Growth hormone treatment of Turner syndrome patients with insufficient growth hormone response to pharmacological stimulation tests

Growth before and during treatment with biosynthetic human growth hormone (hGH) was studied in 13 patients with Turner syndrome (TS) and a growth hormone (GH) response of less than 10 g/l to two standard provocative tests. During 1 year of treatment with hGH (0.15 IU/kg per day) height velocity (mean±SD) increased significantly (P<0.001) from 3.7±1.8 cm/year to 7.6±1.5 cm/year. The auxological data in these girls before and during treatment with hGH were similar to those observed in TS patients with a normal response of GH to pharmacological stimuli. It is concluded that in girls with Turner syndrome GH testing should only be performed when height velocity is below the Turner norm. In TS patients with residual growth potential a clinically significant growth acceleration can be obtained with a higher-than-replacement dose of hGH, i.e. 0.15 IU/kg per day, regardless of GH testing.     

Gonadotrophin-Releasing Hormone Agonist Treatment of Central Precocious Puberty: an Analysis of Growth Data in a Developmental Context

ABSTRACT. Growth and skeletal maturation was assessed in 83 girls with central precocious puberty (CPP) during pituitary—gonadal suppression induced by treatment with a gonadotrophin-releasing hormone agonist (GnRHa). The mean pretreatment chronological age (CA) was 6.3 years and the mean bone age (BA) was 10.6 years. During the suppression of gonadal sex steroid secretion, mean height velocity (HV) decreased from a pretreatment value of 10.8 cm/year to 5.9 (year 1, n = 83), 4.9 (year 2, n = 72), 4.2 (year 3, n = 49, and 4.4 (year 4, n = 23) cm/year. During each interval, there was a negative correlation between HV and the pretreatment BA. In addition, the rate of skeletal maturation was reduced during GnRHa treatment (ΔBA/ΔCA = 0.6 ± 0.1 over 3 years, n = 45). The rate of skeletal maturation during therapy was also negatively correlated with pretreatment BA. Predicted adult stature, based upon z -scores of height for BA, increased significantly and progressively during therapy but the changes in height SDS for BA varied significantly. Since HV, ΔBA/ΔCA, and the change in height SDS for BA (ΔHT SDS for BA) during pituitary—gonadal suppression all correlated with the initial degree of skeletal maturation, the effect of GnRHa therapy on Final adult height in children with CPP will be best understood if growth data are assessed within a developmental framework.     

Effect of combined treatment with gonadotropin releasing hormone analogue and growth hormone in patients with central precocious puberty who had subnormal growth velocity and impaired height prognosis

Growth hormone-insulin-like growth factor-I status and response to growth hormone therapy (0.6 IU/kg/week sc, six times a week for 12 months) were evaluated in 12 girls (chronological age 9.4 ± 1.6 years) suffering from central precocious puberty with growth velocity less than 4 cm/year and no substantial increase or decrease in predicted adult height during gonadotropin releasing hormone (Gn-RH) analogue treatment (D-Trp⁶-LH-RH, 60 μg/kg im/28 days). At baseline, large variations were observed in nocturnal growth hormone (GH) means (pathological values (< 3.6μg/l) 33.3%), stimulated levodopa GH peaks (pathological values (<10.0 μg/I) 28.6%) and serum insulin-like growth factor-I (IGF-I) levels. Neither GH nor IGF-I levels were correlated with growth velocity. During recombinant GH therapy, growth velocity increased significantly (baseline 3.0 ± 0.9 cm/year; 6 months 6.4 ± 1.9cm/year, p < 0.001 versus baseline; 12 months 6.0 ± 1.3cm/year, p < 0.001 versus baseline). There was a significant increase in height SDS for bone age (baseline –1.6 ±0.5 SDS; 12 months -1.04 ± 0.6SDS; p < 0.002) and in predicted adult height (baseline 152.0 ± 3.6cm; 12 months 155.9 ± 3.4cm; p < 0.002). Our results suggest that combined therapy with Gn-RH analogues and recombinant GH can improve growth velocity and predicted adult height in girls with central precocious puberty and impaired height prognosis during Gn-RH analogue treatment.     

