The role of insulin like growth factor (IGF) — 1 and IGF — binding protein-3 in diagnosis of Growth Hormone Deficiency in short stature children

Objective  The purpose of this study was to evaluate the role of IGF-1 and IGFBP-3 in diagnosis of short stature children and adolescents in whom Growth Hormone Deficiency (GHD) was found. Methods  In this cross sectional study the referred short stature children and adolescents to Namazi Hospital in Shiraz- Iran, in 2003–2005 were studied. The inclusion criteria were proved short stature based on the physical examination, weight, height, standard deviation score (SDS) of height < −2, with considering stage of puberty and predicted height in children without any genetic or chronic disorders. The exclusion criteria were any positive physical or laboratory data suggesting hypothyroidism, rickets or liver disorders. For all patients a provocative growth hormone test was performed with propranolol and L-dopa and serum IGF-1 and IGFBP-3 were measured. GHD defined as peak(cutoff) serum GH level under 10 ìg/L and low IGF-1 and IGFBP-3 considered as cutoff serum level under −2 standard deviation. Results  Eighty one short stature patients (39 boys and 42 girls) with mean age of 10.6 ± 3.5 years completed the study. Seventeen patients with GHD were found and in 18 patients IGF-1 level were low. Only in 6 patients both GH and IGF-1 were low and 2 of them had low IGFBP-3. There were no correlations between the levels of GH,IGF-1 and IGFBP-3 in children with short stature due to GHD. The sensitivity and specifity of IGF-1 and IGFBP-3 in assessment of GHD were 35% and 81% for IGF-1 and 12% and 94% for IGFBP-3, respectively. Conclusion  No correlations were found between GH level and serum levels of IGF-1 and IGFBP-3 in short patients and the sensitivity of those tests in assessment of GHD were poor.     

Growth and adult height in atypical coeliac patients, with or without growth hormone deficiency

OBJECTIVE: To evaluate the effect of a gluten-free diet on growth and adult height, when available, in coeliac children without gastrointestinal symptoms. PATIENTS AND METHODS: Sixty-one coeliac children without gastro-intestinal symptoms were included in the study. The age at diagnosis was 9.50 +/- 3.3 years. Thirty-eight had short stature at diagnosis (< 10th percentile) and 23 had normal stature. Thirty-seven reached adult height. RESULTS: After beginning the diet an increase in growth velocity was seen in 30 patients (responders) (20 with initial short stature), while in 31 patients (18 with short stature) there was no catch-up growth (non-responders). Bone age at diagnosis was significantly more delayed in the responders than in the non-responders. Target height was significantly higher in children with normal stature at diagnosis than those with short stature. Growth hormone (GH) deficiency was found and confirmed after 6-12 months of diet in 12 of the 38 patients (32%) with short stature. In the group of the 30 'short' patients who attained final height, target height was attained or improved in 12 patients (40%): in eight of the 16 (50%) responders and in four of the 14 (29%) non-responders; in eight (all responders) out of 22 (36%) without GH deficiency, and in four out of eight (50%) patients with GH deficiency treated with GH (all non-responders). CONCLUSIONS: In children in whom coeliac disease is diagnosed because of short stature, a gluten-free diet will be successful if at diagnosis there is a delay of bone age and in the first year of diet there is an evident catch-up growth. When this does not occur, i.e. in half of the patients (18 out of 38), it may be because of an associated and transient GH deficiency. In these patients a period of GH replacement therapy as well as a gluten-free diet may improve their final height.     

Twelve-hour spontaneous nocturnal growth hormone secretion in growth retarded patients

Twelve-hour nocturnal GH secretion was studied in 30 children with familial short stature (FSS), constitutional growth delay (CGD), total growth hormone deficiency (TGHD), partial growth hormone deficiency (PGHD), or idiopathic short stature (ISS). No difference was observed between subjects with FSS and children with CGD. The mean 12-hour serum GH concentration was significantly lower in patients with TGHD (p less than 0.001), children with PGHD (p less than 0.01), and subjects with ISS (p less than 0.01) than in subjects with FSS and CGD. No overlap was observed between the range of mean concentration values of children with TGHD and that of subjects with FSS. A significant correlation was found between growth velocity expressed as SD from the mean for bone age and GH concentration (p less than 0.001). All patients with a growth velocity less than 3rd percentile for bone age showed a mean nocturnal concentration less than 4 ng/ml. These data suggest that evaluation of 12-hour spontaneous nocturnal GH secretion with GH sampling every 30 minutes can be usefully employed in the diagnosis of GH deficiency.     

