Growth hormone treatment and quality of life among survivors of childhood cancer

Background: We report the health-related quality of life (QOL) of survivors of childhood cancer (acute lymphoblastic leukaemia, ALL, or central nervous system, CNS, tumour), and whether or not they had growth hormone deficiency (GHD) requiring growth hormone treatment (GHT). Method: We assessed 77 survivors of childhood ALL (n = 51) or CNS tumours (n = 26), aged between 8-18 years, and free from disease for > or = 4 years. Survivors and their mothers independently rated survivors' QOL, and mothers completed semi-structured interviews to determine their views of the benefits and disadvantages of GHT. Results: Survivors, especially those treated for a CNS tumour, reported poorer QOL compared with UK population norms. Although survivors of ALL reported better QOL than survivors of CNS tumours, there were no differences depending on whether or not they were prescribed GHT. However, mothers reported that those prescribed GHT had worse QOL than those not. All but 2 survivors were responsible for their own injections. A minority of mothers were disappointed with the child's rate of growth, and reported that children experienced pain with injections. Conclusion: We conclude that QOL in survivors of childhood cancer is compromised compared with the normal population, especially following CNS tumours. Longitudinal studies are vital to determine whether GHT can contribute to improved QOL for cancer survivors, especially those who experience more intensive initial therapy regimes.     

Trends In Growth Hormone Stimulation Testing And Growth Hormone Dosing In Adult Growth Hormone Deficiency Patients: Results From The Answer Program

Objective: Adult growth hormone deficiency (AGHD) results in physiologic impairments that may reduce quality of life and negatively impact body composition. AGHD can be treated with recombinant human growth hormone (GH). This study analyzes AGHD patients enrolled in the American Norditropin® Studies: Web-Enabled-Research (ANSWER) Program/NovoNet, a U.S. observational noninterventional study of patients treated with Norditropin® (somatropin [recombinant DNA origin] injection) at the discretion of their physicians.Methods: Data were evaluated for GH stimulation test (GHST) usage and Norditropin® doses over 4 years.Results: Adults (N = 468) with isolated GHD (IGHD) or multiple pituitary hormone deficiency (MPHD) were evaluated. The most commonly used GHSTs were arginine + L-dopa (27%; mostly a single center) and glucagon (25%; most frequent test after 2009). The percent of patients meeting recommended test-specific cut points varied from 32 to 100%, depending on the GHST used. Mean baseline GH doses were higher for MPHD patients and for younger patients in both IGHD and MPHD groups.Conclusion: MPHD was more common than IGHD. Mean GH doses were higher in younger patients, consistent with a transition from higher pediatric to lower adult dosing. Over time, glucagon became the most popular GHST. The use, in some patients, of other GHSTs with cut points, as well as starting doses not consistent with current recommendations, highlights the need for continued education regarding treatment guidelines for AGHD.Abbreviations:AACE = American Association of Clinical EndocrinologistsAGHD = adult growth hormone deficiencyANSWER = American Norditropin® Studies: Web-Enabled-ResearchBMI = body mass indexGH = growth hormoneGHD = growth hormone deficiencyGHRH = growth hormone-releasing hormoneGHST = growth hormone stimulation testIGF-1 = insulin-like growth factor-1IGHD = isolated growth hormone deficiencyITT = insulin tolerance testKIMS = Pfizer International Metabolic DatabaseMPHD = multiple pituitary hormone deficiencyTES = The Endocrine Society     

Spontaneous nocturnal leptin secretion in children with myelomeningocele and growth hormone deficiency

OBJECTIVE: To examine the spontaneous leptin secretion in patients with myelomeningocele (MMC) and growth hormone deficiency (GHD). METHODS: Serum leptin levels were studied in 10 prepubertal MMC patients with GHD (CA 6.2 +/- 0.5 years), 10 patients with idiopathic GHD (IGHD; CA 7.6 +/- 0.7 years) and 12 children with normal variant short stature (NVSS; CA 7.6 +/- 0.5 years). Mean BMI (kg/m(2)) values of the groups did not differ significantly. Nocturnal leptin levels were analyzed over 10 h (blood samples every 20 min) and measured by specific radioimmunoassay. RESULTS: Mean leptin concentrations did not correlate with BMI in MMC patients. Nocturnal leptin secretion of MMC patients was significantly different to those of children with IGHD and NVSS. Morning leptin levels did not decline as observed in both other groups. CONCLUSION: Since all groups were matched for BMI values, we suggest a hypothalamic dysregulation of leptin secretion in MMC patients.     

