Growth hormone induced lipolysis during short- and long-term administration in adult Prader–Willi patients

Prader-Willi syndrome (PWS) is a complex genetic disease, clinically characterised by short stature, abnormal body composition, with more body fat than lean body mass, hyperphagia and obesity. Partial growth hormone (GH) deficiency is common, and GH treatment to PWS children and adults has shown beneficial effects on body composition. In this study, we have evaluated indices of GH's lipolytic effect in 6 PWS adults analysing glycerol, lactate and glucose in dialysate from microdialysis in subcutaneous abdominal adipose tissue. The patients were four men and two women, 19-37 years old; all hypogonadal. BMI was 24.2-49.1, mean 35.9 kg/m(2). All had normal serum insulin levels. They received GH therapy (Genotropin Pfizer) during 12 months and doses were individually titrated to normal serum IGF-I for age. Immediately before treatment start and at 12 months, 30-36 h after the last GH injection, sampling of dialysate was carried out at night (11 p.m. to 7 a.m.), as well as after intravenously injection of a standardised GH dose (0.8 mg). At baseline individual mean night time glycerol and lactate were similar to levels in adults without PWS (160.7-278.1 micromol/L and 0.80-3.99 mmol/L, respectively), and did not change with 12 months GH treatment. Glucose levels were normal, except in a patient with diabetes, and did not change during the study. Compared to baseline the immediate effect of GH injection resulted in a significant increase in glycerol levels after 12 months. In conclusion, night time lipolytic response in this small group of PWS adults seemed normal and did not change after 12 months GH treatment. On the other hand short-term GH induced lipolysis increased, indicating normal lipolytic response in PWS.     

Adiponectin levels in prepubertal children with Prader-Willi syndrome before and during growth hormone therapy

CONTEXT: Children with Prader-Willi syndrome (PWS) may have obesity and an abnormal body composition with a high body fat percentage, even if they have a normal body weight. Adiponectin has been inversely related to obesity and insulin resistance. OBJECTIVE: The objective of the study was to evaluate in prepubertal PWS children the following: 1) adiponectin levels, body composition, carbohydrate metabolism, and triglyceride levels; 2) associations between adiponectin and body composition, carbohydrate metabolism, and triglycerides; and 3) effects of GH treatment on these outcome measures. PATIENTS: Twenty prepubertal PWS children participated in the study. INTERVENTION: The subjects were randomized into a GH treatment group (n=10, 1 mg/m2.d) and a non-GH-treated control group (n=10). MAIN OUTCOME MEASURES: At baseline, after 1 and 2 yr of GH treatment, fasting levels of adiponectin, glucose, insulin, and triglycerides were assessed. Body composition and fat distribution were measured by dual energy x-ray absorptiometry. RESULTS: PWS children had significantly higher median (interquartile range) adiponectin levels [17.1 mg/liter (13.9-23.2)] than healthy sex- and age-matched controls [11.8 mg/liter (9.7-12.5), P<0.005]. Body fat percentage was significantly higher than 0 sd score [1.8 sd score (1.5-2.1), P<0.001]. Adiponectin levels were inversely related to triglyceride levels (r=-0.52, P=0.03). There was a tendency to an inverse relation with body fat percentage and body mass index, but no correlation with fasting insulin or glucose levels, the insulin to glucose ratio, or homeostasis model assessment index. During GH treatment, adiponectin levels increased significantly and did not change in randomized controls. CONCLUSION: Adiponectin levels were increased, and inversely associated with triglyceride levels, in prepubertal, not overweight PWS children, although they had a relatively high body fat percentage. During GH treatment, adiponectin levels further increased, whereas no change was found in the controls, which is reassuring with respect to the development of insulin resistance during GH treatment.     

Growth hormone (GH) dose-response in young adults with childhood-onset GH deficiency: a two-year, multicenter, multiple-dose, placebo-controlled study

GH replacement therapy has been shown to improve abnormalities in body composition, bone mineral density (BMD), lipid profile, and other changes resulting from GH deficiency (GHD) in adults. There is, however, need to determine appropriate dosing in young adults who were treated for GHD as children, to bridge the interval between childhood (in which relatively high doses are used) and older adulthood (in which only lower doses are tolerated). This multicenter, randomized, double-blind, placebo-controlled study compares the safety and efficacy of two doses of GH (25 and 12.5 microg/kg.d) with placebo, maintained for 2 yr, in adults with GHD who were treated as children and were off GH for at least 1 yr (mean, 5.6 yr). The 64 treated subjects were less than 35 yr of age (mean, 23.8 yr) and had maximum serum GH responses, on retesting less than 5 microg/liter (mean, 0.7 micro g/liter). At baseline, 22% had spine BMD below -2 SD, 59% were overweight or obese, and 45% had serum total cholesterol more than 200 mg/dl. A significant dose response was seen for percent increase in spine BMD at 24 months (mean of 1.3%, 3.3%, and 5.2% in the placebo, 12.5-, and 25- microg/kg.d groups, respectively, P = 0.018). Both GH-treated groups had similar changes in body composition at 6 months (decreased fat mass, increased lean mass); however, some gains were subsequently lost in the lower dose group. A significant decrease in low-density lipoprotein cholesterol was seen only in the higher GH dose group. Significant changes were not observed in quality of life and echocardiographic measures. The groups were similar with regard to adverse events and laboratory measurements, except for a higher incidence of edema in the GH-treated groups. We conclude that this dose-response study confirms the benefits of GH-replacement therapy in GHD adults and indicates that, to achieve treatment goals in younger adults, higher doses may be needed than those generally used in older adults.     

