Adverse events during growth hormone therapy

Safety of Growth Hormone Replacement Therapy in Childhood-Onset Craniopharyngioma: A Systematic Review and Cohort Study

INTRODUCTION

Survival of childhood-onset craniopharyngioma (cCP) is excellent; however, many survivors suffer from hypothalamic-pituitary dysfunction. Growth hormone replacement therapy (GHRT) is of high importance for linear growth and metabolic outcome. Optimal timing for initiation of GHRT in cCP is on debate because of concerns regarding tumor progression or recurrence.

METHODS

A systematic review and cohort studys were performed for the effect and timing of GHRT on overall mortality, tumor progression/recurrence, and secondary tumors in cCP. Within the cohort, cCP receiving GHRT ≤1 year after diagnosis were compared to those receiving GHRT >1 year after diagnosis.

RESULTS

Evidence of 18 included studies, reporting on 6,603 cCP with GHRT, suggests that GHRT does not increase the risk for overall mortality, progression, or recurrent disease. One study evaluated timing of GHRT and progression/recurrence-free survival and found no increased risk with earlier initiation. One study reported a higher than expected prevalence of secondary intracranial tumors compared to a healthy population, possibly confounded by radiotherapy. In our cohort, 75 of 87 cCP (86.2%) received GHRT for median of 4.9 years [0.0-17.1]. No effect of timing of GHRT was found on mortality, progression/recurrence-free survival, or secondary tumors.

CONCLUSION

Although the quality of the evidence is low, the available evidence suggests no effect of GHRT or its timing on mortality, tumor progression/recurrence, or secondary neoplasms in cCP. These results support early initiation of GHRT in cCP aiming to optimize linear growth and metabolic outcome. Prospective studies are needed to increase the level of evidence upon the optimal timing to start GHRT in cCP patients.

Lipoatrophy associated with daily growth hormone injections

SUMMARY

Recombinant human growth hormone therapy (rhGH) has been available since 1985 for a variety of conditions and has expanded the indications for rhGH therapy and the number of patients receiving therapy. The very nature of the therapy exposes individuals to years of injections. There are a number of well-known adverse events, however, a lesser-known and rarely reported adverse event of rhGH therapy is localized lipoatrophy. We report nine cases of localized lipoatrophy during rhGH therapy accounting for 14.5% of patients taking rhGH presenting to a single centre for routine follow-up over just a 2-month period. The development of localized lipoatrophy does not appear to be age, indication or dose-related but rather related to repeated administration of rhGH into a limited number of sites. The most likely putative mechanism is the local lipolytic action of growth hormone (GH) itself, although the possibility of an excipient-based interaction cannot be excluded. Given the high prevalence of this adverse event and the potential to prevent it with adequate site rotation, we can recommend that patients be informed of the possible development of localized lipoatrophy. Doctors and nurses should closely examine injection sites at each visit, and site rotation should be emphasized during injection technique education.

LEARNING POINTS

There are a number of well-known adverse events, however, a lesser-known and rarely reported adverse event of rhGH therapy is localized lipoatrophy. Examination of the injection sites at each visit by the treating healthcare practitioner. To advise the parents/caregivers/patients to change their injection site with each injection. To advise the parents/caregivers/patients to change the needles after every use. For parents, caregivers and patients to self-inspect their injection sites and have a high alert for the development of lipoatrophy and to then immediately report it to their doctor.

Long-Term Safety of Growth Hormone Treatment in Childhood: Two Large Observational Studies: NordiNet IOS and ANSWER

CONTEXT

Growth hormone (GH) treatment has a generally good safety profile; however, concerns about increased mortality risk in adulthood have been raised.

OBJECTIVE

This work aims to assess the long-term safety of GH treatment in clinical practice.

METHODS

Data were collected from 676 clinics participating in 2 multicenter longitudinal observational studies: the NordiNet International Outcome Study (2006-2016, Europe) and ANSWER Program (2002-2016, USA). Pediatric patients treated with GH were classified into 3 risk groups based on diagnosis. Intervention consisted of daily GH treatment, and main outcome measures included incidence rates (events/1000 patient-years) of adverse drug reactions (ADRs), serious adverse events (SAEs), and serious ADRs, and their relationship to GH dose.

RESULTS

The combined studies comprised 37 702 patients (68.4% in low-risk, 27.5% in intermediate-risk, and 4.1% in high-risk groups) and 130 476 patient-years of exposure. The low-risk group included children born small for gestational age (SGA; 20.7%) and non-SGA children (eg, with GH deficiency; 79.3%). Average GH dose up to the first adverse event (AE) decreased with increasing risk category. Patients without AEs received higher average GH doses than patients with more than one AE across all groups. A significant inverse relationship with GH dose was shown for ADR and SAE incidence rates in the low-risk group (P = .003 and P = .001, respectively) and the non-SGA subgroup (both P = .002), and for SAEs in the intermediate- and high-risk groups (P = .002 and P = .05, respectively).

