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

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

Two-year results of treatment with methionyl human growth hormone in children with Turner syndrome. Dutch Growth Hormone Working Group

Methionyl growth hormone (somatrem) in a daily dosage of 4 IU/m2 body surface area was administered to 16 girls with Turner syndrome. Low dose ethinyl estradiol (0.1 microgram/kg body weight) was added in girls aged 13 years or more. Mean (SD) height velocity increased from 3.4 (0.9) to 7.2 (1.7) and 5.3 (1.3) cm/year in the first and second year, respectively. Bone age advanced 1.8 years over 2 years and predicted adult height was increased. Apart from the occurrence of anti-GH antibodies there were no side effects. In conclusion, somatrem is an efficacious and safe therapy for short stature in Turner syndrome over a period of 2 years. Longer follow-up is needed before conclusions about its effect on final height can be drawn.     

Immunologic studies in Turner syndrome before and during treatment with growth hormone. The Dutch Growth Hormone Working Group

Immunologic studies of 14 girls with Turner syndrome were done before and during treatment with biosynthetic growth hormone (GH). Compared with control subjects, the patients before treatment had a decreased CD4/CD8 ratio and an increased number of cells bearing the natural killer cell marker CD16; serum immunoglobulin levels were within the normal range. During GH treatment some of the girls had a slight reduction in the percentage of CD20+ B cells, but we observed no impairment of B lymphocyte function as demonstrated by the normal in vivo antibody response to the primary antigen Helix Pomatia hemocyanin, administered 6 months after the start of GH treatment. The number of CD16+ natural killer cells returned to normal. Although the number of children with thyroid antibodies increased from two before treatment to five after 1 year, no conclusion about an adverse effect of GH is warranted, because the phenomenon might be part of the natural course of the disease. We conclude that girls with Turner syndrome have minor changes in some immunologic measurements and that GH treatment resulted in some alterations that have no effect on immune function.     

Adult height in children with idiopathic short stature treated with growth hormone

Idiopathic short stature (ISS) includes a heterogeneous group of patients with common characteristics to those of familial short stature and constitutional delay. Some authors state that these children can often respond to GH treatment, thus increasing their adult height. The aims of this study were to determine the effect of GH treatment (0.5-0.7 IU/kg/week) and the influence of some initial variables on adult height in patients with ISS. It was a non-randomized, observational study of 30 boys with ISS and a historical control group of 42 patients. The patients were followed until achieving their adult height. The mean height gain of the treated group attributable to GH was 4.5 cm. A stepwise regression model considering predicted adult height and target height as independent variables and final height as dependent variable gave an R2 coefficient of 0.38. We conclude that GH significantly increases final height in boys with ISS.     

Comparative effect of two doses of growth hormone for growth hormone deficiency. The Dutch Growth Hormone Working Group.

The comparative effect and safety of 2 IU compared with 4 IU/m2/day of recombinant human growth hormone (rhGH) was studied in 38 growth hormone deficient children regarding the impact of several factors on short term (one year) and long term (three year) growth response. In 21 newly diagnosed patients, three years of rhGH treatment resulted in a significant increase of height velocity SD score, height SD score, and predicted adult height SD score, irrespective of rhGH dose. In 17 transfer patients (previously treated with 12 IU rhGH/m2/week) 4 IU/m2/day resulted in a significantly higher height velocity SD score and height SD score for chronological age than 2 IU/m2/day, while more of them reached their target range or showed a substantial height SD score increment. Height SD score for bone age and predicted adult height SD score only increased significantly with 4 IU rhGH. After one year of rhGH treatment, new patients showed significant negative correlation between delta height SD score with age and baseline insulin-like growth factor I (IGF-I) SD score, and positive correlation with rhGH dose. After three years of treatment, delta height SD score for chronological age was significantly, negatively correlated with age and baseline 'corrected' height SD score (height SD score for chronological age minus target height SD score). There was no significant correlation with rhGH dose. Prolonged treatment with either dose had no adverse effect on IGF-I concentrations, carbohydrate or lipid metabolism. As early age and divergence between height SD score and target height SD score seem more important for growth response than rhGH dose, it is recommended that treatment starts early with 2 IU rhGH/m(2)/day and the dose is doubled if growth is insufficient after several years of treatment.     

Long-term treatment with growth hormone of children with short stature and normal growth hormone secretion.