Growth hormone treatment improves body composition in adults with Prader-Willi syndrome

OBJECTIVE: Low growth hormone (GH) secretion and hypogonadism are common in patients with Prader-Willi syndrome (PWS). In this study we present the effects of GH treatment on body composition and metabolism in adults with PWS. PATIENTS AND MEASUREMENTS: Nineteen patients with clinical PWS were recruited, 13 had PWS genotype. They were randomised to treatment with placebo or GH (Genotropin, Pharmacia Corporation, Sweden) 0.8 IU (0.2 mg) daily for 1 month and then 1.6 IU (0.5 mg) daily for 5 months. Thereafter patients received open label treatment so that all had 12 months of active GH treatment. Doses were individually titrated to keep serum IGF-I within the normal range for age. Body composition using dual energy X-ray absorptiometry (DXA), metabolic and endocrinological parameters, including oral glucose tolerance test (OGTT), were studied every 6 months. Seventeen patients, nine men and eight women, 17-32 years of age, with a mean body mass index (BMI) of 35 +/- 3.2 kg/m2 completed the study. RESULTS: Compared to placebo, GH treatment increased IGF-I (P < 0.01) levels and decreased body fat (P = 0.04). When all patients recieved GH treatment a mean reduction in body fat of 2.5% (P < 0.01) concomitant with a mean increase in lean body mass of 2.2 kg (P < 0.05) was seen. Significant changes in body composition were only seen in the patients with the PWS genotype. Lipid profiles were normal in most patients before treatment and did not change. OGTT was impaired in five patients at 12 months, but two of these patients increased in fat mass. Insulin levels were unchanged. According to homeostasis model assessment (HOMA), insulin resistance did not change. Side-effects attributed to water retention occurred in three patients, one of whom had to be given increased diuretic therapy. CONCLUSION: This study shows beneficial effects of GH treatment on body composition in adult PWS patients without significant side-effects. Consequently, further studies are encouraged.     

Endocrine and metabolic aspects of adult Prader-Willi syndrome with special emphasis on the effect of growth hormone treatment.

Prader-Willi syndrome (PWS) is a genetic disorder characterized by mild mental retardation, short stature, abnormal body composition, muscular hypotonia and distinctive behavioural features. Excessive eating causes progressive obesity with increased cardiovascular morbidity and mortality. In the PWS genotype loss of one or more normally active paternal genes in region q11-13 on chromosome 15 is seen. It is supposed that the genetic alteration leads to dysfunction of several hypothalamic centres and growth hormone (GH) deficiency (GHD) is common. PWS is well described in children, in whom GH treatment improves body composition, linear growth, physical strength and agility. Few studies have focused on adults. We examined a cohort of 19 young adults with clinical PWS (13 with positive genotype) and mean BMI of 35 kg/m2. At baseline the activity of the GH-insulin-like growth factor-I (IGF-I) system was impaired with low GH values, low total IGF-I and in relation to the obesity low levels of free IGF-I and non-suppressed IGF-binding-protein-1 (IGFBP-1). 2/3 were hypogonadal. Bone mineral density (BMD) was low. Four patients had impaired glucose tolerance and nine patients high homeostasis model assessment (HOMA) index, indicating insulin resistance. Seven patients had a moderate dyslipidemia. The 13 patients with the PWS genotype were shorter and had significantly lower IGF-I. Seventeen (9 men and 8 women), subsequently completed a 12 months GH treatment trial, and GH had beneficial effects on body composition without significant adverse effects. The effects were more pronounced in the patients with the PWS genotype. Analysis of peptides involved in appetite regulation showed that leptin levels were high reflecting obesity and as a consequence NPY levels were low. In relation to the patients obesity circulating oxytocin levels were abnormally low and ghrelin levels abnormally high. Thus, oxytocin and ghrelin might be involved in the hyperphagia. NPY, leptin and ghrelin did not change during GH treatment.In conclusion this pilot study showed that adults with PWS have a partial GH deficiency, and GH treatment has beneficial effects on body composition in adult PWS without significant side-effects. Larger and longer term studies on the effect of GH replacement in adult PWS are encouraged.     