Growth-stimulating effects of human growth hormone therapy in patients with Turner syndrome

We determined the effect of pituitary human growth hormone treatment on the growth rate of 52 children with Turner syndrome. The pretreatment growth rate was 3.2 +/- 0.8 cm/yr. Growth hormone treatment (0.2 IU/kg three times per week) resulted in enhancement of the growth rate to 5.9 +/- 1.4 cm/yr for the first year of therapy. The bone age advanced approximately 1 year during the year of therapy. The growth hormone therapy was discontinued at 12 months, and the mean growth rate decreased to pretreatment levels, 3.1 +/- 1.9 cm/yr; 26 of 41 patients actually had post-treatment growth rates that were less than the pretreatment rate. Glucose tolerance tests at 6-month intervals did not indicate an effect of hGH treatment on glucose intolerance. Several patients had glucose intolerance that preceded hGH treatment, but this remained stable during treatment; glucose intolerance likely was related to obesity in this group of patients. Basal and hGH-stimulated somatomedin C levels (32 patients) correlated with age of the patient but not with growth rate during therapy. We conclude that hGH therapy can accelerate the growth rate of patients with Turner syndrome. The growth rate increased to "normal" levels and was dependent on continued treatment with hGH. If the response continues, long-term treatment of Turner syndrome may result in increased adult height.     

Prediction of growth response in prepubertal children treated with growth hormone for idiopathic growth hormone deficiency

Several multiple regression models have been developed to predict the first-year growth response to human growth hormone (hGH) in children with growth hormone deficiency (GHD). It was the aim of this study to analyse the significance of various growth parameters for a height prediction model. Data from 148 prepubertal children with idiopathic GHD were evaluated. The prediction model was developed by means of univariate and stepwise linear regression analysis and an “all possible” regression approach using Mallow's C(p) statistics. Six out of eight selected variables had a significant influence on the first-year growth rate. The most important parameter was the difference between target height SDS and height SDS at the start of therapy (THSDS - HSDSC0), accounting for 23.95% and 25.74% of the variability. No other single variable or combination of variables was more informative than the variable THSDS - HSDSC0 alone. From these data, growth velocity for the first year of hGH treatment was estimated as 1.106 (THSDS - HSDSC0) + 6.8 cm/y ± 2.2 cm (SE), allowing a prediction for different intervals between THSDS and HSDSC0. This equation was validated in a small group of 18 GHD patients demonstrating a predicted vs. observed first-year growth rate of 9.4 ± 1.1 vs. 9.5 ± 2.6 cm/y. We conclude that the difference between THSDS and height SDS at the start of therapy is an important predictor of the first-year growth response in children treated with hGH for idiopathic GHD. Unlike in previous studies, additional parameters did not increase predictability.     

特发性矮小患儿生长激素受体基因Ex3多态性与重组人生长激素疗效分析

目的：观察生长激素受体（GHR）基因Ex3多态性与重组人生长激素（rhGH）治疗青春期前特发性矮小（ISS）疗效间的相关性。方法：青春期前ISS患儿30例,均采用rhGH［0.116±0.02 IU/(kg/d)］治疗;其外周血白细胞中抽提基因组DNA,采用多重PCR扩增GHR基因Ex3区域。对不同基因型患儿治疗后生长速率（GV）、年龄对应身高标准差积分（HtSDSCA）及骨龄对应身高标准差积分（HtSDSBA）、预测终身高进行比较。结果：rhGH治疗半年后d3/d3基因型组GV较fl/fl基因型组明显增加［（6.3±1.6）cm/年 vs （3.4±0.5）cm/年,P<0.05］。结论：ISS患儿GHR Ex3基因型与rhGH促生长疗效存在一定关联,d3/d3等位基因型患儿用rhGH治疗后生长速率明显优于fl/fl等位基因型。［中国当代儿科杂志,2010,12（9）：730-733］     

Biosynthetic growth hormone therapy in children with growth hormone deficiency: Experience at AIIMS,New Delhi

A total of 20 previously untreated children with growth hormone deficiency (GHD) were treated for one year with biosynthetic human growth hormone (hGH). The mean chronologic age was 9.43±3.52 years with a height age of 5.02 years, and bone age 9.43±3.52 (TW2-RUS) 6.42 years. The mean pretreatment growth velocity was 2.43±0.90 cm/year. Of these 14 children had complete GHD (peak GH levels less than 5 ng/ml) and 6 had partial GHD. They were treated with recombinant GH in a dose of 0.5 IU/kg/week divided into 6–7 injections per week subcutaneously at night. The mean growth velocity increased to 8.88±2.10 cm/yr at the end of 6 months and 8.00±2.21 cm/yr at 12 months. The actual gain ranged from 6–11 cm in a year. There were no local adverse reactions. One child developed vitiligo of the face and another transient hyperglycemia.     