Plasma growth hormone response to synthetic GH-RH1-44 in 52 children and adults with growth hormone deficiency of various etiologies

52 patients (42 children and 10 adults) with growth hormone deficiency (GHD), grouped into four diagnostic categories, and 6 children with constitutional short stature who served as controls were tested for plasma GH response to synthetic GH-RH1-44 given in an intravenous bolus. The response was classified into three degrees according to the magnitude of the maximal rise: Good, greater than 9 ng/ml; Partial, 3.1-9.0 ng/ml; None, less than or equal to 3 ng/ml. Among the GHD patients the highest response was observed in patients with partial growth hormone deficiency (PGHD), and 60% of the children with isolated GH deficiency (IGHD) showed an increase in plasma GH levels. Nevertheless, the response of the GHD patients was lower than that in the control group. In the children and adolescents with PGHD and IGHD the response was not age related. Among those with multiple pituitary hormone deficiencies-idiopathic (MPHD-ID) there was no response in the adolescents although a hypothalamic disorder had been documented by other tests. Among those with MPHD-organic (MPHD-ORG) the GH-RH stimulated GH secretion in the patients with glioma, who had received only irradiation treatment, and in the youngest of the patients with craniopharyngioma. Of the 10 young adults tested none showed a good response. It is concluded that GH-RH is useful in differentiating between GH deficiency of hypothalamic origin and that of pituitary origin, and in selecting those patients who might benefit from long-term treatment with GH-RH in the future.     

Isolated growth hormone deficiency and the GH-1 gene: update 2002

This short review will focus on the mechanisms which are thought to be directly involved in GH expression and particularly on the monogenetic disorders which were shown to cause isolated growth hormone deficiency (IGHD) due to insufficient expression of GH. The overwhelming majority of genetic defects detected in isolated growth hormone deficiency (IGHD) are mutations of the coding region of the GH-1 gene which belongs to a five genes containing gene cluster located on 17q22-24. Depending on the type of the GH-1 gene mutation, the mode of inheritance is recessive or dominant. The promotor region of the GH-1 gene which encompasses the 300 bp of the 5' flanking region is highly polymorphic, but the functionally important cis-acting elements are conserved. This sequence is sufficient to control GH expression in cultured cells, but not in transgenic mice: the human GH locus control region, an enhancer region of the GH-1 gene located approximately 15-32 kB upstream of the GH-1 coding region was shown to direct pituitary-specific, high-level GH expression in vivo. Promotion of the GH expression needs the coordinate binding of pituitary-specific (i.e., POU1F1) and ubiquitous trans-acting factors to the cis-acting elements. The mutational analysis of trans-acting factors and cis-acting elements of the GH-1 gene has so far not established any defect outside the coding region as the genetic basis of IGHD except for POU1F1 mutations which cause multiple pituitary hormone deficiency including GHD. Several mutations of the GHRH-receptor gene were shown to result in severe IGHD. In the future, the discovery of new defects of the GH expression machinery will add to our understanding of how GH is sufficiently supplied to the organism and will hopefully simplify and improve the diagnostic approach in a subset of children with IGHD.     