CONCLUSIONS

We observed no indication of increased mortality risk nor AE incidence related to GH dose in any risk group. A short visual summary of our work is available (1).

Clinical Observations and Treatment Approaches for Scoliosis in Prader-Willi Syndrome

Prader–Willi syndrome (PWS) is recognized as the first example of genomic imprinting, generally due to a de novo paternal 15q11-q13 deletion. PWS is considered the most common genetic cause of marked obesity in humans. Scoliosis, kyphosis, and kyphoscoliosis are commonly seen in children and adolescents with PWS with a prevalence of spinal deformities cited between 15% to 86%. Childhood risk is 70% or higher, until skeletal maturity, with a bimodal age distribution with one peak before 4 years of age and the other nearing adolescence. As few reports are available on treating scoliosis in PWS, we described clinical observations, risk factors, therapeutic approaches and opinions regarding orthopedic care based on 20 years of clinical experience. Treatments include diligent radiographic screening, starting once a child can sit independently, ongoing physical therapy, and options for spine casting, bracing and surgery, depending on the size of the curve, and the child’s age. Similarly, there are different surgical choices including a spinal fusion at or near skeletal maturity, versus a construct that allows continued growth while controlling the curve for younger patients. A clear understanding of the risks involved in surgically treating children with PWS is important and will be discussed.

The Wingate anaerobic test cannot be used for the evaluation of growth hormone secretion in children with short stature

PURPOSE

To assess the growth hormone (GH) response to the Wingate anaerobic test (WAnT) among children with short stature and suspected GH deficiency. We hypothesized that the GH response to the WAnT would be similar to the GH response to a commonly used pharmacologic provocation test.

METHODS

Ten children (6 males and 4 females, age range 9.0-14.9 years) participated in the study. Each participant performed 2 tests: a standard all-out WAnT, cycling for 30 s against constant resistance, and a standardized pharmacologic test (clonidine or glucagon). Blood samples for GH were collected before and 10, 30, 45, and 60 min after the beginning of exercise. In addition, we collected pre- and post-exercise blood lactate levels.

RESULTS

There was a significant increase in GH levels after the WAnT, yet in 9 of 10 participants, this increase was below the threshold for GH sufficiency. Peak GH after the WAnT was significantly lower compared to the pharmacologic GH provocation tests (with 9 of 10 demonstrating GH-sufficient response).

CONCLUSION

The traditional WAnT cannot be used as a GH provocation test. Further research is needed to develop anaerobic exercise protocols sufficient to promote GH secretion.

Physiological growth hormone replacement and rate of recurrence of craniopharyngioma: the Genentech National Cooperative Growth Study

OBJECTIVE The object of this study was to establish recurrence rates in patients with craniopharyngioma postoperatively treated with recombinant human growth hormone (rhGH) as a basis for determining the risk of rhGH therapy in the development of recurrent tumor. METHODS The study included 739 pediatric patients with craniopharyngioma who were naïve to GH upon entering the Genentech National Cooperative Growth Study (NCGS) for treatment. Reoperation for tumor recurrence was documented as an adverse event. Cox proportional-hazards regression models were developed for time to recurrence, using age as the outcome and enrollment date as the predictor. Patients without recurrence were treated as censored. Multivariate logistic regression was used to examine the incidence of recurrence with adjustment for the amount of time at risk. RESULTS Fifty recurrences in these 739 surgically treated patients were recorded. The overall craniopharyngioma recurrence rate in the NCGS was 6.8%, with a median follow-up time of 4.3 years (range 0.7-6.4 years.). Age at the time of study enrollment was statistically significant according to both Cox (p = 0.0032) and logistic (p < 0.001) models, with patients under 9 years of age more likely to suffer recurrence (30 patients [11.8%], 0.025 recurrences/yr of observation, p = 0.0097) than those ages 9-13 years (17 patients [6.0%], 0.17 recurrences/yr of observation) and children older than 13 years (3 patients [1.5%], 0.005 recurrences/yr of observation). CONCLUSIONS Physiological doses of GH do not appear to increase the recurrence rate of craniopharyngioma after surgery in children, but long-term follow-up of GH-treated patients is required to establish a true natural history in the GH treatment era.

Growth hormone for children with chronic kidney disease

BACKGROUND

Growth retardation is a common complication of chronic kidney disease (CKD) in children and is of concern to families. Recombinant human growth hormone (rhGH) treatment has been used to help short children with CKD attain a height more in keeping with their age group. However there are concerns about the long-term benefits of rhGH in significantly improving adult height as well as concerns about potential adverse effects (deterioration in native kidney function, increased acute rejection in kidney transplant recipients, benign intracranial hypertension).