Two years of treatment with recombinant human growth hormone increases bone mineral density in men with idiopathic osteoporosis

We have investigated the effects of GH treatment on bone turnover, bone size, bone mineral density (BMD), and bone mineral content (BMC) in 29 men, 27-62 yr old, with idiopathic osteoporosis. The patients were randomly assigned to treatment with GH, either as continuous treatment with daily injections of 0.4 mg GH/d (group A, n = 14) or as intermittent treatment with 0.8 mg GH/d for 14 d every 3 months (group B, n = 15). All patients were treated with GH for 24 months, with a follow-up period of 12 months, and also received 500 mg calcium and 400 U vitamin D3 daily during all 36 months. Fasting morning urine and serum samples were obtained for assay of IGF-I, bone markers, and routine laboratory tests at baseline, after 1, 12, 24, and 36 months. Body composition, BMD, and BMC were determined by dual-energy x-ray absorptiometry at baseline and every 6 months. After 2 yr, there was an increase in BMD in lumbar spine (by 4.1%) in group A, and in total body (by 2.6%) in group A and (by 2.7%) in group B. BMC of the total body and lean body mass increased, whereas fat mass decreased in both treatment groups. After 36 months, the BMD and BMC in lumbar spine and total body had increased further in both groups. We conclude that 2 yr of intermittent or continuous treatment with GH in men with idiopathic osteoporosis results in an increase in BMD and BMC that is sustained for at least 1 yr post treatment.     

Sleep-related breathing disorders in prepubertal children with Prader-Willi syndrome and effects of growth hormone treatment

CONTEXT: Recently, several cases of sudden death in GH-treated and non-GH-treated, mainly young Prader-Willi syndrome (PWS), patients were reported. GH treatment in PWS results in a remarkable growth response and an improvement of body composition and muscle strength. Data concerning effects on respiratory parameters, are however, limited. OBJECTIVE: The objective of the study was to evaluate effects of GH on respiratory parameters in prepubertal PWS children. DESIGN: Polysomnography was performed before GH in 53 children and repeated after 6 months of GH treatment in 35 of them. PATIENTS: Fifty-three prepubertal PWS children (30 boys), with median (interquartile range) age of 5.4 (2.1-7.2) yr and body mass index of +1.0 sd score (-0.1-1.7). INTERVENTION: Intervention included treatment with GH 1 mg/m2.d. RESULTS: Apnea hypopnea index (AHI) was 5.1 per hour (2.8-8.7) (normal 0-1 per hour). Of these, 2.8 per hour (1.5-5.4) were central apneas and the rest mainly hypopneas. Duration of apneas was 15.0 sec (13.0-28.0). AHI did not correlate with age and body mass index, but central apneas decreased with age (r = -0.34, P = 0.01). During 6 months of GH treatment, AHI did not significantly change from 4.8 (2.6-7.9) at baseline to 4.0 (2.7-6.2; P = 0.36). One patient died unexpectedly during a mild upper respiratory tract infection, although he had a nearly normal polysomnography. CONCLUSIONS: PWS children have a high AHI, mainly due to central apneas. Six months of GH treatment does not aggravate the sleep-related breathing disorders in young PWS children. Our study also shows that monitoring during upper respiratory tract infection in PWS children should be considered.     

Withdrawal of long-term physiological growth hormone (GH) administration: differential effects on bone density and body composition in men with adult-onset GH deficiency

Adults with acquired GH deficiency (GHD) have been shown to have osteopenia associated with a 3-fold increase in fracture risk and exhibit increased body fat and decreased lean mass. Replacement of GH results in decreased fat mass, increased lean mass, and increased bone mineral density (BMD). The possible differential effect of withdrawal of GH replacement on body composition compartments and regional bone mass is not known. We performed a randomized, single blind, placebo-controlled 36-month cross-over study of GH vs. placebo (PL) in adults with GHD and now report the effect of withdrawal of GH on percent body fat, lean mass, and bone density, as measured by dual energy x-ray absorptiometry. Forty men (median age, 51 yr; range, 24-64 yr) with pituitary disease and peak serum GH levels under 5 microg/L in response to two pharmacological stimuli were randomized to GH therapy (starting dose, 10 microg/kg x day, final dose 4 microg/kg x day) vs. PL for 18 months. Replacement was provided in a physiological range by adjusting GH doses according to serum insulin-like growth factor I levels. After discontinuation of GH, body fat increased significantly (mean +/- SEM, 3.18 +/- 0.44%; P = 0.0001) and returned to baseline. Lean mass decreased significantly (mean loss, 2133 +/- 539 g; P = 0.0016), but remained slightly higher (1276 +/- 502 g above baseline; P = 0.0258) than at study initiation. In contrast to the effect on body composition, BMD did not reverse toward pretreatment baseline after discontinuation of GH. Bone density at the hip continued to rise during PL administration, showing a significant increase (0.0014 +/- 0.00042, g/cm2 x month; P = 0.005) between months 18-36. Every bone site except two (radial BMD and total bone mineral content), including those without a significant increase in BMD during the 18 months of GH administration, showed a net increase over the entire 36 months. Therefore, there is a critical differential response of the duration of GH action on different body composition compartments. Physiological GH administration has a persistent effect on bone mass 18 months after discontinuation of GH.     