Children with short stature but normal growth rate and/or normal growth hormone response to sleep and secretagogues were treated with recombinant methionyl human growth hormone, 0.3 mg/kg per week. In each year of treatment, about 80% of the subjects maintained an increase in growth rate greater than the defined limit (greater than 1 cm/yr above pretreatment growth rate) for continuation of human growth hormone treatment. Comparison of the group that continued to respond to human growth hormone with the group that did not maintain an accelerated growth rate did not reveal differences in bone age delay, sleep or secretagogue-stimulated human growth hormone secretion, degree of short stature either absolute or relative to target height, and somatomedin C concentration before or after initiation of therapy. The group that failed to respond to the human growth hormone treatment in the first year of treatment was younger and had a higher pretreatment growth rate. Review of the longitudinal growth curves revealed five patterns of response to human growth hormone treatment: (1) failure to increase growth rate in two subjects with height SD scores within 1 SD of target height, (2) failure to increase growth rate in five subjects with height SD scores greater than 1 SD less than the target height, (3) acceleration in growth rate in three subjects that was not maintained until achievement of a height within 1 SD of the target height, (4) acceleration of growth rate in five subjects that was maintained until achievement of a height within 1 SD of the target height, and (5) acceleration in growth rate that was maintained during the 3 years of treatment in 15 subjects who had not attained a height within 1 SD of the target height. We conclude that human growth hormone treatment of some but not all short children with "normal" growth hormone secretion will result in sustained acceleration of growth rate and attainment of prepubertal heights that are closer to but do not exceed their genetic height potential. A clinical trial of human growth hormone may be necessary to determine which subjects will benefit from the treatment.     

人生长激素同型异构体比例变化与特发性矮小症的相关性

人生长激素(human growth hormone,hGH)是出生后促进生长的主要激素,生长激素在调节生长的许多方面都起作用,生长激素缺乏会引起生长激素缺乏性矮小(growth hormone deficiency,GHD),但特发性矮小症患儿(idiopathic short stature,ISS)并不存在生长激素(GH)缺乏[1],其发病机制一直是研究的热点,有研究认为hGH同型异构体(humangrowth hormone isoforms,hGHI)比例的变化可能是ISS的发病机制之一[2,3],hGH有多种同型异构体,在垂体、胎盘和外周血中均存在,各种hGHI单体型的22kDa!hGHI含量最丰富,20kDa!hGHI含量次之,它们在结构上有…     

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.     

Spontaneous growth in idiopathic short stature. European Study Group

Documenting the spontaneous growth pattern of children with idiopathic short stature (ISS) should be helpful in evaluating the effects of growth promoting treatments. Growth curves for children with ISS were constructed, based on 229 untreated children (145 boys and 84 girls) from nine European countries. The children were subdivided according to target range and onset of puberty, and the growth of these subgroups was evaluated from standard deviation scores (SDS). At birth, children with ISS were already shorter than normal (means; boys -0.8 SDS, girls -1.3 SDS). Height slowly decreased from -1.7 SDS at the age of 2 years to -2.7 SDS at the age of 16 years in boys and 13 years in girls. Final height was -1.5 SDS in boys and -1.6 SDS in girls (mean (SD): boys 164.8 (6.1) cm, girls 152.7 (5.3) cm)), which was 5-6 cm below their target height. The onset of puberty was delayed (boys 13.8 (1.3) years, girls 12.9 (1.1) years). Subclassification resulted in similar growth curves. These specific growth data may be more suitable for evaluating the effects of growth promoting treatments than population based references.     

Once versus twice daily injections of growth hormone in children with idiopathic short stature

The aim of this study was to compare the growth response of 22 short pre-pubertal children without growth hormone deficiency, treated with a single daily growth hormone injection (group A), to the growth response of 27 similar children, treated with the same daily dose divided into 2 subcutaneous injections per day (group B), for 1 y, in a randomized study. GH treatment significantly promoted growth parameters, height standard deviation score and height velocity standard deviation score in both groups. Serum insulin-like growth factor I was also increased. There were no significant differences in growth response, serum IGF-I levels, or the advance in bone age between the two study groups after 1 y of GH therapy. We conclude that twice daily s.c. growth hormone injections provide no advantages over once daily injection of the same dose in promoting the linear growth of short children without growth hormone deficiency.     

基因重组生长激素治疗青春期前特发性矮小疗效观察

目的探讨基因重组人生长激素（rhGH）对青春期前特发性矮小（ISS）的疗效。方法观察27例青春期前特发性矮小患儿,平均年龄（8.9±2.0）岁,身高（118.0±10.6）cm。治疗组13例,男10例,女3例,均接受基因重组人生长激素治疗,剂量（0.12±0.01）IU/kg,睡前皮下注射,疗程6个月至1年;对照组14例,男6例,女8例。结果治疗组患儿生长速率（GV）由治疗前（4.28±0.86）cm/a提高到（9.38±1.77）cm/a,P〈0.01;年龄身高标准差积分（HtSDSCA）由-2.28±0.48增至-1.72±0.62（P〈0.01）;骨龄身高标准差积分（HtS-DSBA）由-0.24±1.02增至0.27±0.99（P〈0.05）;与对照组比较,GV、HtSDS（CA）和HtSDS（BA）差异均有统计学意义（P均〈0.05）;两组△BA/△CA比较差异无统计学意义（P均〉0.05）。结论GH治疗能改善ISS儿童的GV及HtSDS（CA）、HtSDS（BA）,而骨龄（BA）加速不明显,疗效肯定。     