OBJECTIVES

To evaluate the benefits and harms of rhGH treatment in children with CKD.

SEARCH METHODS

Randomised controlled trials (RCTs) were identified from the Cochrane Renal Group's Specialised Register, Cochrane Central Register of Controlled Trials (CENTRAL) (Issue 12, 2011), MEDLINE (from 1966), EMBASE (from 1980), article reference lists and through contact with local and international experts in the field.Date of last search: December 29, 2011

SELECTION CRITERIA

RCTs were included if they were carried out in children aged zero to 18 years, diagnosed with CKD, who were pre-dialysis, on dialysis or post-transplant; if they compared rhGH treatment with placebo/no treatment or two doses of rhGH treatments; and if they included height outcomes.

DATA COLLECTION AND ANALYSIS

Two authors independently assessed studies for risk of bias and extracted data from eligible studies. Data was pooled using a random effects model with calculation of mean difference (MD) for continuous outcomes with 95% confidence intervals (CI).

MAIN RESULTS

Sixteen studies (enrolling 809 children) were identified. Risk of bias assessment indicated that study quality was poor or poorly reported with only four and five studies respectively reporting adequate allocation concealment or blinding of study participants and investigators. Treatment with rhGH (28 IU/m²/wk) compared with placebo or no specific therapy resulted in a significant increase in height standard deviation score (HSDS) at one year (8 studies, 391 children: MD 0.82, 95% CI 0.56 to 1.07), and a significant increase in height velocity at six months (2 studies, 27 children: MD 2.85 cm/6 mo, 95% CI 2.22 to 3.48) and one year (7 studies, 287 children: MD 3.88 cm/y, 95% CI 3.32 to 4.44). Height velocity, though reduced, remained significantly greater than untreated children during the second year of therapy (1 study, 82 children: MD 2.30 cm/y, 95% CI 1.39 to 3.21). Compared to the 14 IU/m²/wk group, there was a 1.18 cm/y increase in height velocity in the 28 IU/m²/wk group (3 studies, 150 children: 1.18 cm/y, 95% CI 0.52 to 1.84) . The frequency of reported side effects of rhGH was generally similar to that of the control group.

AUTHORS' CONCLUSIONS

One year of 28 IU/m²/wk rhGH in children with CKD resulted in a 3.88 cm increase in height velocity above that of untreated patients. Studies were too short to determine if continuing treatment resulted in an increase in final adult height.

Orthopedic complications related to growth hormone therapy in a pediatric population

Since the introduction of recombinant growth hormone, its use has diversified and multiplied. Growth hormone is now the recommended therapy for a growing indication to all forms of short stature because of its direct and indirect role on bone growth. Hereby, we discuss the orthopedic complications associated with growth hormone treatment in pediatric patients. These complications include carpal tunnel syndrome, Legg-Calve-Perthes' disease, scoliosis, and slipped capital femoral epiphysis. Their incidence rates recorded in several growth hormone therapy-related pharmacovigilance studies will be summarized in this study with focused discussion on their occurrence in the pediatric and adolescent age groups. The pathogenesis of these complications is also reviewed.

Abuse of growth hormone increases the risk of persistent de Quervain tenosynovitis

BACKGROUND

de Quervain tenosynovitis usually responds well to nonsurgical treatment.

HYPOTHESIS

Growth hormone abuse is associated with increased de Quervain tenosynovitis incidence in weight-training persons.

STUDY DESIGN

Cohort study; Level of evidence, 3.

METHODS

We treated 19 weight-training male patients with de Quervain tenosynovitis. Nine were abusing growth hormone (group A), and 10 were not (group B). Four group A patients elected to cease growth hormone abuse. Treatment was stratified into 3 grades: (1) splinting and nonsteroidal anti-inflammatory drugs, (2) same as first grade but with the addition of cortisone injections, and (3) surgical decompression (after failure of treatment of first and second grades). Follow-up was at 3, 9, and 24 months.

RESULTS

First follow-up: Only 33.3% of those using growth hormone in group A responded to splinting and nonsteroidal anti-inflammatory drugs, compared with 90% in group B. Six patients (66.6%) in group A experienced persistent symptoms and received second-grade treatment, compared with 1 patient in group B (10%). Second follow-up: Four patients (44.4%) in group A moved from second- to third-grade treatment, 1 symptom-free patient (11.1%) relapsed and received second-grade treatment while 2 (22.2%) requested conservative treatment, declining surgery. Group B patients were 100% symptom-free. Final follow-up: Six patients (66.6%) in group A were operated on and 1 (11.1%) suffered from persistent de Quervain tenosynovitis, declining surgery. In group B, 1 patient relapsed and was started on second-grade treatment. No patients in group B had surgery.