The use of growth hormone-releasing hormone in the diagnosis and treatment of short stature

We have assessed the role of growth hormone-releasing hormone (GHRH) as a diagnostic test in 40 children and young adults with growth hormone deficiency (GHD), principally using the GHRH(1-29)NH2 analogue. Following 200 micrograms GHRH as an acute intravenous bolus, serum GH rose to normal or just subnormal levels in 13 out of 17 children with structural lesions, and in 8 of 14 patients with idiopathic GHD or panhypopituitarism. Of 9 children (mean age 12 years) with GHD following treatment with cranial irradiation for nonendocrine tumours, all responded acutely to GHRH. 12- and 24-hour infusions with GHRH(1-29)NH2, and 1- and 2-week treatments with twice-daily subcutaneous GHRH(1-29)NH2, showed persistent stimulation of GH release. It is concluded that many children with GHD of diverse aetiology will respond both acutely and chronically to treatment with GHRH.     

Prevalence of severe growth hormone deficiency.

Four hundred and forty-nine short children, who were all over 2-5 standard deviations below the mean height for age, were identified by screening the heights of 48 221 6- to 9-year-old children in three Scottish cities. Most were screened for growth hormone deficiency (GHD). The prevalence of severe GHD in this sample may have been as high as 1 in 4018, much higher than reported. The findings suggest that present referral patterns may account for the delayed or missed diagnosis of the condition in girls or children with less severe short stature.     

Novel insights into the aetiology and pathogenesis of hypopituitarism

Recent advances in our knowledge of pituitary development, acquired mainly from animal models, have enhanced our understanding of the aetiology of isolated growth hormone deficiency (IGHD) and combined pituitary hormone deficiency (CPHD), as well as several syndromic forms of growth hormone deficiency (GHD). A number of developmental genes known to be important for organ commitment and cell differentiation and proliferation (HESX1, LHX3, LHX4, PROP1 and PIT1) have been implicated in CPHD with or without other syndromic features. Phenotypes associated with these genetic mutations and their inheritance may be highly variable. Functional analyses of these mutations reveal valuable insights into the function of the proteins and hence into the effect of these mutations on phenotype. Novel insights have been gained into the mechanisms whereby these genes are associated with particular phenotypes as a result of murine transgenesis, e.g. type II autosomal dominant GHD. Mutations within known genes account for a small proportion of cases of IGHD and CPHD, suggesting the role of other as yet unidentified genetic and environmental factors. Hence, genetic testing will in the future have a greater role to play in understanding the mechanisms leading to particular hypopituitary phenotypes and also in predicting the evolution of these disorders. There is, however, no substitute for careful delineation of the phenotype prior to undertaking genetic studies.     

Insulin-like growth factor I (IGF-I) and IGF-binding protein 3 as diagnostic markers of growth hormone deficiency in infancy

BACKGROUND: The diagnosis of growth hormone deficiency (GHD) in infancy is difficult, and no specific cutoff value during GH provocative testing is recommended in early life. METHODS: Serum insulin-like growth factor I (IGF-I) and serum IGF-binding protein 3 (IGFBP-3) levels were evaluated as diagnostic markers of GHD. Measurements of IGF-I and IGFBP-3 during the 1st year of life were analyzed in 11 patients clinically suspected of having GHD (neonatal hypoglycemia, micropenis, or evidence of other pituitary hormone deficiencies), in whom the diagnosis was later verified. A prospective cohort of 51 healthy infants served as controls. RESULTS: The sensitivity of IGF-I as a diagnostic marker of GHD was 90% (10 out of 11 patients) with a cutoff value of -2 standard deviations (SD), and the sensitivity of IGFBP-3 measurements was 81% (9 out of 11 patients) with a cutoff value below -2 SD. One patient had serial measurements before initiation of GH treatment where the IGF-I was fluctuating (3 of 6 slightly above -2 SD), whereas all IGFBP-3 measurements were below -2 SD. CONCLUSIONS: The IGF-I had a high sensitivity in detecting infants with GHD. The combination of IGF-I and IGFBP-3 increased the diagnostic sensitivity. We speculate that assessment of IGF-I and IGFBP-3 may add diagnostic value in infants suspected of having GHD and furthermore that values below -2 SD are highly suggestive of GHD.     