Effect of oxandrolone on growth and final height in Turner's syndrome

Thirty-two girls with Turner's syndrome aged 11.5-16.7 years were treated with oxandrolone (0.125 mg/kg/day). The treatment period was scheduled to 2 years. Height velocity (HV) was expressed in Standard Deviation Scores (SDS), calculated by growth standards for untreated Danish Turner-girls. For girls with initial bone age below 13 years HV increased significantly from a mean pretreatment value of -0.2 SDS (3.1 cm/year) to +3.5 SDS (5.6 cm/year) in the 1st year of treatment and +2.1 SDS (4.1 cm/year) in the 2nd year. Mean bone age velocity during treatment was 0.9 year/year. Twenty-two girls have reached final height. Predictions of their final height were made by three different methods and compared to observed final height. A significant (p less than 0.001) improvement in the order of 3-4 cm was found for girls with initial bone age below 13 years, while girls with higher initial bone age had no height gain (p greater than 0.3). Side effects were seen in 16% of the girls.     

Evaluation of growth hormone secretion after completion of therapy

BACKGROUND: Growth hormone (GH) reserve in young adults previously diagnosed as having GH insufficiency, who were treated with human (h)GH replacement in childhood needs confirmation in adulthood. METHODS: Nine patients (seven males, two females; two empty cella, one hypoplasia of the hypophysis and six with idiopathic GH deficiency) diagnosed as having GH insufficiency by the insulin tolerance test (ITT) and dopamine stimulation test in childhood (mean age 12.8+/-2.6 years) were retested at completion of linear growth (mean age 21.0+/-3.0 years), 4.6+/-1.6 years after discontinuation of hGH therapy. RESULTS: At the initial diagnosis, seven had complete and two had partial GH deficiency. At diagnosis, the mean peak GH response to ITT and dopamine was 4.8+/-4.08 and 3.4+/-2.9 mU/L, respectively. At retesting, the mean GH response to ITT and dopamine stimulation was 3.5+/-2.5 and 3.3+/-3.1 mU/L, respectively (P=0.91 and 0.96, respectively). During hGH therapy, mean height velocity increased from 3.5+/-1.9 cm/year at diagnosis to 9.9+/-3.64 cm/year during the first year (P=0.002). One of nine children diagnosed as having GH insufficiency who was treated with hGH replacement had normal growth hormone secretion at completion of linear growth. CONCLUSIONS: All GH-insufficient children should be retested after completion of their hGH treatment and linear growth to identify those who are truly GH insufficient and who may benefit from GH therapy in adulthood.     

Preliminary validation of a prediction model for the short-term growth response to growth hormone therapy in children with idiopathic short stature

A discriminant scoring system, using multivariate analysis, has been developed for pretreatment prediction of responsiveness to a 6-month trial of growth hormone (GH) treatment in short children with subnormal growth velocity, but without GH deficiency. Inclusion criteria included a birth weight above 2.5 kg, height below the 3rd centile for chronological age, height velocity below the 25th centile for bone age, no signs of puberty, a maximal GH response to pharmacological stimulation of above 10 μg/l and treatment with GH at a dose of 12–16 IU/m²/week. Children with an increase in height velocity greater than 2.5 cm/year after therapy were considered to be responders. Pretreatment clinical data from 67 patients were employed in a discriminant analysis in order to establish the model. The scoring system developed was as follows: score = -0.4 + 0.92X₁– 0.87X₂, where X₁ is the height velocity SD score (SDS) for chronological age, and X₂ is the bone age SDS for chronological age. This model had a specificity of 96.3% and a sensitivity of 92.5% in predicting the responsiveness to GH. The model has subsequently been applied to a group of 14 patients in order to establish its validity; in this group its sensitivity was 83.3% and its specificity 100%. These preliminary data suggest that the model can be used as a guideline for selecting short, slowly growing, non-GH-deficient children who will respond to short-term GH therapy.     

