Can One Predict Resolution of Neonatal Hyperthyrotropinemia?

OBJECTIVE: To identify predictors of transience vs permanence of neonatal hyperthyrotropinemia. We hypothesized that infants with greater severity of perinatal stress are more likely to have transient thyrotropin elevations. STUDY DESIGN: We retrospectively studied infants diagnosed with hyperthyrotropinemia between 2002 and 2014, following them for up to 12 years after diagnosis. Patients were divided into 3 groups: transient hyperthyrotropinemia (treatment was never prescribed), transient congenital hypothyroidism (treatment started but discontinued), and permanent congenital hypothyroidism (withdrawal unsuccessful or not attempted). We performed univariate and multiple logistic regression analyses, including and excluding infants with maternal thyroid disease. RESULTS: We included 76 infants, gestational age mean (±SD) 34.2 (±5.7) weeks, evaluated for hyperthyrotropinemia. Thirty-five (46%) were never treated, and 41 (54%) received levothyroxine. Of the treated patients, 16 successfully discontinued levothyroxine, and for 25 withdrawal either failed or was not attempted. We found that male patients were almost 5 times more likely than female patients to have transient neonatal hyperthyrotropinemia (OR 4.85; 95% CI 1.53-15.37). We documented greater maternal age (31.5 ± 5.48 years vs 26 ± 6.76 years, mean ± SD, P = .02), greater rate of cesarean delivery (86.7% vs 54.2%; P = .036), and retinopathy of prematurity (37.5% vs 8%; P = .02) in the group with transient congenital hypothyroidism vs the group with permanent congenital hypothyroidism. CONCLUSION: The results show transience of neonatal thyrotropin elevations in a majority of patients and suggest a possible association of hyperthyrotropinemia with maternal and perinatal risk factors.

Children with Attention Deficit Hyperactivity Disorder Are More Likely to Fail Growth Hormone Stimulation Testing than Children without Attention Deficit Hyperactivity Disorder: A Retrospective Chart Review.

INTRODUCTION: Children with ADHD often present to pediatric endocrinologists due to growth concerns. Growth hormone stimulation testing (GHST) may be utilized as part of the workup. We evaluate whether children with ADHD and short stature or growth failure are more likely to fail GHST compared to children without ADHD. METHODS: We retrospectively studied children who underwent GHST as part of evaluation for short stature and/or growth failure and had an intact pituitary over a 16-year period (2002-2018). We performed univariate and logistic regression analyses with stratification by age. RESULTS: We included 260 children; 78 children had ADHD and were older, mean age (±SD) 12.2 (±2.6) years versus children without ADHD, mean age (±SD) 10.4 (±3.8) years. The population was largely Caucasian, and boys outnumbered the girls. Of the children with ADHD, only 9 were not medically treated. There was no difference in z-scores for height, weight, and BMI, or mid-parental height between the two groups. We found that children with ADHD were more likely to fail GHST than children without ADHD across the peak GH cut-offs of 10, 7, and 5 ng/mL (p = 0.003, p = 0.023, and p = 0.046 accordingly). The same trend persisted after regression analysis with adjustment for sex and stratification by age, and effect was more robust in the older group. DISCUSSION: The result shows higher likelihood of lower GH peaks in response to GHST in children with ADHD and short stature or impaired linear growth. Future work should evaluate possible mechanistic explanation and the role of psycho-stimulant medications.

Metabolic syndrome in obese adolescents is associated with risk for nephrolithiasis.

OBJECTIVES: To examine the relationship between urinary pH and metabolic syndrome risk factors along with insulin resistance in obese adolescents, and to evaluate the relationship between other urinary stone-forming and -inhibiting markers and metabolic syndrome. STUDY DESIGN: A total of 46 obese adolescents were enrolled. Twenty-four hour and randomly obtained urine samples were analyzed for urinary pH, promoters of stone formation (ie, uric acid, oxalate, and relative saturation ratio of calcium oxalate [RSR-CaOx]), and inhibitors of stone formation (ie, citrate and osteopontin). Other data collected included height, weight, blood pressure, and fasting lipid, insulin, and glucose levels. RESULTS: The subjects had a mean age of 14.6±2.0 years and a mean body mass index of 36±6.3 kg/m(2). Random urine pH and the number of risk factors for metabolic syndrome were negatively correlated (r=-0.34; P=.02). RSR-CaOx was correlated with both homeostasis model assessment of insulin resistance score (r=0.38; P<.01) and number of risk factors for metabolic syndrome (r=0.47; P=.001) CONCLUSION: Decreased urinary pH and increased RSR-CaOx are associated with risk factors for metabolic syndrome in obese adolescents.

