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.     

The effect of growth hormone on growth and blood urea levels in children with chronic renal failure

It has been claimed that low protein diets slow deterioration of chronic renal failure (CRF) by reducing renal solute load. The anabolic effect of recombinant human growth hormone (rhGH) also has potential to reduce renal solute load and thereby slow progression of renal failure. The aim of this study was to determine the effect of rhGH on growth, renal solute load and renal function in children with CRF.
Seven prepubertal children, aged 2-14 years, with moderately severe CRF (creatinine clearance 7.7-23.4 mL/min per 1.73 m²) were treated with daily subcutaneous rhGH, 1 U/kg per week for 10-12 months. As expected, mean height velocity standard deviation scores (SDS) increased, from - 2.87 before treatment to + 3.39 on rhGH, and mean height increased from - 3.1 to - 2.4 SDS. Serum urea concentrations decreased in most patients during the first month of growth hormone treatment from a mean of 20.0pm7.7 mmol/L to 14.8pm5.8 mmol/L ( P = 0.006). The serum urea then returned to pretreatment levels over the next few months.
In the 12 months before treatment with growth hormone, mean creatinine clearance decreased from 19.3 mL/min per 1.73 m² to 16.7 mL/min per 1.73 m². In the next 12 months on rhGH mean creatinine clearance decreased further to 13.5 mL/min per 1.73 m². Therefore the rate of deterioration of renal function was unaffected during treatment with growth hormone. Initial treatment with rhGH is associated with decrease in serum urea concentrations in children with CRF, probably mediated by stimulation of anabolic incorporation of dietary nitrogen into body protein. Despite this reduction in renal solute load, renal function deterioration continued unchanged in most children.     

Treatment of children with congenital heart disease and growth retardation with recombinant human growth hormone

Seven prepubertal short children with congenital heart disease were treated with recombinant human growth hormone (GH). Although complete surgical correction was performed for their heart disease at least 2 years before the start of GH therapy, improvement in growth was less than expected in these children. They received 0.5 IU kg⁻¹ week⁻¹ of GH daily for 2 years or more. The growth rate increased from a mean of 4.3 cm year⁻¹ before treatment to a mean of 7.8 cm year⁻¹ in the first year and to a mean of 6.3 cm year⁻¹ in the second year of treatment. Their mean standardized height improved from −3.41 ± 0.78 to −2.54 ± 0.62 after 2 years. The mean height age difference minus the bone age difference became positive in these children. We conclude that recombinant GH increases the growth rate in children with congenital heart disease and prepubertal growth retardation.     

rhGH替代治疗对生长激素缺乏儿童糖代谢的影响

目的探讨重组人生长激素(rhGH)替代治疗对生长激素缺乏症(GHD)儿童糖和胰岛素代谢的影响以及 GH 与糖代谢平衡之间的关系。方法对44例(男28例,女16例)4.5～16.5(10.4±2.6)岁 GHD 患儿在接受 rhGH 治疗前及治疗后每3个月检测体重指数、胰岛素样生长因子-1(IGF-1)、行口服葡萄糖耐量试验,计算稳态模型胰岛素抵抗指数。结果 (1)空腹血糖和 IGF-1在治疗3个月时即显著提高,一直持续较高水平,每个随访时间点与治疗前比较,差异均有统计学意义(F=6.81,7.31,P 均<0.01);稳态模型胰岛素抵抗指数和空腹胰岛素分别在治疗3和9个月时提高(P<0.01和 P<0.05),1年后下降,治疗1年半时与治疗前比较,差异已无统计学意义(均 P>0.05)。(2)相关分析发现,稳态模型胰岛素抵抗指数与体重指数、IGF-1和治疗持续时间显著相关(r=0.251,0.437,0.281,P 均<0.001)。二次方程曲线回归分析发现,稳态模型胰岛素抵抗指数与治疗持续时间呈近似抛物线量变关系。(3)发现2例暂时性高血糖,分别在停用 rhGH 治疗后1个月和5d 血糖恢复正常,再注射 rh GH 后,行口服葡萄糖耐量试验正常。结论 GHD 儿童接受 rhGH 治疗(尤第1年内)可增加胰岛素抵抗,极少数引起短暂糖代谢紊乱。循环 IGF-1可能参与控制胰岛素的敏感性,在 GH 与胰岛素平衡间起重要作用。有必要对所有接受 rhGH 治疗者定期监测糖代谢指标和 IGF-1水平。     

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

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

Childhood cancer survivors exposed to total body irradiation are at significant risk for slipped capital femoral epiphysis during recombinant growth hormone therapy

Background

Childhood cancer survivors treated with cranial or total body irradiation (TBI) are at risk for growth hormone deficiency (GHD). Recombinant growth hormone (rhGH) therapy is associated with slipped capital femoral epiphysis (SCFE). We compared the incidence of SCFE after TBI versus cranial irradiation (CI) in childhood cancer survivors treated with rhGH.