Effect of Oxandrolone on Growth and Final Height in Turner's Syndrome

ABSTRACT. Thirty-two girls with Turner's syndrome aged 11.5-16.7 years were treated with oxandrolone (0.125 mg/kg/day). The treatment period was scheduled to 2 years. Height velocity (HV) was expressed in Standard Deviation Scores (SDS), calculated by growth standards for untreated Danish Turner-girls. For girls with initial bone age below 13 years HV increased significantly from a mean pretreatment value of -0.2 SDS (3.1 cm/year) to + 3.5 SDS (5.6 cm/year) in the 1st year of treatment and + 2.1 SDS (4.1 cm/year) in the 2nd year. Mean bone age velocity during treatment was 0.9 year/year. Twenty-two girls have reached final height. Predictions of their final height were made by three different methods and compared to observed final height. A significant ( p <0.001) improvement in the order of 3-4 cm was found for girls with initial bone age below 13 years, while girls with higher initial bone age had no height gain ( p >0.3). Side effects were seen in 16% of the girls.     

Multicentric study of efficacy and safety of growth hormone use in growth hormone deficient children in India

Growth Hormone being very expensive in India data on use of recombinant human growth hormone (rhGH) is scarce. The authors studied the effect and safety of one year of therapy with rhGH on growth velocity and predicted final height in Indian patients with growth hormone deficiency (GHD). A multicentric, prospective, open trial with rhGH was performed on 15 patients. Patients received rhGH in a dose of 0.7 IU (0.23 mg)/Kg/week. The mean pretreatment height was 111.2cms {SD 12.4}, height velocity was 3.1 cms per year {1.2} and predicted height was 146.5 cms {10.4} at a mean age of 12.0 (2.8). At the end of therapy mean height was 123.4 {11.9}, height velocity was 12.1 cms per year {2.8} and the predicted height was 153.0 cm {9.4}. The increase in predicted height was thus 6.5cm (4.2). The increment in height velocity with growth hormone therapy was statistically significant (p value= 0.001). The present study shows that children with growth hormone deficiency in India also benefit from therapy with rhGH even when treatment is started late as compared to the published Western data and there is a potential for increased final height.     

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     

重组人生长激素治疗特发性矮小12个月疗效评估

目的 分析重组人生长激素(rhGH)对特发性矮小（ISS）患儿的治疗效果和影响因素,为寻求优化治疗效果的途径提供参考依据。 方法 回顾性分析2003年2月至2011年7月在首都儿科研究所生长发育门诊确诊为ISS患儿的临床资料,依据是否予rhGH治疗分为rhGH组和对照组。以身高标准差变化（ΔHtSDS）和生长速度（GV）作为评估指标进行疗效和影响因素分析。分析治疗期间骨龄、身高年龄及胰岛素样生长因子(IGF-1)水平的变化。 结果 rhGH组35例,对照组33例进入分析。①rhGH组治疗前、治疗后12个月HtSDS呈增长趋势(P<0.05);对照组均未见升高趋势。治疗后0～3个月的ΔHtSDS水平为(0.22±0.13),治疗后~6、~9和~12个月分别为(0.20±0.10)、(0.12±0.14)和(0.14±0.15),呈降低趋势,但差异无统计学意义。治疗后0～3个月GV为(10.78±2.70) cm·year-1,治疗后~6、~9和~12个月分别为(10.52±2.44)、(8.31±2.78)和(8.50±2.29) cm·year-1,呈降低趋势,但差异无统计学意义。治疗后0~6个月ΔHtSDS和GV水平均显著高于～12个月［ΔHtSDS :(0.43±0.20) vs (0.27±0.24), GV: (10.48±2.17) vs (8.48±2.39) cm·year-1］。②治疗后12个月的ΔHtSDS水平与治疗开始时的年龄呈负相关,与治疗后0～3个月的ΔHtSDS呈正相关;治疗后12个月的GV水平与治疗前的GH峰值和治疗后3个月的GV水平呈负相关。③治疗后1年青春期前、青春早中期和青春后期ΔHtSDS差异总体上有统计学意义（P=0.016）,其中青春期前显著高于青春早中期和青春后期;GV差异无统计学意义。④rhGH组治疗后12个月的骨龄变化差异无统计学意义,身高年龄显著高于对照组。⑤rhGH组IGF-1水平在治疗后1个月升高较明显,之后升高趋势减缓。 结论 rhGH用于ISS患儿的治疗应尽量选择青春期前;治疗后3个月的效果可作为第1年治疗效果的预测因素;rhGH治疗不会使ISS患儿骨龄明显提前。     