Effects of recombinant human growth hormone on height and skeletal maturation in growth hormone-deficient children with and without severe pretreatment bone age delay

The relative effects of growth hormone (GH) on GH-deficient (GHD) children with and without severely delayed skeletal maturation prior to treatment are unclear. METHODS: Pre-pubertal GHD children enrolled in the National Cooperative Growth Study were divided into two groups: severe pretreatment BA delay (BA Z-score 相似文献   

Molecular characterization in a case of isolated growth hormone deficiency and further prenatal diagnosis of an unborn sibling

Familial isolated growth hormone deficiency (GHD) type 1 is characterized by an autosomal recessive pattern of inheritance with varying degrees of phenotypic severity. We report a proband, with isolated GHD (IGHD) with very early growth arrest and undetectable levels of GH. Homozygous complete deletion of the GH1 gene was identified by real-time/quantitative polymerase chain reaction (RT/q-PCR) and confirmed by an independent molecular genetic method; the multiplex ligation-dependent probe amplification (MLPA) technique. Prenatal diagnosis was offered for the subsequent pregnancy in the mother of our proband. Identical heterozygous deletion of the GH1 gene was detected in both parents. The fetus had a similar homozygous deletion of the GH1 gene. We thus report a unique case with a confirmed mutation in GH1 gene in the proband followed by prenatal detection of the same mutation in the amniotic fluid which to our knowledge hitherto has not been documented from India.     

Response to long-term growth hormone therapy in short children with reduced GH bioactivity

BACKGROUND/AIMS: The aim of the present study was to investigate whether short children with normal growth hormone (GH) immunoreactivity, but reduced bioactivity (bioinactive GH) could benefit from rhGH treatment as GH deficient (GHD) patients. Methods: We evaluated 12 pre-pubertal children (8 M, 4 F), with GH deficiency-like phenotype showing normal serum GH peak levels (>10 ng/ml), measured by immunofluorimetric assay (IFMA-GH), in contrast with a reduced GH bioactivity (bio-GH), evaluated using the Nb(2) cells. We also evaluated 15 age-matched GHD pre-pubertal children (11 M, 4 F) with serum GH peak <5 ng/ml. Both groups were treated with rhGH therapy at the dose of 0.23 mg/kg/week s.c. RESULTS: Serum bio-GH/IFMA-GH ratio at peak time for each patient during the provocative test was significantly lower in bioinactive GH than in GHD children (0.29 vs. 2.05, p = 0.00001). Recombinant human GH therapy induced a significant (p < 0.001) increase in growth rate in both groups during the first 2 years. In the third year of treatment, while growth rate in GHD children is maintained, in bioinactive GH patients it decreases remaining, however higher compared to the pre-treatment one. CONCLUSIONS: Short rhGH therapy given to selected bioinactive GH children improve growth rate and might result in greater final adult height.     

Long-term evolution of endocrine disorders and effect of GH therapy in 35 patients with pituitary stalk interruption syndrome

We report long-term evolution of endocrine functions and the results of GH treatment in 35 patients (26 male and 9 female) with pituitary stalk interruption. At diagnosis, mean chronological age was 4.8 +/- 2.7 years, mean SDS for height -3.1 +/- 0.8 with a bone age retardation of 2.3 +/- 1.3 years and a mean SDS for growth velocity of -0.5 +/- 1.1; 80% presented complete GH deficiency (GHD) and 20% partial GHD; thyroid deficiency was present in 47.1% of children with complete GHD but absent in all partial GHD. Diagnosis was made during the first months of life in only 2 patients while 23% presented with severe neonatal distress; neonatal signs were only observed in the group with pituitary height below 2 mm (45.7% of patients). GHD was isolated in 40.6% of patients below 10 years while multiple hormone deficiencies was consistent at completion of growth in all patients. Height gain was significantly higher in patients who started GH treatment before 4 years (p = 0.002). GH treatment is very effective: in 13 patients, final height was -0.4 +/- 1.0, total height gain 3.2 +/- 1.2 and distance to target height -0.3 +/- 1.6 SDS.     