Growth and Growth Hormone through the Ages: Art and Science.

BACKGROUND: People have long been fascinated with the size and growth of living things, from the giants of classic mythology and art to the little people who also have appeared in classical art, as well as the courts of European monarchs, and were exploited in "shows." Serious medical evaluation began in the late 19th century with the description of acromegaly and its association with pituitary tumors. In the early 20th century, multiple investigators attempted to extract a growth-promoting factor from the anterior pituitary and then, over the decades, to purify it and distinguish it from other anterior pituitary hormones. With relatively pure growth hormone (GH), its biological activity in growth promotion and as a metabolic hormone were studied, and species specificity became apparent: primate GH was the only GH active in man. Human GH was prepared from cadaveric pituitaries and distributed by the NIH to treat children with GH deficiency, but there was never enough pituitary hGH for all of the children who required it. When Creutzfeldt-Jakob disease was found in some patients who received pituitary GH, the production and FDA approval of biosynthetic hGH dramatically accelerated. With a large supply, one could treat those who were GH deficient and test its efficacy in other causes of short stature; longer acting versions of hGH have now been developed, tested, and in a few instances received FDA approval. SUMMARY: It has been a long journey from the description of over- and underproduction of GH in animals to the production and clinical use of the biosynthetic hormones. KEY MESSAGES: The efforts of basic scientists led to the extraction and purification of GH. Clinical scientists have expanded the appropriate use of hGH for short children with conditions in addition to GH deficiency.

Small for gestational age: short stature and beyond.

Depending on the definitions used, up to 10% of all live-born neonates are small for gestational age (SGA). Although the vast majority of these children show catch-up growth by 2 yr of age, one in 10 does not. It is increasingly recognized that those who are born SGA are at risk of developing metabolic disease later in life. Reduced fetal growth has been shown to be associated with an increased risk of insulin resistance, obesity, cardiovascular disease, and type 2 diabetes mellitus. The majority of pathology is seen in adults who show spontaneous catch-up growth as children. There is evidence to suggest that some of the metabolic consequences of intrauterine growth retardation in children born SGA can be mitigated by ensuring early appropriate catch-up growth, while avoiding excessive weight gain. Implicitly, this argument questions current infant formula feeding practices. The risk is less clear for individuals who do not show catch-up growth and who are treated with GH for short stature. Recent data, however, suggest that long-term treatment with GH does not increase the risk of type 2 diabetes mellitus and the metabolic syndrome in young adults born SGA.

Human Growth and Growth Hormone: From Antiquity to the Recominant Age to the Future.

Since antiquity Man has been fascinated by the variations in human (and animal) growth. Stories and art abound about giants and little people. Modern genetics have solved some of etiologies at both extremes of growth. Serious study began with the pathophysiology of acromegaly followed by early attempts at treatment culminating in modern endoscopic surgery and multiple pharmacologic agents. Virtually at the same time experiments with the removal of the pituitary from laboratory animals noted the slowing or stopping of linear growth and then over a few decades the extraction and purification of a protein within the anterior pituitary that restored, partially or in full, the animal's growth. Human growth hormone was purified decades after those from large animals and it was noted that it was species specific, that is, only primate growth hormone was metabolically active in primates. That was quite unlike the beef and pork insulins which revolutionized the care of children with diabetes mellitus. A number of studies included mild enzymatic digestion of beef growth hormone to determine if those "cores" had biologic activity in primates and man. Tantalizing data showed minimal but variable metabolic efficacy leading to the "active core" hypothesis, for these smaller peptides would be amenable to peptide synthesis in the time before recombinant DNA. Recombinant DNA changed the landscape remarkably promising nearly unlimited quantities of metabolically active hormone. Eight indications for therapeutic use have been approved by the Food and Drug Administration and a large number of clinical trials have been undertaken in multiple other conditions for which short stature in childhood is a sign. The future predicts other clinical indications for growth hormone therapy (and perhaps other components of the GH?IGF-1 axis), longer-acting analogues and perhaps a more physiologic method of administration as virtually all methods at present are far from physiologic.