Methionyl human growth hormone and oxandrolone in Turner syndrome: preliminary results of a prospective randomized trial

Seventy girls with Turner syndrome, 4 to 12 years of age, were randomly assigned to receive either no treatment (control) or methionyl human growth hormone (0.125 mg/kg three times per week), oxandrolone (0.125 mg/kg/day), or combination hGH plus oxandrolone therapy. Baseline growth rates averaged 4.3 cm/yr, and all were within 2 SD of mean growth velocity for age in girls with Turner syndrome. Sixty-seven girls remained in the study for a minimum of 1 year. Growth rates and growth velocity (in standard deviations for age in girls with Turner syndrome) were control 3.8 cm/yr (-0.1 SD), hGH 6.6 cm/yr (+2.3 SD), oxandrolone 7.9 cm/yr (+3.7 SD), and combination therapy 9.8 cm/yr (+5.4 SD). Mean bone ages advanced 1.0 years (hGH), 1.3 years (oxandrolone), and 1.6 years (combination). However, median increments in height age/bone age (delta HA/delta BA) ratios ranged from 1.0 to 1.1 for treatment groups, compared with 0.8 for the controls. Predicted adult height by the method of Bayley-Pinneau increased 2.5 cm for hGH or oxandrolone alone, and 3.2 cm for combination treatment. These data indicate that both hGH and oxandrolone can significantly stimulate short-term skeletal growth in patients with Turner syndrome, and potentially increase final adult height.     

Three-year data from a comparative study with recombinant human growth hormone in the treatment of short stature in young children with intrauterine growth retardation

Growth acceleration and bone maturation were studied for 3 y in 69 children with severe short stature and a history of intrauterine growth retardation (IUGR), to determine the effect of treatment with recombinant human growth hormone (r-hGH). The patients were enrolled in an open, multicentre trial and were randomly allocated to either the treated group (Group 1) or the control group (Group 2). The children in Group 1 were treated daily with 0.2 IU/kg/body weight (0.067 mg/kg) s.c, during 3 y and the children in Group 2 started the study with a 1-y observation period followed by a 3-y treatment period. At birth, their mean weight standard deviation score (SDS) was -2.5 and their mean length SDS -3.5. At baseline, the patients were prepubertal, non-GHdeficient, with no known dysmorphic features. Mean age was 4.5 y, bone age was 3.3 y, height SDS was -3.4, height velocity (HV) SDS was -1.6, and body mass index SDS was -1.4. After 1 y of treatment, linear HV in Group 1 increased in comparison with the pre-treatment period (from 5.7 ± 2.0 to 10.1 ± 1.7cm/y; p < 0:001)and with the firstyear of observation in Group2( p < 0:001). Increased HV was sustained during the second and third year of treatment and was significantly higher than at baseline. A similar growth pattern was seen during the 3y of GH treatment in Group 2. Mean height SDS for chronological age increased by 2.0 ± 0.7 in the two groups after 3 y of treatment. HV after 1 y of treatment was negatively correlated with growth velocity at baseline. Bone age remained retarded but increased with a mean of almost 4 y after 3y of treatment in both groups. Even at a dose that is three times the replacement dose treatment with r-hGH was well tolerated. From these results, we conclude that r-hGH treatment over 3 y can induce sustained catch-up growth in young children with severe short stature and a history of IUGR. Long-term studies are needed to assess ultimate effects on final height.     