Spontaneous prolactin secretion in growth hormone-deficient children.

OBJECTIVE: To establish the spontaneous nocturnal prolactin (PRL) release in relation to growth hormone (GH)-deficient children and idiopathic short-stature children (ISS). METHODS: A total of 32 prepubertal children (11 girls, 21 boys) aged between 3 and 12 years were studied retrospectively and sorted according to diagnosis: idiopathic GH deficiency (GHD, n = 9), neurosecretory deficiency of GH secretion (NSD, n = 10) and ISS (n = 13). Nocturnal spontaneous hormone secretion was studied by intermittent venous sampling. Secretion profiles and copulsatility were analyzed using Pulsar and AnCoPuls software. RESULTS: (median, range in mug/l): Children with GHD and NSD had significantly lower GH and area-under-the-curve (AUC) levels than normal children (p < 0.001), whereas ISS children showed normal values. In contrast, prolactin levels were significantly higher (p < 0. 05) in children with GHD and NSD (11.1, 4.9 - 13.0 and 10.3, 8. 8 - 19. 6, respectively) compared to the ISS children (8.0, 4.9 - 13.0). In addition, prolactin AUC and peak height were higher (p < 0.05) in GH-deficient patients, whereas all other secretion parameters were the same. Correlation and copulsatility analysis revealed no evidence for a direct relation between PRL and GH secretion. CONCLUSIONS: PRL secretion is significantly higher in children with GHD and NSD compared to ISS children but PRL and GH show no copulsatile secretion pattern.     

Relevance of IGF-I, IGFBP-3, and IGFBP-2 measurements during GH treatment of GH-deficient and non-GH-deficient children and adolescents

BACKGROUND: Little information is available on the relevance of parameters representing the insulin-like growth factor (IGF) system with regard to growth hormone (GH) treatment during childhood. In adults, high IGF-I levels were found to be associated with side effects and long-term risks. AIM/METHOD: Our aim was to monitor the serum levels of IGF-I, IGF-binding protein (IGFBP) 3, and IGFBP-2 during long-term GH treatment of 156 patients with GH deficiency (GHD) and of 153 non-GHD patients. We determined the extent to which the IGF parameters exceed the normal ranges and identified those parameters which are predictive of 1st-year growth. RESULTS: In prepubertal GHD children, the levels of IGF-I, IGFBP-3, and IGF-I/IGFBP-3 exceeded the 95th centile of the reference values for this age group in 2.3, 0.3, and 7.9% of the cases, respectively, whereas in prepubertal non-GHD children, the same parameters exceeded the 95th reference centile in 20.1, 3.5, and 32.2%, respectively. In pubertal GHD children IGF-I, IGFBP-3, and IGF-I/IGFBP-3 levels exceeded the 95th reference centile in 11.1, 1.5, and 15.4%, respectively. In pubertal non-GHD children, these levels also exceeded the 95th centile in 26.7, 7.0, and 41.4%, respectively. In both GHD and non-GHD groups, however, some patients had IGF parameters which were below the reference values. Our analysis showed that, in both groups, in addition to maximum GH, all IGF parameters (IGF-I, IGFBP-3, IGF-I/IGFBP-3 ratio, IGFBP-2 or derivatives) significantly extend the scope of a calculated model for predicting 1st-year height velocity. CONCLUSION: For reasons of safety and optimization of GH therapy, it is essential to follow up IGF-I, IGFBP-3, and IGFBP-2 levels regularly during childhood.     