CONCLUSION

Our results suggest that growth hormone abuse is associated with a more recalcitrant form of de Quervain tenosynovitis that does not respond well to nonsurgical treatment, thus leading to increased likelihood of surgical decompression.

Southwick's angle determination during growth hormone treatment and its usefulness to evaluate risk of epiphysiolysis

Growth hormone (GH) replacement seems to represent an additional risk factor for epiphysiolysis. The femoral diaphyseal-epiphyseal angle (Southwick's angle), which is observed to become decreased in the presence of slipped capital femoral epiphysis, is increased in risk groups, such as obese patients, suggesting a potential marker for epiphysiolysis. To evaluate the pattern of Southwick's angle in GH deficiency (GHD) patients, we measured it in 44 GHD patients. We found that Southwick's angle increased significantly after 2 years on GH replacement compared with the pretreatment period. Our data suggest that increasing in Southwick's angle during GH treatment might represent an increased risk for epiphysiolysis in GHD patients.

Headache, idiopathic intracranial hypertension and slipped capital femoral epiphysis during growth hormone treatment: a safety update from the KIGS database

BACKGROUND

Several uncommon adverse effects may be related to growth hormone (GH) treatment. Three potential side effects, headache, idiopathic intracranial hypertension (IIH) and slipped capital femoral epiphysis (SCFE), will be discussed. Data from 57,968 children in the KIGS (Pfizer International Growth Study database) were analyzed to determine the effects of recombinant human GH (Genotropin) on these side effects. The diagnostic groups were idiopathic GH deficiency (IGHD) (n = 27,690), congenital GHD (CGHD) (n = 2,547), craniopharyngioma (n = 1,155), cranial tumours (n = 2,203), Turner syndrome (TS) (n = 6,092), idiopathic short stature (ISS) (n = 5,286), small for gestational age (SGA) (n = 2,973), chronic renal insufficiency (CRI) (n = 1,753) and Prader-Willi syndrome (PWS) (n = 1,368).

RESULTS

Total incidence (per 100,000 treatment years) of headache was 793.5 (n = 569). The incidence was significantly higher in the groups of patients with craniopharyngiomas, CGHD and cranial tumours than in the other diagnostic groups (p < 0.05 for all). IIH occurred in 41 children resulting in a total incidence (per 100,000 treatment years) of 27.7. The incidence (per 100,000 treatment years) was significantly lower in patients with IGHD (12.2) than in those with TS (56.4) (p = 0.0004), CGHD (54.5) (p = 0.0064), PWS (68.3) (p = 0.0263) and CRI (147.8) (p < 0.001). No cases of IIH were reported in the ISS group of patients. The median duration from onset of GH therapy to IIH ranged from 0.01 to 1.3 years in various diagnostic groups. SCFE was observed in a total of 52 children resulting in a total incidence (per 100,000 treatment years) of 73.4. The incidence (per 100,000 treatment years) was significantly lower in patients with IGHD (18.3) and in those children with ISS (14.5) than in the TS (84.5), cranial tumours (86.1) and craniopharyngioma groups (120.5) (p < 0.05 for all). No cases of SCFE were reported in the SGA and PWS groups. The median duration from onset of GH therapy to SCFE ranged from 0.4 to 2.5 years.

CONCLUSIONS

The incidences of IIH and SCFE in this analysis are lower than the values reported in previous KIGS analyses and comparable to other databases. Patients with TS, organic GHD, PWS and CRI seem to be more prone to these side effects.

Growth rates and the prevalence and progression of scoliosis in short-statured children on Australian growth hormone treatment programmes

Study design and aim

This was a longitudinal chart review of a diverse group (cohort) of patients undergoing HGH (Human Growth Hormone) treatment. Clinical and radiological examinations were performed with the aim to identify the presence and progression of scoliosis.

Methods and cohort

185 patients were recruited and a database incorporating the age at commencement, dose and frequency of growth hormone treatment and growth charts was compiled from their Medical Records. The presence of any known syndrome and the clinical presence of scoliosis were included for analysis. Subsequently, skeletally immature patients identified with scoliosis were followed up over a period of a minimum four years and the radiologic type, progression and severity (Cobb angle) of scoliosis were recorded.

Results

Four (3.6%) of the 109 with idiopathic short stature or hormone deficiency had idiopathic scoliosis (within normal limits for a control population) and scoliosis progression was not prospectively observed. 13 (28.8%) of 45 with Turner syndrome had scoliosis radiologically similar to idiopathic scoliosis. 11 (48%) of 23 with varying syndromes, had scoliosis. In the entire cohort, the growth rates of those with and without scoliosis were not statistically different and HGH treatment was not ceased because of progression of scoliosis.

Conclusion

In this study, there was no evidence of HGH treatment being responsible for progression of scoliosis in a small number of non-syndromic patients (four). An incidental finding was that scoliosis, similar to the idiopathic type, appears to be more prevalent in Turner syndrome than previously believed.

