final height of growth hormone-treated patients with growth hormone deficiency: the North American experience

The results of treatment of growth hormone (GH)-deficient patients with recombinant GH are better than the results of treatment with pituitary GH. The reasons for this improvement include higher dosages, more consistent treatment, and daily administration. Under ideal circumstances, final height in patients with GH deficiency (GHD) can be within the normal range for adult height with GH treatment, and brought close to their target height. To achieve this result, it is important to diagnose and treat GHD early, use adequate doses of GH, and continue treatment until final height.     

Final height of growth hormone-treated patients with growth hormone deficiency: the North American experience

Hintz RL. Final height of growth hormone-treated patients with growth hormone deficiency: the North American experience. Acta Pædiatr 1999; Suppl 428: 70–1. Stockholm. ISSN 0803–5326
The results of treatment of growth hormone (GH)-deficient patients with recombinant GH are better than the results of treatment with pituitary GH. The reasons for this improvement include higher dosages, more consistent treatment, and daily administration. Under ideal circumstances, final height in patients with GH deficiency (GHD) can be within the normal range for adult height with GH treatment, and brought close to their target height. To achieve this result, it is important to diagnose and treat GHD early, use adequate doses of GH, and continue treatment until final height. □ Growth hormone, growth hormone deficiency, final height     

Rheumatoid arthritis and growth retardation in children: Treatment with human growth hormone

Twenty patients with rheumatoid arthritis or Still's disease associated with growth failure were treated with human growth hormone, 7.5 to 17 U/m² body surface per week.Five patients did not respond with better growth. In the remainder the mean growth rate increased from 1.9 cm/year (range: 0 to 3.3) to 6.2 cm/year (range: 3.6 to 12) over 5 to 7 months. Twelve patients treated for longer periods increased their mean growth rate from 2.3 cm/year (range: 0.7 to 5.7) to 6.3 cm/year (range: 2.4 to 9.7) and continued to grow during a second year of treatment. Growth velocity decreased in 6 patients when the hGH therapy was discontinued.The causes for this improvement in growth are possibly multifactorial: the growth rate is depressed by the severity of the disease and high-dose glucocorticoid therapy. Increases of growth rate occured during improvements in the disease, reduction of steroid medication, as a result of therapy with human growth hormone, and because of puberty in some patients.Human growth hormone seemed to improve the underlying condition of four of the patients but had no influence on the disease in the remaining children.On the occasion of the 75th birthday of Prof. Dr. Dr. h. c. Adolf Butenandt     

Treatment of short stature in renal disease with recombinant human growth hormone.

Six prepubertal children with chronic renal failure (group 1), six prepubertal children with renal transplants (group 2), and six pubertal children with renal transplants (group 3) who were short (mean height SD score, -3.2, range -4.5 to -1.6) and growing poorly (mean (range) growth velocity (cm/year) over the year before treatment: group 1, 4.8 (3.5-5.8), group 2, 2.3 (0.9-4.7), and group 3, 3.2 (0.5-6.5] were treated with recombinant human growth hormone 30 units/m2/week in daily doses for a median of 0.98 years (range 0.25-0.99). Mean (range) growth velocity over the treatment period increased significantly in all groups (group 1, 10.7 (8.8-12.3), group 2, 6.1 (2.7-10.8), and group 3, 6.0 (4.6-6.8]. There was, however, no improvement in height SD score for bone age in any group. The renal function of two children deteriorated after starting treatment with growth hormone, but it was not possible to say whether the growth hormone was responsible for this. The long term effects of treatment and its influence on final height are not yet known.     

Growth hormone treatment in 35 prepubertal children with achondroplasia: a five-year dose-response trial

BACKGROUND: Achondroplasia is a skeletal dysplasia with extreme, disproportionate, short stature. AIM: In a 5-y growth hormone (GH) treatment study including 1 y without treatment, we investigated growth and body proportion response in 35 children with achondroplasia. METHODS: Patients were randomized to either 0.1 IU/kg (n = 18) or 0.2 IU/kg (n = 17) per day. GH treatment was interrupted for 12 mo after 2 y of treatment in prepubertal patients to study catch-down growth. Mean height SDS (HSDS) at start was -5.6 and -5.2 for the low- and high-dose groups, respectively, and mean age 7.3 and 6.6 y. RESULTS: Mean growth velocity (baseline 4.5/4.6 cm/y for the groups) increased significantly by 1.9/3.6 cm/y during the first year and by 0.5/1.5 cm/y during the second year. During the third year, a decrease of growth velocity was observed at 1.9/1.3 cm/y below baseline values. HSDS increased significantly by 0.6/0.8 during the first year of treatment and in total by 1.3/1.6 during the 5 y of study. Sitting height SDS improved significantly from -2.1/-1.7 to -0.8/0.2 during the study. Body proportion (sitting height/total height) or arm span did not show any significant change. CONCLUSION: GH treatment of children with achondroplasia improves height during 4 y of therapy without adverse effect on trunk-leg disproportion. The short-term effect is comparable to that reported in Turner and Noonan syndrome and in idiopathic short stature.     