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.     

Asymmetrical closure of epiphyses in a patient with sickle cell anemia

There is a high incidence of delayed sexual development and short stature during childhood in children with sickle cell anemia (SCA). We report a 15 year-old male with SCA who presented with significant short stature after a near death event (involving seizures and prolonged hypoxia). His evaluation showed growth hormone (GH) deficiency with low insulin-like growth factor-I (IGF-I), low IGF binding protein-3, and low GH response to stimulation. He was started on GH replacement with poor response in height gain although with normal response in terms of elongation of his arm span. Further studies showed premature closure of the epiphyses of the femora and tibiae bilaterally. This report demonstrates that children with SCA may present with growth failure not only due to nutritional and GH abnormalities but also due to abnormal growth plates, probably due to local anoxic events. Children with SCA should always have their arm span measured carefully.     

Growth hormone status in six children with fetal alcohol syndrome

Objective: Prenatal alcohol exposure may cause fetal alcohol syndrome (FAS), which is associated with pre- and postnatal growth retardation. Materials and methods: Spontaneous 24-h growth hormone (GH) secretion was measured in six prepubertal short children with FAS (two boys and four girls) aged 4-14 years. The response to a GH stimulation test, and levels of insulin-like growth factor-I (IGF-1) and IGF-binding protein-3 (IGFBP-3) were also measured. Comparisons were made between the children with FAS and healthy children of both normal and short stature, as well as children born small for gestational age (SGA). Results: There were no differences in the mean area under the curve above the baseline or the maximum level of GH during a 24-h period (GH_max) between the children with FAS and the reference groups. However, the estimated rate of spontaneous 24-h GH secretion in children with FAS was similar to that of children born SGA, but lower than in children of normal stature ( p = 0.02). The plasma concentrations of IGF-1 and IGFBP-3 were in the lower parts of the normal range. Conclusion: We conclude that GH secretion in short children with FAS is similar to that in short children born SGA; that is, in the lower range of normal children.     

Hajdu-Cheney syndrome with growth hormone deficiency and neuropathy

A Hajdu-Cheney syndrome is a very rare congenital dysplastic bone disease including acro-osteolysis, short stature, characteristic facies, osteopenia, abnormalities of spine, skull and long bones. A 9 year-old boy presented at our clinic with a chief complaint of short stature and frequent lower respiratory tract infections. He had typical physical and radiographic features of Hajdu-Cheney syndrome associated with growth hormone (GH) deficiency and peripheral motor neuropathy. To our knowledge, this is the first report describing GH deficiency and neuropathy in Hajdu-Cheney syndrome.     

Growth failure from symptomless celiac disease. A study of 14 patients.

In 14 children and adolescents, abnormally short stature was shown to be due to celiac disease (CD) though the patients had no current gastrointestinal symptoms. Growth failure had appeared in the first years of life, and was associated with a marked lag in bone age. Subnormal growth hormone (GH) responses were demonstrated in 4 patients, and subnormal ACTH responses in 2. In 1 patient permanent isolated GH deficiency coincided with CD. A jejunal biopsy should form part of the routine diagnostic evaluation for abnormally short stature, except in patients who have had normal growth during the first year of life.     