Effects of growth hormone on pulmonary function,sleep quality,behavior, cognition,growth velocity,body composition,and resting energy expenditure in Prader-Willi syndrome

The objective of this study was to investigate the effects of GH administration on pulmonary function, sleep, behavior, cognition, linear growth velocity, body composition, and resting energy expenditure (REE) in children with Prader-Willi syndrome. The study used a 12-month, balanced, randomized, double-blind, placebo-controlled, cross-over experimental design. Twelve subjects were randomized to GH (0.043 mg/kg x d) or placebo intervention for 6 months and then crossed over to the alternate intervention for 6 months. Differences in outcome variables were determined by paired t tests. Peak flow rate, percentage vital capacity, and forced expiratory flow rate improved and number of hypopnea and apnea events and duration of apnea events trended toward improvement after GH intervention. The only difference in cognition or behavior was an increase in hyperactivity scale on the Behavior Assessment System for Children after GH intervention. Linear growth velocity, REE, and lean mass were higher (67%, 19%, and 7.6%, respectively), and fat mass and percentage body fat were lower (10.3% and 8.1%, respectively) after GH intervention. GH administration did not change mean fasting ghrelin concentration. GH intervention improved body composition and REE and may contribute to better sleep quality and pulmonary function. GH administration did not impact fasting ghrelin concentration.     

Growth hormone treatment of adults with Prader-Willi syndrome and growth hormone deficiency improves lean body mass, fractional body fat, and serum triiodothyronine without glucose impairment: results from the United States multicenter trial

CONTEXT: GH replacement in Prader-Willi syndrome (PWS) children has well-defined benefits and risks and is used extensively worldwide. Its use in PWS adults has been limited by documentation of benefits and risks, as determined by larger multisite studies. OBJECTIVES: Our objective was to evaluate the effectiveness and safety of GH in GH-deficient genotype-positive PWS adults. DESIGN: We conducted a 12-month open-label multicenter trial with 6-month dose-optimization and 6-month stable treatment periods. Setting: The study was conducted at outpatient treatment facilities at four U.S. academic medical centers. PATIENTS: Lean and obese PWS adults with diverse cognitive skills, behavioral traits, and living arrangements were recruited from clinical populations. INTERVENTION: Human recombinant GH (Genotropin) was initiated at 0.2 mg/d with monthly 0.2-mg increments to a maximum 1.0 mg/d, as tolerated. MAIN OUTCOMES MEASURES: Lean body mass and percent fat were measured by dual-energy x-ray absorptiometry. RESULTS: Lean body mass increased from 42.65 +/- 2.25 (se) to 45.47 +/- 2.31 kg (P < or = 0.0001), and percent fat decreased from 42.84 +/- 1.12 to 39.95 +/- 1.34% (P = 0.025) at a median final dose of 0.6 mg/d in 30 study subjects who completed 6-12 months of GH. Mean fasting glucose of 85.3 +/- 3.4 mg/dl, hemoglobin A1c of 5.5 +/- 0.2%, fasting insulin of 5.3 +/- 0.6 microU/ml, area under the curve for insulin of 60.4 +/- 7.5 microU/ml, and homeostasis model assessment of insulin resistance of 1.1 +/- 0.2 were normal at baseline in 38 study initiators, including five diabetics, and remained in normal range. Total T(3) increased 26.7% from 127.0 +/- 7.8 to 150.5 +/- 7.8 ng/dl (P = 0.021) with normalization in all subjects, including six (20%) with baseline T(3) values at least 2 sd below the mean. Mildly progressive ankle edema was the most serious treatment-emergent adverse event (five patients). CONCLUSIONS: This multicenter study demonstrates that GH improves body composition, normalizes T(3), and is well tolerated without glucose impairment in PWS genotype adults.     