Procedure

Retrospective cohort study (1980–2010) of 119 survivors treated with rhGH for irradiation‐induced GHD (56 TBI; 63 CI). SCFE incidence rates were compared in CI and TBI recipients, and compared with national registry SCFE rates in children treated with rhGH for idiopathic GHD.

Results

Median survivor follow‐up since rhGH initiation was 4.8 (range 0.2–18.3) years. SCFE was diagnosed in 10 subjects post‐TBI and none after CI (P < 0.001). All 10 subjects had atypical valgus SCFE, and 7 were bilateral at presentation. Within TBI recipients, age at cancer diagnosis, sex, race, underlying malignancy, age at radiation, and age at initiation of rhGH did not differ significantly between those with versus without SCFE. The mean (SD) age at SCFE diagnosis was 12.3 (2.7) years and median duration of rhGH therapy to SCFE was 1.8 years. The SCFE incidence rate after TBI exposure was 35.9 per 1,000 person years, representing a 211‐fold greater rate than reported in children treated with rhGH for idiopathic GH deficiency.

Conclusions

The markedly greater SCFE incidence rate in childhood cancer survivors with TBI‐associated GHD, compared with rates in children with idiopathic GHD, suggests that cancer treatment effects to the proximal femoral physis may contribute to SCFE. Pediatr Blood Cancer 2013;60:1766–1771. © 2013 Wiley Periodicals, Inc.     

The captopril test in children with renovascular and renal hypertension

We used the captopril test (CT) in 32 children, 8 with renovascular hypertension (RVH), 17 with renal hypertension (RH) and 7 with normal blood pressure, in order to study the renin-angiotensin system activation (RASA). All children affected by RVH presented a positive CT: a post-captopril plasma renin activity (PRA) of 12 ng ml^-1 h ^-1 or more, an absolute PRA increase of 10 ng ml ^-1 h ^-1 or more and a 150% increase or more, or 400% or more if the baseline PRA was less than 3 ng ml^-1 h^-1. The CT may be useful for demonstrating the RASA in RVH.     

Physical effects of growth hormone treatment in children with Prader-Willi syndrome

A randomized, controlled study of 54 children (age, 4-16 years) with Prader-Willi syndrome was conducted to assess the potential beneficial effects of growth hormone (GH) treatment. After observation for 6 months, the children were randomized to receive GH at a dose of 3 IU/m²/day (1 mg/m²/day) ( n = 35) or no intervention ( n = 19). The effects of GH treatment on linear growth, body composition, muscle strength, pulmonary function and resting energy expenditure were assessed. The levels of GH secreted in resonse to clonidine stimulation were universally low, and mean (± SD) insulin-like growth factor I SDS was -1.2 ± 0.8 pretreatment. In children treated for 1 year, mean height velocity SDS significantly increased from -1.0 ± 2.5 to 4.6 ± 2.9 ( p < 0.0001), mean percentage body fat decreased from 46.3 ± 8.4% to 38.4 ± 10.7% ( p < 0.001), mean lean body mass increased from 20.5 ± 6.3 kg to 25.6 ± 4.3 kg ( p <0.01) and respiratory muscle function and physical strength imporved. Mean respiratory quotients significantly decreased from 0.81 to 0.77 ( p < 0.001); however, resting energy expenditure did not change. Therefore, GH therapy appears to reduce some of the physical disabilities experienced by children with Prader-Willi syndrome.     