Growth hormone treatment of short children born small for gestational age: metanalysis of four independent, randomized, controlled, multicentre studies

A minority of children born small for gestational age (SGA) fail to achieve sufficient catch-up growth during infancy and remain short throughout childhood, apparently without being growth hormone (GH) deficient. The effect of GH administration was evaluated over 2 years in short prepubertal children born SGA. The children ( n = 244), who were taking part in four independent multicentre studies, had been randomly allocated to groups receiving either no treatment or GH treatment at a daily dose of 0.1, 0.2 or 0.3 IU/kg (0.033, 0.067 or 0.1 mg/kg) s.c. At birth, their mean length SD score (SDS) was -3.6 and their mean weight SDS -2.6; at the start of the study, mean age was 5.2 years, bone age 3.8 years, height SDS -3.3, height SDS adjusted for parental height -2.4, weight SDS -4.7 and body mass index (BMI) SDS -1.4. The untreated children had a low-normal growth velocity and poor weight gain. Although bone maturation progressed more slowly than chronological age, final height prognosis tended to decrease, according to height SDS for bone age. GH treatment induced a dose-dependent effect on growth, up to a near doubling of height velocity and weight gain; BMI SDS was not altered. Bone maturation was also accelerated differentially; however, final height prognosis increased in all GH treatment groups. The more pronounced growth responses were observed in younger children with a lower height and weight SDS. In conclusion, GH administration is a promising therapy for normalizing short stature and low weight after insufficient catch-up growth in children born SGA. Long-term strategies incorporating GH therapy now remain to be established.     

Arm span, serum IGF-1 and IGFBP-3 levels as screening parameters for the diagnosis of growth hormone deficiency in patients with myelomeningocele – preliminary data

Short stature is a common problem in patients with myelomeningocele (MMC) and hydrocephalus. We evaluated auxological and laboratory parameters to differentiate short stature due to neurological defect from short stature additionally caused by growth hormone deficiency (GHD). In a group of 38 prepubertal patients with MMC and hydrocephalus aged 3.8–11.0 years, auxological parameters, including arm span and bone age, and serum insulin-like growth factor 1 (IGF-1) and insulin-like growth factor binding protein-3 (IGFBP-3) levels were measured. Patients with normal supine length (n = 15) had normal arm span. Serum IGF-1 and IGFBP-3 levels were normal (≥ 10th percentile) in 14/15 patients. Twenty-three MMC patients had short stature (height SDS < −2), 11/23 patients had reduced arm span (SDS < −2), and 12/23 had normal arm span. Serum IGF-1 and IGFBP-3 levels were normal in 10/12 of short statured patients with normal arm span, but low (<10th percentile) in those patients with reduced arm span (IGF-1: 8/11 patients, P<0.05; IGFBP-3: 9/11 patients, P<0.005). In 7/11 short statured MMC patients with reduced arm span and low serum IGF-1 and IGFBP-3 levels, growth hormone secretion was investigated. All had a disturbed growth hormone secretion (GHD: n = 4; neurosecretory dysfunction: n = 3). Conclusion Arm span, serum IGF-1 and IGFBP-3 levels are estimated to be appropriate screening parameters for GHD in patients with MMC. Initiating growth hormone therapy should be considered not only according to endocrine findings but also with respect to neurological and orthopaedic anomalies. Received: 27 March 1997 / Accepted: revised form 18 September 1997     

Clinical and genetic characteristics and effects of long-term growth hormone therapy in a girl with Floating-Harbor syndrome

The established facts to date relating to Floating-Harbor syndrome (FHS) are its characteristic typical triangular facies with bulbous nose and thin lips, short stature, delayed bone age, and mild mental retardation with delay in expressive speech; its sporadic occurrence without Mendelian inheritance; and its unknown cause. Little is known about the growth hormone-insulin-like growth factor 1 (GH-IGF-1) axis and the effect of GH treatment in children with this syndrome. We report on a 9-year-old girl born small for gestational age (SGA, birth length -2.2 standard deviation score) with persistent short stature who has been treated with GH from 3.5 years onward with a modest growth response. Revision of the case led to the diagnosis of FHS. No abnormalities were found in the sequence or copy number of IGF-1 receptor or in the genomic single-nucleotide polymorphism array. GH treatment led to an increase in serum IGF-1 in the upper normal range, but the growth response was modest, suggesting a defect in IGF-1 signaling. Early recognition of this entity is important, as it enables specific diagnostic tests targeted at other abnormalities associated with FHS.     