Randomized controlled GH trial: effects on anthropometry, body composition and body proportions in a large group of children with Prader-Willi syndrome

Background Prader–Willi syndrome (PWS) children have impaired growth, and abnormal body composition. Previous 1‐year controlled studies showed improvement of height and body composition during GH‐treatment. Objective To evaluate growth, body composition and body proportions during GH‐treatment in a large group of PWS children. Design/patients We performed a randomized controlled GH trial in 91 prepubertal PWS children (42 infants, 49 children, aged 3–14 years). After stratification for age, infants were randomized to GH‐treatment (GH‐group; 1 mg/m²/day; n = 20), or no treatment (control group; n = 22) for 1 year. In the second year all infants were treated with GH. After stratification for BMI, children > 3 years of age were randomized to GH‐treatment (GH‐group; 1 mg/m²/day; n = 27) or no treatment (control group; n = 22) for 2 years. Anthropometric parameters were assessed once in every 3 months. Body composition was measured by Dual Energy X‐ray Absorptiometry. Results Median (interquartile range, iqr) height SDS increased during 2 years of GH in infants from –2·3 (–2·8 to –0·7) to –0·4 (–1·1–0·0) and in prepubertal children from –2·0 (–3·1 to –1·7) to –0·6 (–1·1 to –0·1). In non‐GH‐treated children height SDS did not increase. Head circumference completely normalized during 1 and 2 years of GH in infants and children, respectively. Body fat percentage and body proportions improved in GH‐treated children, but did not completely normalize. Lean body mass SDS improved compared to the control group. Serum IGF‐I increased to levels above the normal range in most GH‐treated children. Conclusions Our randomized study shows that GH‐treatment in PWS children significantly improves height, BMI, head circumference, body composition and body proportions. PWS children are highly sensitive to GH, suggesting that monitoring of serum IGF‐I is indicated.     

Growth hormone (GH) replacement therapy in adult-onset gh deficiency: effects on body composition in men and women in a double-blind, randomized, placebo-controlled trial

Adult GH deficiency (AGHD) is characterized by an altered body composition, an atherogenic lipid profile, decreased exercise capacity, and diminished quality of life. We performed a randomized, double-blind, placebo-controlled, multicenter study in 166 subjects with AGHD to assess the effects of GH on these outcomes. GH was initiated at 0.0125 mg/kg.d, increased to 0.025 mg/kg.d as tolerated, or decreased to 0.00625 mg/kg.d for 12 months. Primary measures of efficacy included body composition, strength and endurance, and quality of life. Additional parameters included serum IGF-I concentrations, serum lipids, and bone mineral density. After 12 months, 79% of subjects remained on GH 0.0125 mg/kg.d, whereas 21% received 0.00625 mg/kg.d. GH-treated men and women demonstrated significant decreases in total body and trunk fat and increases in lean body mass over baseline. In GH-treated men, mean IGF-I SD scores exceeded age-adjusted normal ranges, whereas similar doses produced a smaller response in women. GH treatment was associated with significant improvements in total cholesterol and low-density lipoprotein (P < 0.05 for all). No significant treatment effects were observed in strength and endurance, quality of life, or bone mineral density. GH treatment was generally well tolerated. Subjects with AGHD should receive individualized GH therapy to maintain IGF-I between the mean value and +2 SD and improve body composition and cardiovascular risk factors.     

The growth hormone-insulin-like growth factor axis in adult patients with Prader Willi syndrome.

OBJECTIVE: Prader Willi syndrome (PWS) is a genetic disorder characterised by short stature, extreme obesity, body composition abnormalities and behavioural problems. Hypothalamic dysfunction with low growth hormone (GH) secretion and low levels of GH-related growth factors is common. However, the interpretation is difficult because of the concomitant obesity, which in itself has important effects on the GH-IGF-I-system. We therefore analysed free and total IGF-I, total IGF-II and their binding proteins in obese PWS adults before and during 12 months GH treatment. Seventeen adults, 9 men and 8 women, 17-32 years of age with a mean BMI of 35+/-2.3 kg/m(2) participated. All had clinical PWS. They were randomized to treatment with placebo or GH (Genotropin, Pharmacia) 0.8 IU (0.26 mg) for one month, and then 1.6 IU (0.53 mg) for 5 months. Subsequently GH doses were individually titrated to normal levels for age. Overnight fasting levels of free and total IGF-I, total IGF-II, GH-binding protein (GHBP) and IGF-binding proteins (IGFBP)-1, -2 and -3 were measured by RIA at baseline and after 6 and 12 months GH treatment. Mean levels+/-SEM of free IGF-I were 1.02+/-0.12 microg/L as compared to a reference value of 0.95+/-0.15 microg/L, while mean total IGF-I was 128+/-15 microg/L (212+/-14 microg/L) and total IGF-II was 704+/-45 microg/L (825+/-34 microg/L). Mean IGFBP-2 158+/-24 microg/L (764+/-72 microg/L) and GHBP 2.65 nmol/L (1.71+/-0.3 1nmol/L). IGFBP-1 and IGFBP-3 levels were normal. Both free and total IGF-I increased significantly during GH treatment, while IGF- and GH-binding proteins as well as total IGF-II remained unchanged. CONCLUSION: Low total IGF-I and, in relation to the obesity, low free IGF-I, low total IGF-II and non-suppressed IGFBP-1 are consistent with the concept that PWS patients have a partial GH deficiency, which can be corrected by GH replacement.     