Growth hormone therapy and scoliosis in patients with Prader-Willi syndrome

Growth hormone (GH) therapy for short stature in patients with Prader-Willi syndrome (PWS) has started worldwide, and various favorable effects have been reported. However, the possibility of progression of scoliosis arises as a new problem of the GH therapy. In this study, we analyzed whether 72 patients who have been followed up in our hospital have such a problem. They included 46 males and 26 females (41 patients with the GH therapy and 31 without it) aged from one to 49 years. Consequently, 33 (45.8%) of 72 patients had scoliosis with the Cobb angle of >10 degrees. Twenty (48.8%) of forty-one patients who received a GH therapy and 13 (41.9%) of 31 patients without the therapy had scoliosis, the frequency of scoliosis between the two groups showing no statistical difference (P = 0.56). Height velocity of scoliotic and non-scoliotic patients during the first year of the therapy was 8.59 +/- 1.92 and 10.70 +/- 2.54 cm, respectively, showing a significant difference (P < 0.001). This shows that accelerated height velocity may not induce scoliosis. Comparison of starting age of a GH treatment revealed that non-scoliotic patients received the therapy earlier than scoliotic patients (P = 0.021). Among 20 scoliotic patients who received the GH therapy, the degree of scoliosis progressed during the therapy in six patients, improved in three and fluctuated in one. Many patients showed progression of scoliosis with age irrespective of the use of GH, and some patients improved their scoliosis during the GH therapy. These findings showed that a GH therapy increases height velocity of PWS patients but does not necessarily develop scoliosis, and early start of the therapy may not be an exacerbating factor of scoliosis.

The obesity pipeline: current strategies in the development of anti-obesity drugs

This review provides a summary of currently available pharmaceutical therapies for the treatment of obesity, along with an overview of the pipeline of products currently in development, and the key mechanisms on which the major development candidates are based. In particular, the recent increase in understanding of the role of gut peptides in energy homeostasis is highlighted as a promising source of potential future obesity therapies.

Growth hormone for children with chronic kidney disease

BACKGROUND

Chronic kidney disease (CKD) is an uncommon but important condition. Growth retardation, one of the complications of CKD, is of concern to families. Recombinant human growth hormone (rhGH) treatment has been used to help short children with CKD attain a height more in keeping with their age group. However, there are concerns that rhGH may have an adverse effect on the preservation of native kidney function, predispose to acute rejection in kidney transplant recipients, and cause benign intracranial hypertension and slipped capital femoral epiphysis.

OBJECTIVES

To evaluate the benefits and harms of rhGH treatment in children with CKD.

SEARCH STRATEGY

Randomised controlled trials (RCTs) were identified from the Cochrane Central Register of Controlled Trials (CENTRAL), MEDLINE, EMBASE, article reference lists and through contact with local and international experts in the field. Date of most recent search: July 2005

SELECTION CRITERIA

RCTs were included if they were carried out in children aged 0-18 years, diagnosed with CKD, who were pre-dialysis, on dialysis or post-transplant; if they compared rhGH treatment with placebo/no treatment or two doses of rhGH treatments; and if they included height outcomes.

DATA COLLECTION AND ANALYSIS

Two reviewers independently assessed studies for methodological quality and extracted data from eligible trials. Data was pooled using a random effects model with calculation of weighted mean difference (MD) for continuous outcomes and relative risk (RR) for categorical outcomes with 95% confidence intervals (CI).

MAIN RESULTS

Fifteen RCTs (629 children) were identified. Treatment with rhGH (28 IU/m(2)/wk) resulted in a significant increase in height standard deviation score (SDS) at one year (MD 0.78 SDS, 95% CI 0.52 to 1.04), and a significant increase in height velocity at six months (MD 2.85 cm/6 mo, 95%CI 2.22 to 3.48) and one year (MD 3.80 cm/y, 95%CI 3.20 to 4.39). Compared to the 14 IU/m(2)/wk group, there was a 1.34 cm/y (0.55 to 2.13) increase in height velocity in the 28 IU/m(2)/wk group. The frequency of reported side effects of rhGH were similar to that of the control group.

AUTHORS' CONCLUSIONS

One year of 28 IU/m(2)/wk rhGH in children with CKD resulted in a 3.80 cm/y increase in height velocity above that of untreated patients. Trials were too short to determine if continuing treatment resulted in an increase in final adult height.

GH replacement does not increase the risk of recurrence in patients with craniopharyngioma

BACKGROUND

A significant number of patients with craniopharyngioma are GH deficient. The safety of GH replacement in these subjects has not been established.

OBJECTIVE

To assess the effect of GH replacement upon recurrence in patients with craniopharyngioma.