Noonan's syndrome: abnormalities of the growth hormone/IGF-I axis and the response to treatment with human biosynthetic growth hormone

Auxological and endocrine data from 6 children (3 male, 3 female) aged 8.5-12.8 years with Noonan's syndrome and the results of treatment with human biosynthetic growth hormone (hGH) are presented. All the children were short (Ht SDS -3.5 to -2.3) and height velocity SDS ranged between -1.76 and +0.03. The maximum plasma growth hormone (GH) response to standard provocation tests ranged from 17 to 52 mU/l, yet, plasma insulin-like growth factor I (IGF-I) concentrations were low or low normal. Overnight GH secretory profiles were normal in all but 2 children who had disordered pulsatility with high trough concentrations. In 5 children who have completed one year of hGH therapy mean height velocity increased from 4.8 to 7.4 cm/year and the height velocity SDS ranged from +0.2 to +3.75. This improvement was associated with an increase in plasma IGF-I in three subjects. These results suggest that a defect of the GH/IGF-I axis may be present in some children with Noonan's syndrome and hGH therapy may have a role in the management of the short stature in these children.     

Growth response to growth hormone therapy following cranial irradiation

The growth response to growth hormone (GH) therapy has been studied in 12 children who received irradiation to the cranium alone either for brain gliomas, distant from the hypothalamic-pituitary axis, or as prophylaxis against CNS leukaemia. Seven children have completed GH treatment (mean duration 4 years) and five are presently on GH (mean duration 1.2 years). This response has been compared to that seen in 14 children with isolated idiopathic GH deficiency (IGHD), following GH therapy. Before treatment, the cranially irradiated patients (C-PRGHD) had higher standard deviation scores (SDS) for standing height, sitting height and leg length, and less bone age (BA) retardation, but started treatment at a similar age, and with a similar pre-treatment growth velocity and GH peak to standard provocative tests, compared to IGHD patients. GH produced a significant and similar increase in growth velocity (cm/year and SDS for BA) over the first 2 years' treatment in both groups. However C-PRGHD patients entered puberty and thus completed growth earlier than the IGHD group. As a result, cranially-irradiated children showed no change in height SDS with GH therapy, compared to catch-up growth in IGHD. Nevertheless, GH has enabled C-PRGHD patients to maintain their centile position and to achieve a more acceptable final height.Abbreviations GH growth hormone - IGHD idiopathic growth hormone deficiency - C-PRGHD post cranial-irradiation growth hormone deficiency - SDS standard deviation score - BA bone age - ALL acute lymphatic leukaemia - TSH thyroid stimulating hormone - CA chronological age - HA height age     

Treatment of Growth Hormone Deficient Patients with Recombinant Somatropin for 1 year: Results of a Chinese Multicentre Trial

ABSTRACT. Fifty-nine patients with idiopathic growth hormone deficiency were included in a Chinese multicentre trial of recombinant somatropin, 0.5-0.7 IU/kg/week s.c. given in six or seven divided doses. The height velocity increased from 2.8 ±1.0 cm/year to 13.1 ± 2.5 cm/year during 1 year of treatment, and typical catch-up growth was observed. The increase in height SDS for chronological age was significant, but the increase in height SDS for bone age was not statistically significant. No adverse reactions to the treatment were recorded. Recombinant somatropin was shown to be very effective and safe during the first year of therapy in patients with growth hormone deficiency.     

重组人生长激素治疗不同生长激素分泌状态青春前期矮身材患儿近期疗预测模型的建立和验证

目的 建立重组人生长激素(rhGH)治疗生长激素不同分泌状态青春前期矮身材患儿近期(1年)疗效的预测模型,并进行初步验证.方法回顾性分析62例生长激素不同分泌状态的青春前期矮身材患儿[模型组,分为全模型组(模型组全部病例)和生长激素缺乏症模型组(模型组中生长激素缺乏症的病例)]经rhGH治疗1年后的追赶性生长指标:生长速度(HV)和身高Z分增值(ΔHtSDS).根据单因素相关分析的结果,通过多元回归的方法,分别建立对HV和ΔHtSDS的2个预测方程(Model-GHD和Model-total).前瞻性分析另14例(验证组),将资料代入前述方程进行验证.结果单因素相关分析显示,与HV和ΔHtSDS显著(负)相关的是同一组影响因素.所得4个预测方程,R2在0.244～0.519,P值均＜0.05.HV的2个预测方程和对生长激素缺乏症患儿1ΔHtSDS的预测方程(实测值和预测值呈显著正相关,r在0.753～0.996;配对t检验示两者差异无统计学意义).结论预测模型建立成功,有助于预测不同生长激素分泌状态青春期矮身材患儿的生长激素的近期疗效.