Growth hormone treatment in adults with Prader-Willi syndrome: the Scandinavian study

Prader-Willi syndrome (PWS) is characterized by short stature, muscular hypotonia, cognitive dysfunction, and hyperphagia usually leading to severe obesity. Patients with PWS share similarities with growth hormone deficiency (GHD). Few studies have dealt with growth hormone (GH) treatment in PWS adults. The purpose of the Scandinavian study was to evaluate the effects of GH on body composition, lipid and glucose metabolism, physical performance and safety parameters in adults with PWS. Twenty-five women and 21 men with PWS were randomized to treatment with GH or placebo during 1?year followed by 2?years of open labeled GH treatment. At baseline 1/3 had normal BMI, six patients severe GHD, ten impaired glucose tolerance and seven diabetes. At 1?year insulin-like growth factor I (IGF-I) SDS had increased by 1.51 (P?相似文献   

The effects of recombinant human growth hormone on body composition and glucose metabolism in HIV-infected patients with fat accumulation

GH has been proposed as a therapy for patients with HIV-associated fat accumulation, but the pharmacological doses (6 mg/d) used have been associated with impaired fasting glucose and hyperglycemia. In contrast, physiologic doses of GH ( approximately 1 mg/d) in HIV-negative men reduced visceral adiposity and eventually improved insulin sensitivity, despite initially causing insulin resistance. We conducted an open-label study to evaluate the effects of a lower pharmacologic dose of GH (3 mg/d) in eight men with HIV-associated fat accumulation. Oral glucose tolerance, insulin sensitivity, and body composition were measured at baseline, and 1 and 6 months. Six patients completed 1 month and 5, 6 months of GH therapy. IGF-I levels increased 4-fold within 1 month of GH treatment. Over 6 months, GH reduced buffalo hump size and excess visceral adipose tissue. Total body fat decreased (17.9 +/- 10.9 to 13.5 +/- 8.4 kg, P = 0.05), primarily in the trunk region. Lean body mass increased (62.9 +/- 6.4 to 68.3 +/- 9.1 kg, P = 0.03). Insulin-mediated glucose disposal, measured by a euglycemic hyperinsulinemic clamp, declined at month 1 (49.7 +/- 27.5 to 25.6 +/- 6.6 nmol/kg(LBM).min/pmol(INSULIN)/liter, P = 0.04); values improved at month 6 (49.2 +/- 22.6, P = 0.03, compared with month 1) and did not differ significantly from baseline. Similarly, the integrated response to an oral glucose load worsened at month 1 (glucose area under the curve 20.1 +/- 2.3 to 24.6 +/- 3.7 mmol.h/liter, P < 0.01), whereas values improved at month 6 (22.1 +/- 1.5, P = 0.02, compared with month 1) and did not differ significantly from baseline. One patient developed symptomatic hyperglycemia within 2 wk of GH initiation; baseline oral glucose tolerance testing revealed preexisting diabetes despite normal fasting glucose. In conclusion, GH at 3 mg/d resulted in a decrease in total body fat and an increase in lean body mass in this open-label trial. While insulin sensitivity and glucose tolerance initially worsened, they subsequently improved toward baseline. However, the dose of GH used in this trial was supraphysiologic and led to an increase in IGF-I levels up to three times the upper normal range. Because there are known adverse effects of long-term GH excess, the effectiveness of lower doses of GH should be studied. We also recommend a screening oral glucose tolerance test be performed to exclude subjects at risk for GH-induced hyperglycemia.     

Effects of recombinant human growth hormone therapy in adults with Prader-Willi syndrome: a meta-analysis