Floating-Harbor syndrome: first case in Italy associated with growth hormone deficiency

The Floating-Harbor Syndrome (FHS) is a rare entity characterised by a clinical triad: facial dysmorphism, retarded speech development and short stature with delayed bone age. The case of a 9-year and 8/12 months old boy showing the typical features of this syndrome associated to a severe GH deficiency is reported. At diagnosis of FHS, the weight was 16 kg (< 3 degrees percentile), height 112 cm (< 3 degrees percentile), cranial circumference 53.8 cm (> 90 degrees percentile). The evaluation of growth hormone secretion by two Insulin Tolerance Tests confirmed an insufficient GH peaks response (2.7 ng/ml and 4.6 ng/ml). He had a slight mental delay (IQ: 60) involving language skills. After 1 year of treatment with r-hGH (0.6 IU/kg/week), an increase in growth velocity (11 cm/year) in the length (123 cm), and in body weight (20.5) has been observed. This case is the 22nd report with this syndrome and the first in Italy. The association between GH deficiency and FHS, and the beneficial effects of a substitutive treatment are described.     

Growth hormone therapy in short stature

Unlimited availability of growth hormone (GH), and the demonstration of increased growth velocity (GV) during GH treatment in non-GH-deficient children have suggested new indications for GH therapy in short stature. There are two principle conditions with GH-related short stature: classical growth hormone deficiency (CGHD) and growth hormone neurosecretory dysfunction (GHND). Present knowledge about the effects of GH treatment in these and other disorders of short stature are reviewed. In non-CGHD, it is not possible to predict the short-term effect on growth during GH therapy, and even if GV increases, the effect on final adult height remains to be documented. This, together with potential side effects and the high expense of GH treatment, exhort to a restricted attitude towards routine GH treatment of short children without GH deficiency.     

Recombinant human growth hormone treatment in children with thalassemia major

BACKGROUND: To evaluate the growth hormone reserve and the growth hormone response to recombinant human growth hormone (GH) in prepubertal thalassemic children with growth retardation. METHODS: Twenty thalassemic patients with short stature and delayed bone age were studied. Patients were randomized into GH-treated (n = 10) and non-GH treated (control; n = 10) groups. The GH-treated group received recombinant human (rh)-GH (Genotropin) at the dose of 0.7 IU/kg per week for 12 months. RESULTS: There was a significant discordance between GH response to pharmacologic stimuli and physiological secretion of GH/GHRH testing. Following the administration of rhGH, growth velocity increased from 2.47 +/- 0.48 cm/year to 6.27 +/- 0.76 cm/year (P = 0.005), whereas there was not a similar change in the non-GH-treated group. The height velocities of the two groups during the 1 year follow-up period were significantly different (6.27 +/- 0.76 vs 3.99 +/- 0.34 cm/year; P = 0.025). There were significant differences between the height velocity improvements and height velocity standard deviation scores of the two groups as well. CONCLUSION: The present study has demonstrated that rhGH is a safe and efficacious mode of treatment in thalassemic children.     

Stimulation of collagen synthesis and linear growth by growth hormone in glucocorticoid-treated children.

Impaired linear growth and skeletal maturation associated with chronic glucocorticoid therapy may result from (1) inhibited insulin-like growth factor 1 (IGF-1) activity; (2) impaired type 1 collagen synthesis; or (3) suppressed growth hormone (GH) secretory response to growth hormone-releasing hormone. Each mechanism could potentially be improved by exogenous GH treatment. Seven slowly growing glucocorticoid-treated children received recombinant DNA human GH (0.3 mg/kg/per week) for 6 to 21 (mean 13.1 +/- 4.9) months. Height, weight, IGF-1 activity, glycosylated hemoglobin level, and C-terminal type 1 procollagen level were measured every 3 months and growth velocity was calculated. Skeletal maturation and 2-hour postprandial serum glucose and insulin levels were assessed every 6 months. All patients showed increased growth velocity during treatment with GH. Mean growth velocity increased from 3.43 +/- 0.65 cm/y to 6.72 +/- 0.84 cm/y with GH therapy (P less than .005). Growth velocity standard deviation scores corrected for bone age (P less than .005), IGF-1 levels (P less than .05), and C-terminal type 1 procollagen levels (P less than .005) also increased with GH therapy. C-terminal type 1 procollagen levels correlated well with growth velocity (r = .652) while IGF-1 levels did not (r = .17). Glycosylated hemoglobin levels remained unchanged, but 2-hour postprandial glucose levels rose during GH treatment. Slowly growing glucocorticoid-treated children receiving GH therapy increased growth velocity for 6 to 21 months. Initially diminished C-terminal type 1 procollagen levels rose with GH therapy, a change which corresponded with growth acceleration.(ABSTRACT TRUNCATED AT 250 WORDS)     