Comparison of growth hormone releasing hormone therapy and growth hormone therapy in growth hormone deficiency

Seven children with growth hormone deficiency of hypothalamic origin responded to an i.v. bolus of growth hormone releasing hormone (GHRH) (1–29)-NH2 with a mean serum increase of 10.7 ng/ml growth hormone (GH) (range 2.5–29.3 ng/ml). Continuous s.c. administration of GHRH of 4–6 g/kg twice daily for at least 6 months did not improve the growth rate in five of the patients. One patient increased his growth rate from 1.9 to 3.8 cm/year and another from 3.5 to 8.2 cm/year; however, the growth rate of the latter patient then decreased to 5.4 cm/year. When treatment was changed to recombinant human growth hormone (rhGH) in a dose of 2 U/m² daily, given s.c. at bedtime, the growth rate improved in all patients to a mean of 8.5 cm/year (range: 6.2 to 14.6). Presently GHRH cannot be recommended for the routine therapy of children with growth hormone deficiency since a single daily dose of rhGH produced catch-up growth which GHRH therapy did not.Abbreviations GH growth hormone - GHD growth hormone deficiency - GHRH growth hormone releasing hormone - hGH human growth hormone - rhGH recombinant human growth hormone - SM C/IGF I somatomedin C/insulin-like growth factor I On the occasion of the 85th birthday of Prof. Dr.Dr.h.c. mult. Adolf Butenandt     

Modification of 24-Hour Growth Hormone Secretion after Continuous Subcutaneous Infusion of Growth Hormone-Releasing Hormone (GHRH (1–29)NH2) in Short Children with Low 24-Hour Growth Hormone Secretion

Tauber, M.T., Pienkowski, C., Landier, F., Gunnarsson, R. and Rochiccioli, P. (Department of Paediatric Endocrinology, CHU Rangueil, Toulouse Cedex, and Kabi Laboratory, Paris, France and Kabi Peptide Hormones, Stockholm, Sweden). Modification of 24-hour growth hormone secretion after continuous subcutaneous infusion of growth hormone-releasing hormone (GHRH (1–29)NH₂) in short children with low 24-hour growth hormone secretion. Acta Paediatr Scand [Suppl] 349: 117, 1989.
Six short children with low 24-hour growth hormone (GH) secretion were treated with continuous subcutaneous infusion of GHRH (1–29)NH₂ for 3 weeks using a portable infusion pump. Restoration of pulsatile GH secretion was observed in all three children treated with 40 pg/kg/day of GHRH, but in only one of the three children treated with 20 pg/kg/day. All parameters of 24-hour GH secretion increased, but in five children the magnitude of the GH response was greater on day 1 than on day 21 of CHRH treatment. This decrease was not observed in the single child who responded to a low dose of GHRH (20 pg/kg/day); on the contrary, the response in this patient was greater after 21 days of GHRH treatment. Plasma levels of GHRH (1–29)NH₂ were significantly higher on day 21 than on day 1 of treatment, suggesting altered pharmacokinetics over time. The effect of GHRH treatment on growth could not be determined because of the short duration of the study, but the data obtained on 24-hour GH secretion and GHRH metabolism suggest that a long-acting analogue of GHRH could be useful for the treatment of GH deficient or insufficient children.     

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??Objective??To describe height velocity in pre-pubertal Growth Hormone Deficiency??GHD?? children without recombinant human growth hormone??rhGH?? treatment and explore the height velocity targets for the first year in response to rhGH treatment. Methods??Analyze retrospectively the height velocity data without??HV0?? and one year after ??HV1?? rhGH treatment in physiologic dose??0.7 U/??kg·w???? in pre-pubertal GHD children above 3 years old who were diagnosed from Jan??2000 to Dec??2009 in our hospital. The GHD patients who were included for calculation of HV0 had peak GH value in GH provocative test less than 7 ng/ml. HV0 was calculated according to age??HV0-CA??342 patients?? and bone age??HV0-BA??257 patients?? respectively. According to the peak GH value in GH provocative test??the patients who were included for calculation of HV1 were divided into GHD-1 group????0.33 nmol/L??140 patients?? and GHD-2 group??7.0??9.9 μg/L??33 patients??. Results??Within every bone age group??GHD-1 group had significantly higher HV1 than GHD-2 group??P??0.05????11.0??10.5-11.5?? cm/a??n??34?? vs. 9.9??9.1-10.8?? cm/a??n??6?? when bone age was less than 3 years??10.4??9.8-10.9?? cm/a??n??48?? vs. 8.8??8.3??9.2?? cm/a??n??8?? when bone age was between 3 to 5 years??and 9.5??9.1-9.9?? cm/a??n??58?? vs. 8.5??8.0-9.1?? cm/a??n??19?? when bone age was between 6 to 10 years. The mean HV1 of GHD-2 was very close to the 25th percentile??P25?? of GHD-1 group. They both were significantly higher than HV0-BA. Conclusion??The recommended height velocity target for the first year after rhGH treatment in pre-
pubertal GHD children is the P25 of HV1 of GHD-1 group. It should be at least 9.9 cm/a??8.7 cm/a and 8.3 cm/a when the bone age is less than 3 years??3 to 5 years and 6 to 10 years?? respectively.     