Morphological changes in the central sulcus of children with isolated growth hormone deficiency versus idiopathic short stature

In this study, the morphological changes in the central sulcus between children with isolated growth hormone deficiency (IGHD) and those with idiopathic short stature (ISS) were analyzed. Thirty children with IGHD (peak growth hormone < 5 µg/L) and 30 children with ISS (peak growth hormone > 10.0 µg/L) were included. Morphological measurements of the central sulcus were obtained from T1‐weighted MRIs using BrainVISA, including the average sulcal width, maximum depth, average depth, top length, bottom length, and depth position‐based profiles (DPPs). The bilateral average width of the central sulci was significantly wider, while the left maximum depth and right average depth of the central sulcus were significantly smaller, in children with IGHD than in children with ISS. There were no significant differences in the right maximum depth, left average depth, or bilateral top length and bottom length of the central sulcus between groups. The DPPs of the middle part of both central sulci (corresponding to the hand motor activation area) and the inferior part of the right central sulcus (corresponding to the oral movement area) near the Sylvian fissure were significantly smaller in children with IGHD than in controls before false discovery rate (FDR) correction. However, all the above significant DPP sites disappeared after FDR correction. There were significant morphological changes in the three‐dimensional structure of the central sulcus in children with IGHD, which were the outcome of other more essential cortical or subcortical changes, resulting in their relatively slower development in motor, cognitive, and linguistic functional performance.     

Effects of growth hormone therapy on glucose metabolism and insulin sensitivity indices in prepubertal children with Prader-Willi syndrome

In Prader-Willi syndrome (PWS) growth hormone therapy (GHT) improves height, body composition, agility and muscular strength. In such patients it is necessary to consider the potential diabetogenic effect of GHT, since they tend to develop type 2 diabetes, particularly after the pubertal age. The aim of our study was to investigate the effects of GHT on glucose and insulin homeostasis in PWS children. An oral glucose tolerance test (OGTT) was performed in 24 prepubertal PWS children (15 male, 9 female, age: 5.8 +/- 2.8 years), 16 were obese (group A) and 8 had normal weight (group B), before and after 2.7 +/- 1.3 years GHT (0.22 +/- 0.03 mg/kg/week) and, only at baseline, in 35 prepubertal children with simple obesity (19 male, 16 female) (group C). Fasting glucose and insulin, glucose tolerance, insulin sensitivity index (ISI), homeostasis model assessment of insulin resistance (HOMA-IR), quick insulin check index (QUICKI), area under the curves (AUC) of glucose and insulin were estimated. At the start of GHT, all PWS children were normoglycaemic and normotolerant but two developed impaired glucose tolerance after 2.2 and 1.9 years of therapy, respectively. At baseline, group A showed lower fasting insulin levels, HOMA-IR and AUC of insulin, higher ISI, QUICKI and AUC of glucose than group C. Comparing groups A and B, AUC of insulin was higher and ISI lower in group A. During GHT, a significant increase of fasting insulin and glucose, a worsening of insulin resistance (HOMA-IR) and insulin sensitivity (QUICKI) was found only in group A while ISI did not change. The AUC of glucose decreased in both groups instead AUC of insulin did not change. BMI-SDS decreased in group A and increased in group B. The increased insulin resistance and decreased insulin sensitivity in obese PWS patients, as well as the occurrence of impaired glucose tolerance during GHT, suggest that a close monitoring of glucose and insulin homeostasis is mandatory, especially in treated obese PWS children.     

Association of Daily Growth Hormone Injection Adherence and Height Among Children With Growth Hormone Deficiency

ObjectiveRecombinant human growth hormone (somatropin) is recommended for children with growth hormone deficiency (GHD) to normalize adult height. Prior research has indicated an association between adherence to somatropin and height velocity. Further research is needed using real-world data to quantify this relationship; hence the objective of this study was to investigate the association between adherence to somatropin and change in height among children with GHD.MethodsThis retrospective cohort study included patients in the IQVIA PharMetrics Plus and Ambulatory Electronic Medical Records databases aged 3 to 15 years, with ≥1 GHD diagnosis code claim and newly initiated on somatropin between January 1, 2007 and November 30, 2019. Adherence was measured over the follow-up using the medication possession ratio (MPR); patients were classified as adherent (MPR ≥ 0.8) or nonadherent (MPR < 0.8).ResultsAmong 201 patients initiated on somatropin, 74.6% were male, mean age was 11.4 years, and the mean follow-up was 343.3 days. Approximately 76.6% of patients were adherent to somatropin over the follow-up period. Adjusted growth trajectories were similar between adherent and nonadherent patients pre-treatment initiation (P = .15). Growth trajectories post-initiation were significantly different (P = .001). On average, adherent patients gained an additional 1.8 cm over 1 year compared with nonadherent patients, adjusted for covariates.ConclusionGreater adherence to somatropin therapy is associated with improved height velocity. As suboptimal adherence to daily somatropin therapy is an issue for children with GHD, novel strategies to improve adherence may improve growth outcomes.     