Effect of growth hormone therapy on height in children with idiopathic short stature: a meta-analysis

CONTEXT: Use of growth hormone (GH) therapy to promote growth in children with idiopathic short stature is controversial. A fundamental issue underlying the controversy is uncertainty about the magnitude of effectiveness of GH for this condition. OBJECTIVE: To determine the effect of GH on short- and long-term growth in idiopathic short stature. STUDY DESIGN: Systematic review of controlled and uncontrolled studies. DATA SOURCES: MEDLINE (1985-2000), key journals, cross-referencing of bibliographies, abstract booklets, and experts. STUDY SELECTION AND DATA EXTRACTION: We performed a meta-analysis of all studies satisfying the inclusion criteria for idiopathic short stature: initial height below the 10th percentile, normal stimulated GH levels (>10 microg/L), absence of comorbid conditions, no previous GH therapy, treatment with biosynthetic GH, and inclusion of major outcome measures. PRIMARY OUTCOME MEASURES: Growth velocity and height SD score (number of SDs from mean height for age and sex) at baseline and after 1 year to evaluate the short-term effect of GH. Adult height was analyzed to evaluate the long-term effect of GH. DATA SYNTHESIS: Ten controlled trials (434 patients) and 28 uncontrolled trials (655 patients) met the inclusion criteria. While baseline growth velocities were equivalent at baseline, 1-year growth velocity of the GH-treated group significantly exceeded that of controls by 2.86 cm/y. Similarly, in uncontrolled trials, growth velocity increased after 1 year, and height SD score increased from -2.72 at baseline to -2.19. In controlled studies, the adult height of the GH-treated group significantly exceeded controls by 0.84 SD, and in uncontrolled trials the adult height attained after GH treatment (-1.62 SDs) exceeded that predicted at baseline (-2.18 SDs). These results suggest an average gain in adult height of approximately 4 to 6 cm (range, 2.3-8.7 cm) with GH therapy. Given current treatment costs, this corresponds to more than $35 000 per inch (2.54 cm) gained in adult height in idiopathic short stature. CONCLUSIONS: Treatment with GH results in short-term increases in growth for children with idiopathic short stature, and long-term GH can increase adult height. These results are fundamental to decisions about GH use and raise questions about the goals of treatment. Use of GH for idiopathic short stature in clinical practice will depend on its efficacy in promoting growth and the value of this effect to families, physicians, and third-party payers.     

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目的探讨血清生长激素(GH)、胰岛素样生长因子-1(IGF-1)及尿GH检测对矮小儿童诊断的意义。方法华中科技大学同济医院儿科于2004-11—2005-06对106例矮小儿童进行垂体功能复合刺激试验,试验前收集所有受试者夜间12h(2000~800)尿。另选取19例正常青春发育期前儿童为对照组。对垂体功能复合刺激试验GH分泌异常的56例矮小儿童,用ELISA方法检测相应的血清GH、IGF-1及尿中GH水平,并进行相关分析。结果根据垂体功能复合刺激试验的GH检测结果将矮小儿分类,包括完全性GH缺乏症(cGHD)25例、部分性GH缺乏症(pGHD)9例和GH神经分泌功能障碍(GHND)22例。GHD组患儿血清IGF-1、尿GH水平与正常儿相比明显降低(P<0·01)。pGHD和GHND组患儿血IGF-1水平波动较大,无统计学差异。GHND组患儿尿GH水平按ng/g肌酐(Cr)计量显著低于正常对照相(P<0·05),而按ng/12h尿量计算值虽低于正常组,但无统计学意义(P>0·05)。pGHD组患儿尿GH水平按两种方法计量值均介于正常和GHD患者之间,与正常及GHD患者比较均有显著性差异(P均<0·05)。cGHD和pGHD组患儿尿GH的ng/gCr计量值与其血GH峰值呈显著性正相关(rcGHD=0·556,P<0·05;rpGHD=0·423,P<0·05),GHND组患儿尿GH的ng/gCr计量值与其血中GH峰值无相关性(P>0·05)。结论尿GH水平测定无创、简便,配合IGF-1等指标的检测,对于矮小儿童的诊断和鉴别诊断具有重要意义。     