Fifteen years of experience with bacterial meningitis.

BACKGROUND: Introduction of Haemophilus influenzae type b (Hib) vaccines has dramatically altered the epidemiology of bacterial meningitis in children. The goal of this study was to describe these changes in a pediatric teaching hospital. METHODS: Patient charts at Children's Hospital and Regional Medical Center, Seattle, were identified by diagnosis codes and reviewed retrospectively. The 1981 to 1995 time period was chosen to incorporate three distinct 5-year periods: before the use of unconjugated Hib vaccine; between the unconjugated and conjugate vaccines; and after the conjugate vaccines were available for routine immunization of infants. RESULTS: Bacterial meningitis was identified in 806 cases. In 13 premature infant cases Escherichia coli was most frequently isolated (6 cases). Group B Streptococcus, E. coli and Listeria monocytogenes were the most common pathogens in 87 neonatal cases. The most common pathogens in 706 cases of childhood meningitis were H. influenzae, Streptococcus pneumoniae and Neisseria meningitidis. H. influenzae was the most common pathogen in the first two time periods (73 and 69% of childhood cases, respectively), but not so in the third period (16%). CONCLUSIONS: A changing pattern in childhood meningitis was observed during the study period. H. influenzae cases dramatically declined, altering the relative proportions of other pathogens, S. pneumoniae and N. meningitidis. However, the number of cases caused by these latter pathogens remained steady.     

Changes in body composition and energy expenditure after six weeks' growth hormone treatment.

Changes in body composition and energy expenditure were assessed in 15 children after six weeks of human growth hormone (hGH) treatment. Body composition measurements were made by stable isotope labelled water (H2(18)O) dilution, bioelectrical impedance, and skinfold thickness techniques. Energy expenditure was assessed both by indirect ventilated hood calorimetry (resting energy expenditure) and the stable isotope doubly labelled water (2H2(18)O) technique (free living daily total energy expenditure). Mean increases in weight of 0.96 kg and fat free mass of 1.37 kg and a mean decrease in fat mass of 0.41 kg were observed. Significant increases both in resting energy expenditure and free living daily energy expenditure were detected. Absolute changes in fat mass and resting energy expenditure were correlated. The data suggest (i) that the increase in the fat free mass is the most significant early clinical measure of hGH response and (ii) that hGH increases the metabolic activity of the fat free mass. Monitoring such changes may be predictive of the efficacy of hGH in promoting growth.     

Effects of 5 years growth hormone treatment in patients with Prader-Willi syndrome

BACKGROUND: Short-term studies showed favorable effects of growth hormone (GH) treatment in patients with Prader-Willi syndrome (PWS). AIMS: To evaluate the long-term effects of GH therapy in patients with PWS retrospectively. PATIENTS AND METHODS: Effects of GH treatment (0.5 IU/kg/w s.c.) for a period of 1 to 5 years were assessed for 37 Japanese patients with PWS aged 3-(9/12) to 21-(3/12) years. Height and weight were expressed as standard deviation scores (SDSs) of Japanese PWS patients. Height velocity, final height, body mass index (BMI) and Rohrer index were also evaluated. RESULTS: After 1 year of treatment, the mean height velocity improved significantly from 4.32 to 8.69 cm per year (p < 00001). After 5 years of treatment, mean height SDS increased from -0.99 to +0.88 (p = 0.003). Mean final height of treated patients was 158.0 cm in males and 147.7 cm in females. Mean Rohrer index improved from 182 to 164 (p < 0.0001) after 1 year of treatment and stayed stable thereafter. CONCLUSIONS: Long-term treatment with GH in patients with PWS improved height velocity, height SDS, final height, and the degree of obesity. These data encourage the long-term use of GH in these patients.     

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.