Objective Prader–Willi syndrome (PWS) is associated with GH deficiency, deleterious changes in body composition and function. As the effects of recombinant human GH (rhGH) in PWS adults have not been well established, we sought to conduct a meta‐analysis of pertinent studies. Design Meta‐analysis of studies examining the effects of rhGH therapy in PWS adults. Patients One hundred and thirty four PWS adults (75 men, 59 women). Measurements Literature searches, including publications (PubMed, EMBASE and the Cochrane Register), and abstracts presented at meetings through July 2011 describing studies of rhGH therapy in PWS adults; 8/1194 articles, describing unique cohorts, were included. Two authors independently extracted data and examined study quality. Results rhGH therapy for 12 months led to [weighted mean difference (95% CI)] decreased body fat [?2·91% (?3·90, ?1·91)], visceral [?32·97 cm² (?55·67, ?10·26)] and subcutaneous adiposity [?55·24 cm² (?89·05, ?21·44)], and increased lean body mass (LBM) [2·41 Kg (1·32, 3·49)]. Similar changes in body fat [?2·89% (?4·69, ?1·07)] and LBM [2·82 Kg (1·31, 4·33)] were found in longer studies. There were no changes in body mass index (BMI) or lipids. There was a small increase in fasting glucose [0·27 mmol/l (0·05, 0·49)] and trends towards higher fasting insulin [20·24 pmol/l (?0·55, 41·02)] and insulin resistance [HOMA: 0·60 (?0·04, 1·24)] after rhGH therapy for 12 months. Conclusions In PWS adults, rhGH therapy led to decreased body adiposity and increased LBM without changes in BMI or lipids. There was a small increase in fasting glucose and trends towards higher insulin and insulin resistance.     

Effects of 12-month GH treatment on bone metabolism and bone mineral density in adults with adult-onset GH deficiency

Serum bone-Gla protein (BGP), bone alkaline phosphatase (B-AP), and C-terminal cross-linked telopeptide of type I collagen (ICTP) levels were evaluated in 18 adults with acquired GH deficiency (GHD, 14 males and 4 females, age range: 25-59 yr) before, at 3, 6, 9 and 12 months of rec-GH treatment (0.125 IU/kg/week for the first month, followed by 0.25 IU/kg/week for 11 months) and 6 months after the withdrawal of therapy. Total body bone mineral density (BMD, g/cm2) was measured with dual energy X-ray absorptiometry (Hologic QDR 1000/W) before, at 12 months of GH treatment and 6 months after its withdrawal. Before treatment, BGP (mean+/-SE: 5.1+/-0.4 ng/ml), B-AP (59.4+/-6.5 IU/l), ICTP (3.1+/-0.3 ng/ml) levels of patients were similar to in healthy controls (BGP: 5.4+/-0.1 ng/ml; B-AP: 58.2+/-2.0 IU/l; ICTP: 4.1+/-0.3 ng/ml). GH treatment caused a significant increase of BGP, B-AP, ICTP levels, the maximal stimulation of bone resorption, occurring after 3 months of GH treatment, while the maximal effect on bone formation being evident later (at 6th month). A slight decline in BGP, B-AP, T-AP and ICTP levels occurred at 9-12 months of therapy, although the values remained significantly higher than in basal conditions and with respect to healthy controls. Before treatment, mean total body BMD of patients (1.110+/-0.027 g/cm2, range: 0.944-1.350 g/cm2) was not significantly different (z-score: +0.47+/-0.31, NS) from that observed in healthy controls (1.065+/-0.008 g/cm2, range: 1.008-1.121 g/cm2). GH therapy was associated with a significant reduction of mean total body BMD values (6th month: -1.8+/-0.5%, p<0.01; 12th month: -2.1+/-1.0%, p<0.05 vs baseline), particularly evident in the first six months of treatment. Six months after the withdrawal of GH therapy, BGP (5.9+/-0.5 ng/ml), B-AP (57.3+/-7.0 IU/l) and ICTP (3.2+/-0.1 ng/ml) levels returned similar to those recorded before treatment, while total BMD increased (+1.5+/-0.7, p<0.05), remaining however slightly lower than in basal conditions (-0.6+/-1.2, NS). In conclusion, our study shows that: a) acquired GHD in adulthood is associated with both normal bone formation/resorption indexes and normal total body BMD; b) GH therapy causes a significant rise of bone formation/resorption markers (earlier and greater for bone resorption); c) one-year GH therapy is associated with a reduction of total body BMD values, particularly evident in the first 6 months of treatment; d) the effects of GH therapy on bone turnover are transient, being completely reverted six months after the withdrawal of GH therapy; e) the increase of total body BMD (up to baseline values) after GH withdrawal might be explained as consequence of persisting effects of previous GH stimulation on bone remodeling.     

Muscle function improves during growth hormone therapy in short children born small for gestational age: results of a peripheral quantitative computed tomography study on body composition