Predictors of growth response to growth hormone in otherwise normal short children.

Sixty prepubertal short children (39 boys) with heights less than 2 SD for age and gender were treated daily for 1 year with recombinant human growth hormone (GH), either 0.1 IU/kg (group 0.1, n = 32) or 0.05 IU/kg (group 0.05, n = 28). Reserve of GH was determined by at least one GH provocative stimulus and 24-hour continuous blood withdrawal to determine the integrated concentration of GH (IC-GH). All participants had a GH response to provocative tests greater than 10 micrograms/L. The height velocity (mean +/- SD) of the group as a whole increased from 4.46 +/- 1.02 to 7.59 +/- 1.65 cm/yr (p less than 0.001). The growth velocity of group 0.1 was significantly greater than that of group 0.05 (8.1 +/- 1.5 vs 7.0 +/- 1.65 cm/yr; p less than 0.01). Bone age did not advance more than 1 year during the treatment period. Growth velocity after 1 year of GH therapy was inversely correlated with the IC-GH in both groups, as was the pretreatment height velocity. We found no correlation of growth velocity during GH therapy with other measures such as parental heights, bone age/chronologic age ratio, maximal GH response to provocative tests, chronologic age, or pretreatment insulin-like growth factor I levels. We conclude that the best predictors for the 1-year growth outcome of short children with a normal GH response to provocative tests are the pretreatment growth velocity and the IC-GH. The short-term benefit from GH therapy in children with a normal growth velocity and a normal IC-GH is poor, whereas marked growth acceleration is noted in children with a low growth velocity and a low 24-hour IC-GH.     

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.     

Is insulin-like growth factor-1 monitoring useful in assessing the response to growth hormone of growth hormone-deficient children?

OBJECTIVE: To assess the relationship between insulin-like growth factor-1 (IGF-1), the growth hormone (GH) dose utilized to treat GH-deficient children and the changes noticed in height-standard deviation score (H-SDS) and height velocity (HV). STUDY DESIGN: We studied 24 prepubertal GH-deficient patients with a mean age of 10.5 +/- 1.8 years and a mean bone age (BA) of 8.4 +/- 2.1 years. H-SDS for chronologic age (CA) and BA before therapy were -2.6 +/- 0.8 and -1.2 +/- 0.8, whereas height velocity (HV)-SDS was -1.1 +/- 1.5. Serum IGF-1 and insulin-like growth factor binding protein-3 (IGFBP-3) levels were measured before, after 6 and 12 months of GH, and correlated with the GH dose used. Based on the increment of IGF-1 used during treatment, patients were divided into 2 groups: G1 (>1 SDS) and G2 (<1 SDS). HV-SDS and interval height increases were analyzed. RESULTS: HV-SDS, as well as H-SDS for CA and BA during the first year of treatment, were significantly greater than before therapy. IGF-1 SDS increased significantly during the first 6 months of therapy (P <.0003), but increased no further at 12 months despite the use of a higher GH dose (0.1 vs 0.14 IU/kg/day), whereas IGFBP-3 SDS increased at both 6 and 12 months. There was no correlation between the GH dose used and IGF-1 and IGFBP-3 levels. When patients were divided according to their IGF-1 increment during therapy, a significant increase in H-SDS for BA and in HV-SDS was noted only in group 2. CONCLUSIONS: The increment in IGF-1 SDS during therapy did not correlate with the interval height increase. IGF-1 measurement may be helpful in monitoring compliance and safety, but seems to be less useful in adjusting the GH dose needed to treat prepubertal GH-deficient children.