Parathyroid responsiveness to hypocalcemic and hypercalcemic stimuli in adult growth hormone deficiency after growth hormone replacement

Adult growth hormone deficiency (AGHD) is associated with osteoporosis. Previous reports have suggested that alterations in parathyroid gland responsiveness to changes in calcium concentration may play a role in the genesis of osteoporosis in untreated AGHD patients. We investigated the endogenous parathyroid hormone [PTH-(1-84)] response to hypocalcemic and hypercalcemic stimuli induced by sodium EDTA and calcium gluconate infusion, respectively, and to PTH-(1-34) infusion in AGHD patients before and during GH replacement (GHR). We have demonstrated that the maximum PTH-(1-84) stimulation and suppression occurred at significantly higher calcium concentrations and in response to smaller changes in calcium concentrations after GHR. The calcemic response to the effects of PTH-(1-34) infusion significantly increased after GHR. The calcium set point (the calcium concentration at which the rate of PTH secretion is one-half of its maximal value) significantly increased in all groups after 3 mo on GHR, and it increased further at 12 mo. Our results suggest increased parathyroid gland sensitivity to smaller changes in serum calcium and increased end-organ sensitivity to the effects of PTH in AGHD patients after GHR. These findings may help us to understand the mechanisms underlying the genesis of osteoporosis in AGHD patients.     

Effect of growth hormone-releasing factor on plasma growth hormone, prolactin and somatomedin C in hypopituitary and short normal children

We studied the effect of a single intravenous bolus of 0.5 microgram/kg of growth hormone-releasing factor (GRF) on plasma GH, prolactin (PRL) and somatomedin C (SMC) in 12 short normal children and 24 patients with severe GH deficiency (GHD), i.e. GH less than 5 ng/ml after insulin and glucagon tolerance tests. GRF elicited an increase in plasma GH in both short normal and GHD children. The mean GH peak was lower in the GHD than in the short normal children (8.2 +/- 2.5 vs. 39.2 +/- 5.1 ng/ml, p less than 0.001). In the GHD patients (but not in the short normals) there was a negative correlation between bone age and peak GH after GRF (r = -0.58, p less than 0.005); GH peaks within the normal range were seen in 5 out of 8 GHD children with a bone age less than 5 years. In the short normal children, GRF had no effect on plasma PRL, which decreased continuously between 8.30 and 11 a.m. (from 206 +/- 22 to 86 +/- 10 microU/ml, p less than 0.005), a reflection of its circadian rhythm. In the majority of the GHD patients, PRL levels were higher than in the short normal children but had the same circadian rhythm, except that a slight increase in PRL was observed 15 min after GRF; this increase in PRL was seen both in children with isolated GHD and in those with multiple hormone deficiencies; it did occur in some GHD patients who had no GH response to GRF. Serum SMC did not change 24 h after GRF in the short normal children. We conclude that: (1) in short normal children: (a) the mean GH response to a single intravenous bolus of 0.5 microgram/kg of GRF is similar to that reported in young adults and (b) GRF has no effect on PRL secretion; (2) in GHD patients: (a) normal GH responses to GRF are seen in patients with a bone age less than 5 years and establish the integrity of the somatotrophs in those cases; (b) the GH responsiveness to GRF decreases with age, which probably reflects the duration of endogenous GRF deficiency, and (c) although the PRL response to GRF is heterogeneous, it does in some patients provide additional evidence of responsive pituitary tissue.