生长激素缺乏症患儿重组人生长激素治疗前、后肾上腺皮质功能的变化

目的观察生长激素缺乏症(GHD)患儿重组人生长激素(rh GH)治疗前、后肾上腺皮质功能的变化。方法选取72例确诊GHD并接受rh GH治疗6个月以上的患儿,其中32例伴促肾上腺皮质激素(ACTH)缺乏,回顾性分析其在接受rh GH治疗前及治疗后3、6个月时清晨空腹血皮质醇(COR)、ACTH水平的变化。结果 32例伴ACTH缺乏患儿通过外源性补充氢化可的松(HC)使COR达正常水平后,再开始rh GH治疗,治疗前COR水平和使COR达正常下限时的HC剂量呈显著负相关(r=-0.899,P0.01)。单纯HC治疗1个月后COR水平较治疗前明显增高,ACTH水平明显下降,差异均有统计学意义(P0.001);经rh GH和HC替代治疗后3、6个月后COR及ACTH水平与单纯HC治疗1个月差异无统计学意义(P0.05)。40例无ACTH缺乏患儿在rh GH治疗后COR水平显著降低,与治疗前比较差异有统计学意义(P0.01),其中10例MRI显示下丘脑-垂体异常患儿表现为COR水平低下。结论 GHD患儿在rh GH治疗过程中可出现肾上腺皮质功能减低,特别是MRI显示垂体异常的患儿,应注意监测肾上腺皮质功能,及早干预。     

METHOTREXATE IN THE PLASMA AND CEREBROSPINAL FLUID OF CHILDREN TREATED WITH INTERMEDIATE DOSE METHOTREXATE

ABSTRACT. Rechnitzer, C, Scheibel, E. and Hendel, J. (University Clinic of Paediatrics, Rigshospitalet and Department of Clinical Chemistry, Finsen Institute, Copenhagen, Denmark). Methotrexate in the plasma and cerebrospinal fluid of children treated with intermediate dose methotrexate. Acta Paediatr Scand, 70:615,.–Serious complications can follow treatment with intermediate dose methotrexate of acute lymphoblastic leukemia in childhood. Toxicity has been shown to be correlated to plasma methotrexate concentrations. During intravenous infusions of methotrexate (500 mg/m²) the mean concentrations achieved 1 to 4¹/₂ hours after the start of infusion were 1.3×10^-7 mol/l in cerebrospinal fluid and 1.7×10^-5 mol/1 in plasma. At 72 hours after start of methotrexate infusion, plasma methotrexate concentrations were significantly higher in cases with symptoms of toxicity. In all the children who developed toxic symptoms 72-hour plasma methotrexate concentration was above 1×10^-7 mol/l. Assuming that leucovorin is given 48 hours after the start of methotrexate infusion, 72-hour plasma methotrexate is suitable for detection of patients at risk for toxicity. In children treated with intermediate dose methotrexate we therefore recommend estimating plasma methotrexate concentration 72 hours after the start of infusion, and instituting supplementary leucovorin when plasma methotrexate concentration exceeds 1×10^-7 mol/l.     

Synchronization of Growth Hormone Therapy

Based on the hypothesis of periodical refractoriness of the growing tissue to exogenous administration of GH, an experimental approach is presented in which the dosage of GH was adjusted to the natural occurrence of periodical changes of the lower leg growth velocity in five children with short stature. Two 6-month periods were compared, during which the children received an identical cumulative dose of GH of 224 IU/m². During the first period, the children received a constant GH dose of 14 IU/m²/week by daily subcutaneous injection, whereas a low/high dose alternation was administered at approximately 3-week intervals synchronously with the occurrence of mini growth spurts during the second 6-month period. In all the children, mean linear growth of the lower leg accelerated during the period of synchronization by 595% compared to the previous growth rate during constant GH administration.     