BACKGROUND: Short small for gestational age (SGA) children can be affected by a lack of muscle mass rather than fat mass. They also face a high risk of the metabolic syndrome developing after childhood. It is not known whether low muscle mass influences muscle function. AIM: Our aim was to investigate muscle-fat distribution and muscle function before and during GH treatment in short SGA children. PATIENTS: A total of 34 prepubertal short SGA children (11 females, seven with Silver-Russell syndrome) were included in the study. Mean values were: age at GH start 7.3 yr; height sd score (SDS) -3.3; and birth weight SDS -2.7. METHODS: Investigations over 24 months on GH treatment (57 microg/kg.d) were performed. Body composition, including fat area and muscle area (MA), was assessed through peripheral quantitative computed tomography (XCT 2000; Stratec, Inc., Pforzheim, Germany). Maximal isometric grip force was performed with a Jamar dynamometer (Preston, Jackson, MI). Comparison with height-dependent reference values (SDS(Height)) was calculated. RESULTS: MA SDS(Height) at GH start was -1.8 and increased to -0.8 (P < 0.001) and -0.8, and fat area SDS(Height) decreased from -0.6 to -2.0 (P < 0.001) and -1.5 after 12 and 24 months on GH. Maximal isometric grip force SDS(Height) increased from -0.9 to 0.3 (P < 0.001) and 0.5. MA at start correlated negatively with height velocity (R = -0.54; P < 0.001) and MA SDS at start and Delta-height SDS during the first year of GH treatment (R = -0.40; P < 0.001). CONCLUSIONS: Short stature in SGA children is associated with low muscle mass and function. Supraphysiological GH doses led to a concomitant increment in height, muscle mass, and function, whereas fat mass decreased. Furthermore, body composition at GH start gives insight into GH responsiveness and the individual risk of metabolic syndrome.     

Bone mineral density, bone metabolism and body composition of children with chronic renal failure, with and without growth hormone treatment

OBJECTIVE: Osteopenia has been reported in adult patients with chronic renal failure (CRF). Only a few studies have been performed in children. The objective of this study was to evaluate bone mineral density (BMD), bone turnover, body composition in children with CRF and to study the effect of GH on these variables. DESIGN: Two groups were identified: patients with growth retardation who received GH (GH-group) and patients most of whom were not growth retarded who did not receive GH (no-GH-group). After an observation period of 6 months, the patients in the GH-group started GH treatment. Patients were studied every 6 months during 18 months. PATIENTS: Thirty-six prepubertal patients (27 boys and 9 girls), mean age 7.9 years, with CRF participated in the study. The GH-group consisted of 17 patients of whom 14 completed one year treatment. The no-GH-group consisted of 19 patients, of whom 16 were followed for 6 months, 14 for 12 months and 13 for 18 months. MEASUREMENTS: Lumbar spine BMD, total body BMD and body composition were assessed by dual energy X-ray absorptiometry, compared to age-and sex-matched reference values of the same population and expressed as standard deviation scores (SDS). BMD of appendicular bone was measured by quantitative microdensitometry (QMD). Blood samples were obtained to assess bone metabolism and growth factors. RESULTS: Baseline mean lumbar spine and total body BMD SDS of all patients were not significantly different from normal. Mean lumbar spine and total body BMD SDS did not change significantly in the GH-group during GH treatment. The change of QMD at the midshaft during the first 6 months of GH treatment was significantly smaller than during the observation period (P < 0.01). Height SDS and biochemical markers of both bone formation and bone resorption increased significantly during GH treatment; 1,25-dihydroxyvitamin D remained stable. Lean tissue mass increased (P < 0.001) and percentage body fat decreased (P < 0.01) during GH treatment. BMD, the biochemical markers of bone turnover which are independent of renal function, and body composition remained stable in the no-GH-group. CONCLUSIONS: Mean lumbar spine and total body BMD of children with chronic renal failure did not differ from healthy controls. The lack of a GH-induced increase in 1,25-dihydroxyvitamin D levels, probably due to treatment with alpha-calcidol, might be linked to the absence of a response in BMD during GH treatment in children with chronic renal failure.     

Death during GH therapy in children with Prader-Willi syndrome: description of two new cases

A few cases of death worldwide during GH treatment in pediatric patients with Prader-Willi syndrome (PWS) have been recently described. The evaluation of further cases is needed to better identify possible causal mechanism(s), as well as to suggest some additional guidelines for prevention. We report the death of 2 additional children with genetically confirmed PWS in the first months of GH therapy. Case 1: This 3.9-yr-old girl was born at 39 weeks gestation. Low GH response to two stimulation tests was observed. GH administration was started at the age of 3.5 yr (0.33 mg/kg per week), when the patient was at 130% of her ideal body weight (ibw). Hypertrophy of adenoids was previously demonstrated. Snoring and sleep apnea were present before GH treatment, and did not increase during therapy. Four months later she died at home suddenly in the morning. Case 2: This patient was a 6.3-yr-old boy. He was born at term after an uneventful pregnancy. At the age of 6 yr, his weight was at 144% of his ibw. He showed reduced GH secretion during provocation tests, and GH therapy was started (0.20 mg/kg per week). The previously reported nocturnal respiratory impairment had worsened after beginning GH administration. Tonsils and adenoids hypertrophy were noted. At the age of 6.3 yr he died at home in the morning following an acute crisis of apnea. These additional cases seem to confirm that some children with PWS may be at risk of sudden death at the beginning of GH therapy.