重组人生长激素治疗青春后期特发性矮小的疗效观察

No abstract available

     

Growth hormone secretion following administration of growth hormone releasing hormone in constitutional short stature and idiopathic growth hormone deficiency

A stimulation test using 1 microgram growth-hormone-releasing factor (GRF 1-29 X NH2)/kg bodyweight was performed in children with familial short stature and in children with constitutional delay of growth and development. The GH secretion induced by this means was not different in these groups, but there was a difference in the response between normal children and children with idiopathic growth hormone deficiency (GHD). GH secretion after GRF administration was significantly lower in the GHD group than in the other groups. However, 6 of 24 patients with GHD responded to the test with a normal increase in GH (greater than 10 ng/ml), and 11 with an intermediate response (2-10 ng/ml). Thus, the test does not differentiate individual patients with defective growth hormone secretion from normal short children.     

Spontaneous growth in idiopathic short stature. European Study Group.

Documenting the spontaneous growth pattern of children with idiopathic short stature (ISS) should be helpful in evaluating the effects of growth promoting treatments. Growth curves for children with ISS were constructed, based on 229 untreated children (145 boys and 84 girls) from nine European countries. The children were subdivided according to target range and onset of puberty, and the growth of these subgroups was evaluated from standard deviation scores (SDS). At birth, children with ISS were already shorter than normal (means; boys -0.8 SDS, girls -1.3 SDS). Height slowly decreased from -1.7 SDS at the age of 2 years to -2.7 SDS at the age of 16 years in boys and 13 years in girls. Final height was -1.5 SDS in boys and -1.6 SDS in girls (mean (SD): boys 164.8 (6.1) cm, girls 152.7 (5.3) cm)), which was 5-6 cm below their target height. The onset of puberty was delayed (boys 13.8 (1.3) years, girls 12.9 (1.1) years). Subclassification resulted in similar growth curves. These specific growth data may be more suitable for evaluating the effects of growth promoting treatments than population based references.     

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

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

Growth hormone secretory patterns in children with short stature

To assess whether growth-retarded children with a stimulated growth hormone (GH) level greater than 10 ng/mL have an abnormality in spontaneous GH secretion, we measured GH levels every half hour for 24 hours in 50 children 2.7 to 17 years of age. Growth rate was subnormal in all. Mean 24-hour GH concentration ranged from 1.2 to 7.7 ng/mL, and was significantly greater in pubertal than in prepubertal children (P less than 0.01). In both groups, GH concentration during sleep was significantly greater than during wakeful hours (P less than 0.0005); 24-hour GH concentration correlated significantly with sleep-induced GH peak. A decrease in 24-hour GH concentration and sleep-induced GH peak were noted in four pubertal children with stimulated GH less than 15 ng/mL. A progressive and significant increase in somatomedin C (SmC) level was noted with increasing age and sexual development. No correlations were found between 24-hour GH concentration and rate of growth, age, or bone age. Serum SmC values correlated significantly with age and bone age (P less than 0.01), and with 24-hour GH concentration only in prepubertal children (P less than 0.05). A strong correlation between SmC and growth rate was noted only in pubertal children (P less than 0.01). Growth velocity increased significantly during GH therapy regardless of the 24-hour GH concentration. Our results indicate that in children with growth retardation there is a wide variation in 24-hour GH concentration and a significant increase in GH concentration during puberty; the GH concentration during nocturnal sleep, rather than an entire 24-hour GH concentration, can be used for evaluation; during puberty the SmC level reflects sexual development more than GH reserve; and GH therapy appears to increase growth velocity in both non-GH-deficient and partially GH-deficient short children.     

特发性矮小患儿生长激素-胰岛素样生长因子轴变化的研究

目的 观察特发性矮小(ISS)患儿血中生长激素(GH)、胰岛素样生长因子-l(IGF-1)、胰岛素样生长因子结合蛋白-3(IGFBP-3)及生长激素结合蛋白(GHBP)水平的变化.方法 2002年6月至2006年5月在中南大学湘雅二医院儿科就诊的37例ISS患儿为病例组,37例年龄性别相匹配的正常儿童为对照组.采用放射免疫分析法(RIA)测定血清GH,免疫放射计量法(IRMA)测定血清IGF-1及IGFBP-3,葡聚糖覆盖炭末吸附法(DCT)检测血清GHBP.结果 ISS组血清GHBP、IGF-1、IGFBP-3均明显低于对照组(均P＜0.01),而血清GH基础值在ISS组明显高于时照组(P＜0.05).结论 ISS患儿血中IGF-1和IGFBP-3降低可能是其矮小的原因之一.ISS患儿血中反映生长激素受体(GHR)水平的GHBP降低,而GH基础值升高,提示可能存在因GHR缺陷导致的GH不敏感.