重组人生长激素治疗生长激素缺乏症疗效观察

目的 观察基因重组人生长激素(rhGH)对生长激素缺乏症(GHD)患儿的疗效。方法 对15例GHD患儿应用rhGH治疗,每晚睡前皮下注射0.1 IU/kg,疗程6个月。结果 患儿身高由治疗前109.3±9.9cm增加到115.5±11.3 cm;年身高生长速度由治疗前2.8±0.6cm/年增加到11.6±3.5cm/年。治疗期间除少数患儿出现亚临床甲状腺功能低下,注射部位有轻度反应外,未发现明显副作用。结论 皮下注射rhGH是治疗儿童GHD的一种安全有效的方法。     

Pharmacokinetics and pharmacodynamics of recombinant human growth hormone by subcutaneous jet- or needle-injection in patients with growth hormone deficiency

Eighteen growth hormone (GH) deficient children and adolescents (11 6/12–20 9/12 y) participated in a randomized open, two-period (4 weeks) cross-over study to evaluate the pharmacokinetics and pharmacodynamics of recombinant human growth hormone (rhGH) administered daily, either by subcutaneous jet-injection or conventional needle-injection. Plasma growth hormone (GH), insulin-like growth factor 1 (IGF-1), insulin-like growth factor binding protein 3 (IGFBP-3), glucose, insulin, HbAlc and serum-free fatty acids (FFA) levels were analysed repeatedly. GH absorption characteristics, expressed as AUC_0-x, Cmax and Tmax ratio (%) jet-injected over needle-injected were similar in both groups. IGF-I and IGFBP-3 plasma levels were identical in both groups. Serum FFA concentrations were comparable after GH administration with either injection device. Surprisingly nocturnal blood glucose decreased to asymptomatic hypoglycaemic levels in all patients. The results of this study showed equal responses concerning absorption and bioavailability of growth hormone administered daily for 4 weeks by either a jet or a needle-injection device in GH-deficient children and adolescents.     

Predictive Criteria for Successful Growth Promotion in Growth Hormone Therapy of Short Stature: A Comparison between Common Endocrine Parameters and Knemometry

ABSTRACT. Due to increased availability of growth hormone (GH) for the treatment of short stature, its use has been proposed for a number of conditions besides classic GH deficiency. We have studied growth response during a one year treatment period with 14 IU/m²/week of GH in a heterogenous group of 24 short children with various conditions associated with short stature (SDS for body height ranging between −2.2 and −4.4). Thirteen children could be classified as "responders" with growth rate increments of 2 cm/yr or more above pretreat-ment growth rates, and 11 children as "non-responders". The children were measured regularly both by stadiometry and knemometry at weekly intervals. GH stimulation by insulin, arginine and spontaneous overnight secretion of GH, and SM-C generation were evaluated in the children and found to be of no predictive value for the individual responsiveness to GH administration except in one boy with classic GH deficiency. However, serial measurements of the lower leg length provided useful information for individual predictions in 21 out of the 24 children as early as 10 weeks after the start of the GH treatment.     

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.     

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.     

重组人生长激素治疗颅咽管瘤术后生长激素缺乏症

目的探讨低剂量基因重组人生长激素(rhGH)治疗颅咽管瘤术后生长激素缺乏症(GHD)患儿的疗效和安全性。方法回顾性分析2008年4月-2011年4月在北京三博脑科医院内分泌门诊治疗的12例7～15岁术后病理确诊为颅咽管瘤且继发生长迟滞患儿的病例资料及随访资料。患儿均给予rhGH治疗(每晚睡前皮下注射0.1 IU.kg-1,每周5次注射),疗程3～36个月。定期检测肝功能、肾功能、激素水平等指标,并比较患儿治疗前后身高、体质量、生长速度、身高标准差计数、胰岛素样生长因子1(IGF-1)、骨龄等生长指标的改变。结果在rhGH治疗期间,12例患儿在治疗第1年生长速率增加显著,由(2.2±1.3)cm.a-1增加到(6.63±4.97)cm.a-1(P<0.01),身高标准差计数由治疗前-3.3±2.3增加到-3.2±2.8,血IGF-1治疗前为(38±64)μg.L-1,治疗后为(173±167)μg.L-1(患儿治疗后血清IGF-1水平达到正常范围),差异均有统计学意义(Pa<0.01)。治疗期间,患儿肝肾功能等均保持在正常值范围,骨龄无明显变化,随访时尚无患儿肿瘤复发。结论低剂量rhGH治疗儿童颅咽管瘤术后继发GHD是经济、有效的,在充分评估及严密监控下开展GH替代治疗是安全的。