PATIENTS AND METHODS

All the patients with craniopharyngioma followed-up at the Departments of Endocrinology or Paediatrics in Oxford and treated or not with GH were studied retrospectively. These were recruited from the databases of the departments consisting of subjects diagnosed between January 1964 and July 2005. The impact of GH replacement upon recurrence was evaluated after adjusting for possible confounding factors.

RESULTS

Forty-one subjects received GH replacement. Nine of them did not have follow-up imaging during GH therapy and were not included in the statistical analyses. The remaining 32 (22 males/10 females) received GH for a mean period of 6.3 +/- 4.6 years (median 5.1, range 0.8-22); 21 started during childhood (13 of them continued after the achievement of final height with an adult dose) and 11 during adult life. The mean duration of their follow-up (from surgery until last assessment) was 10.8 +/- 9.2 years (range 1.9-40). Fifty-three subjects had not received GH therapy (30 men/23 women). The mean duration of their follow-up (from surgery until last assessment) was 8.3 +/- 8.8 years (range 0.5-36). During the observation period, 4 patients treated with GH and 22 non-GH treated ones developed tumour recurrence. After adjusting for sex, age at tumour diagnosis and type of tumour therapy (gross total removal, partial removal, surgery + irradiation), GH treatment was not a significant independent predictor of recurrence (P = 0.06; hazard ratio = 0.309). Similar results were obtained when the impact of GH replacement was assessed according to its duration (P = 0.18; hazard ratio = 0.991/month of treatment). None of the nine patients with insufficient imaging data for inclusion in the statistical analyses [5 men/4 women, 3 treated with GH during childhood/6 during adult life, mean duration of GH therapy 2.9 +/- 2.4 years (median 1.8, range 0.4-7)] showed clinical features suggestive of recurrence during the period of GH replacement. CONCLUSION Based on the data of the craniopharyngiomas database in Oxford, there is no evidence that GH replacement is associated with an increased risk of tumour recurrence.

Growth hormone treatment in children: review of safety and efficacy

Since the advent of growth hormone (GH), the pediatric applications of GH therapy have expanded. Children with a wide variety of growth disorders have received GH treatment. The therapeutic effects and safety profile of GH in a number of pediatric conditions are reviewed, including GH deficiency (GHD), Turner syndrome, chronic renal failure, children born small for gestational age, Prader-Willi syndrome, juvenile chronic arthritis, and cystic fibrosis. GH therapy has been clearly shown to improve height velocity during childhood in a variety of pediatric conditions in which growth is compromised. There is now data that confirms GH treatment also improves final height in a number of diagnostic subgroups. Early initiation and individualization of GH treatment has the potential to normalize childhood growth in children with idiopathic GHD and enable them to achieve their genetic target height in a cost-effective manner. In children in whom GHD is not the main factor compromising growth, supra-physiological doses of GH have been shown to increase height velocity during childhood and final height. The development of predictive models for these conditions may allow further improvements in height outcome while maintaining an acceptable safety profile. Survivors of childhood malignancy, particularly those who have had craniospinal irradiation, represent a particularly challenging group. They appear to be less responsive to GH than children with idiopathic GHD and have a tendency to enter puberty at an earlier age. Both of these factors have a negative impact on their final height. Strategies that combine GH treatment with suppression of puberty using a gonadotropin releasing hormone analog may result in improved height outcomes. When children with GHD are treated with standard doses of GH there is a strong safety record. Adverse events during GH therapy are uncommon and often not drug related. Continued surveillance into adult life is crucial however, particularly in children receiving supra-physiological doses of GH or whose underlying condition increases their risk of adverse effects.

Advances in Growth Hormone Therapy: A New Registry Tool

Growth hormone (GH) deficiency is a rare condition, and physicians may lack clinical experience of its treatment. Despite evidence for the efficacy and tolerability of GH therapy, a substantial proportion of patients remain untreated. Registries and other large-scale databases are an important tool for expanding the evidence base for GH treatment. Since the mid-1980s, registries have provided data on important aspects of the safety and efficacy of GH treatment. Registries have also allowed pooling of data from patients with rare conditions that could otherwise not be recruited in sufficient numbers for clinical trials. Importantly for patients and their relatives, use of registry data has allowed the development of prediction models that indicate the likely outcomes of treatment. MEGHA (Metabolic Endocrinology and Growth Hormone Assessment) is a recently developed, observational database with a number of features not found in existing registries, including its use as a day-to-day clinical management tool, the ability to create individual sub-studies, direct comparison of personal data against the full database, and a particular focus on the transition from childhood to adulthood. This creative registry is a promising instrument for further research into GH-related disorders that will improve GH therapy and thus provide benefits for patients.

Growth hormone treatment in children with chronic renal failure: a meta-analysis of randomized controlled trials

OBJECTIVE

To evaluate the benefits and side effects of recombinant human growth hormone (hGH) treatment in children with chronic renal failure.

METHODS

Two reviewers independently assessed relevant randomized controlled trials for methodologic quality, extracted data, and estimated summary treatment effects by use of a random effects model.

RESULTS

Ten randomized controlled trials involving 481 children were identified. Treatment with hGH (28 IU/m(2)/wk) resulted in a significant increase in height standard deviation score at 1 year (4 trials, weighted mean difference [WMD] = 0.77, 95% CI = 0.51 to 1.04), and a significant increase in height velocity at 6 months (2 trials, WMD = 5.7 cm/y, 95% CI 4.4 to 7.0) and 1 year (2 trials, WMD = 4.1 cm/y, 95% CI 2.6 to 5.6), but there was no further increase in height indexes during the second year of administration. Compared with the 14 IU/m(2)/wk group, there was an increase of 1.4 cm/y (0.6 to 2.2) in height velocity in the group treated with 28 IU/m(2)/wk. The frequency of reported side effects of hGH were similar to that of the control group.

CONCLUSION

On average, 1 year of treatment with 28 IU/m(2)/wk hGH in children with chronic renal failure results in an increase of 4 cm/y in height velocity above that of untreated control subjects, but there was no demonstrable benefit for longer courses or higher doses of treatment.

Growth hormone for children with chronic renal failure

OBJECTIVES

To evaluate the benefits and harms of recombinant human growth hormone (hGH) treatment in children with chronic renal failure (CRF).

SEARCH STRATEGY

Published and unpublished randomised controlled trials (RCTs) were identified from the Cochrane Controlled Trials Register, Medline, Embase, article reference lists and through contact with local and international experts in the field.

SELECTION CRITERIA

Randomised controlled trials (RCTs) were included if they were carried out in children aged 0-18 years, diagnosed with CRF who are pre-dialysis, on dialysis or post-transplant; if they compared hGH treatment with placebo/no treatment or two doses of hGH treatments; and if they included height outcomes.

DATA COLLECTION AND ANALYSIS

Two reviewers independently assessed studies for methodological quality and extracted data from eligible trials. The primary outcome measure was difference in mean change in height standard deviation score (SDS). Secondary outcome measures included change in height SDS from treatment onset to completion, change in height SDS during puberty, change in height velocity, final height, quality of life and adverse effects. To estimate summary treatment effects, data was pooled using a random effects model with calculation of weighted mean difference (WMD) for continuous outcomes and relative risk for categorical outcomes.

MAIN RESULTS

Ten RCTs involving 481 children were identified. Treatment with hGH (28 IU/m(2)/wk) resulted in a significant increase in height standard deviation score (SDS) at one year (four trials, WMD0.77, 95% confidence limits (CI) 0.51 to 1.04), and a significant increase in height velocity at six months (two trials, WMD 5.7 cm/yr, 95%CI 4.4 to 7.0) and one year (two trials, WMD 4.1 cm/yr, 95%CI 2.6 to 5.6), but there was no further increase in height indices during the second year of administration. Compared to the 14 IU/m(2)/wk group, there was a 1.4 cm/yr (0.6 to 2.2) increase in height velocity in the 28 IU/m(2)/wk group. The frequency of reported side effects of hGH were similar to that of the control group.

REVIEWER'S CONCLUSIONS

On average, one year of 28 IU/m(2)/wk hGH in children with CRF results in a 4 cm/yr increase in height velocity above that of untreated controls, however, it is not certain if this will result in an increase in final adult height. Benefits of longer courses or higher doses of treatment warrants further study.

Safety issues in children and adolescents during growth hormone therapy--a review

The action of growth hormone (GH) via its receptor involves many organ systems and metabolic pathways. These diverse actions are reviewed in this paper in the context that they may represent unwanted side-effects of GH therapy for growth promotion. The monitoring of GH therapy in large multicentre international databases has demonstrated a low frequency of adverse events. Tumour recurrence or new malignancy are not increased. Headaches, especially in the first few months of therapy, require close evaluation as benign intracranial hypertension is found infrequently, especially in children with GH deficiency and chronic renal failure (CRF). Children at risk for slipped capital femoral epiphysis and scoliosis require close monitoring during therapy. Decreased insulin sensitivity that is dose-dependent is observed during GH therapy. Glucose homeostasis, however, is not affected, but a recent report of increased incidence of Type 2 diabetes mellitus in children undergoing GH therapy requires prospective surveillance.

Effects of oral administration of a synthetic fragment of human growth hormone on lipid metabolism

A small synthetic peptide sequence of human growth hormone (hGH), AOD-9401, has lipolytic and antilipogenic activity similar to that of the intact hormone. Here we report its effect on lipid metabolism in rodent models of obesity and in human adipose tissue to assess its potential as a pharmacological agent for the treatment of human obesity. C57BL/6J (ob/ob) mice were orally treated with either saline (n = 8) or AOD-9401 (n = 10) for 30 days. From day 16 onward, body weight gain in AOD-9401-treated animals was significantly lower than that of saline-treated controls. Food consumption did not differ between the two groups. Analyses of adipose tissue ex vivo revealed that AOD-9401 significantly reduced lipogenic activity and increased lipolytic activity in this tissue. Increased catabolism was also reflected in an acute increase in energy expenditure and glucose and fat oxidation in ob/ob mice treated with AOD-9401. In addition, AOD-9401 increased in vitro lipolytic activity and decreased lipogenic activity in isolated adipose tissue from obese rodents and humans. Together, these findings indicate that oral administration of AOD-9401 alters lipid metabolism in adipose tissue, resulting in a reduction of weight gain in obese animals. The marked lipolytic and antilipogenic actions of AOD-9401 in human adipose tissues suggest that this small synthetic hGH peptide has potential in the treatment of human obesity.

Localized lipoatrophy due to recombinant growth hormone therapy in a child with 6.7 kilobase gene deletion isolated growth hormone deficiency

Local lipoatrophy is a well known complication of insulin treatment at injection sites and the etiology is thought to be a cross reaction with lipid tissues and insulin antibody. Although mild lipoatrophy during growth hormone treatment has been reported in the literature, severe local lipoatrophy in injection sites in the extremities has not yet been published. We report a patient with isolated GH deficiency due to 6.7 kb gene deletion who received high dose rhGH treatment and developed local lipoatrophies at injection sites without any antibody detection after 6 years of therapy. The etiology of the lipoatrophy is suspected to be by the direct lipolytic effect of high doses of rhGH.

Growth hormone treatment increases circulating lipoprotein(a) in children with chronic renal failure

Cardiovascular disease is the major cause of death in chronic renal failure (CRF) patients managed by dialysis or kidney transplantation. Whilst the use of human growth hormone (hGH) is of established benefit in CRF children particularly in those with short stature, in the present study we assessed in CRF children the effect of hGH treatment on circulating lipoprotein(a) [Lp(a)], a genetically determined cardiovascular risk factor. We studied 15 CRF children treated by dialysis or conventional therapy and after kidney transplantation. Overnight fasting blood samples were collected immediately before and after 6 months hGH treatment. In all but one of the children there was a significant increase in serum Lp(a) over the 6 month treatment period -(+)66.7% over the basal levels (range 14 to 180%). After the hGH treatment, in six children Lp(a) levels were elevated to above 300 mg/l, the cut-off level for increased coronary artery disease (CAD) risk. Concomitantly/children also had an increase in serum levels of IGF-I (+96.4%) and insulin (+85.8%). All children had an accelerated growth velocity during the treatment; there was no effect on serum creatinine. Our study shows that hGH treatment in CRF children, though beneficial in its growth promoting effects, increases the already characteristically high levels of serum Lp(a), a risk factor for CAD, and that serum Lp(a) monitoring during treatment with hGH may be useful in evaluating future cardiovascular risk.

Growth hormone measurements versus auxology in treatment decisions: the Australian experience

Growth hormone (GH) therapy is regulated in Australia by an expert national government committee. A national database (OZGROW) enables regular audits and rational guideline revisions. In 1988 the guidelines were revised to allow eligibility on auxologic criteria alone because of difficulties in diagnosing GH deficiency (GHD) and GH responses in non-GH-deficient children. Initial entry criteria were height less than the 3rd percentile and growth velocity less than the 25th percentile of bone age. Growth hormone testing was continued in most children. More than 3100 children have been treated since 1988 (35 percent with GHD, 12.5% with Turner syndrome, and 52% with other non-GHDs). Five-year responses (change in height SD scores) were best in the group with complete GHD (+2) (which received the lowest dose of GH) and similar in other groups, including those with partial GHD (+1.5). The increase in final height is 4 to 6 cm in subjects with Turner syndrome. This data is not yet available for subjects with other non-GHDs. In 1994 the guidelines were revised to restrict use of GH therapy to subjects with height less than the 1st percentile, and cessation of GH therapy was brought forward to bone age 13.5 years for girls and 15 years for boys. Subjects with maturational delay were excluded because of the finding that in the presence of significant bone age delay height prognosis was good. New patient accruals have decreased since 1992, from 100/yr to less than 50/yr. Expenditures have also fallen, from $31 to $16 in 1994-1995, because of reduced patient numbers and GH pricing. Australian use of GH is 68.7% that of the United States and 42.2% that of Sweden and is in the midrange internationally. In conclusion, an auxology-based GH program coupled with a comprehensive national database enables rational and economic use of GH in short children.