Bicalutamide plus anastrozole for the treatment of gonadotropin-independent precocious puberty in boys with testotoxicosis: a phase II, open-label pilot study (BATT).

OBJECTIVE: To evaluate the efficacy, tolerability, and pharmacokinetics of bicalutamide plus anastrozole in young males with testotoxicosis. METHODS: This was a multicenter, open-label, single-arm, 12-month, Phase II pilot trial in 14 males (2-9 years) with testotoxicosis treated with bicalutamide (12.5, 25, 50, or 100 mg) and anastrozole (0.5 or 1 mg) daily. The primary outcome was change in growth rate. RESULTS: At 1 year, the mean (standard deviation) change from baseline in growth rate was -1.6 (+/- 5.1) cm/year and -0.1 (+/- 1.8) SD units, and in bone maturation was -2.3 (+/- 0.5) years. The bone age/chronological age ratio was reduced from 2.1 (+/- 0.6) at baseline to 1.0 (+/- 0.4) (p = 0.00013). Steady-state trough R-bicalutamide and anastrozole concentrations were attained by Day 21 and 8, respectively. Gynecomastia (42.9%) and breast tenderness (12.5%) were the most common treatment-related adverse events. CONCLUSIONS: Treatment of testotoxicosis with bicalutamide plus anastrozole resulted in slower growth rate.

Metabolic abnormalities in human immunodeficiency virus-infected children: two-year follow-up.

BACKGROUND: HIV-associated lipodystrophy (LD) manifests with fat maldistribution, dyslipidemia, and insulin resistance in some HIV-infected children on antiretroviral therapy. AIM: To assess whether lipid abnormalities in patients with HIV are stable over time. PATIENTS: The perinatally HIV-infected cohort at a medium-sized urban US teaching hospital. METHODS: This prospective, observational study consisted of five visits (at entry and 3, 6, 24, and 30 months after entry) during which fasting venous blood samples were drawn for HIV-1 RNA, CD4 lymphocytes, lipid profile, free fatty acids (FFA), glucose, insulin, and adiponectin. IGF-I/IGFBP-3 levels were measured at the first and fifth visits. RESULTS: Of 36 study participants, seven were lipodystrophic, and 30 patients completed all five study visits. LDL-cholesterol, total cholesterol (TC), triglycerides (TG), and FFA levels were significantly higher in patients taking protease inhibitors (PIs). Patients with LD had higher TC and TG levels (both p < 0.05), and higher FFA (p = 0.0532). Adiponectin levels did not differ between PI/non-PI and LD/non-LD groups. HDL-cholesterol seemed to decrease, and FFA to increase over time. All IGF-I and all but one IGFBP-3 level were within normal range for age and Tanner stage. CONCLUSION: Dyslipidemia remained relatively constant over our study period. Adiponectin was not useful as a marker of LD in our population.

The Challenge of Defining and Investigating the Causes of Idiopathic Short Stature and Finding an Effective Therapy.

Idiopathic short stature (ISS) comprises a wide range of conditions associated with short stature that elude the conventional diagnostic work-up and are often caused by still largely unknown genetic variants. In the last decade, the improvement of diagnostic techniques has led to the discovery of causal mutations in genes involved in the function of the growth hormone (GH)/insulin-like growth factor-I (IGF-I) axis as well as in growth plate physiology. However, many cases of ISS remain idiopathic. In the future, the more frequent identification of the underlying causes will allow a better stratification of subjects and offer a tailored management. GH therapy has been proposed and approved in some countries for the treatment of children with ISS. To improve the efficacy of GH therapy, trials with GH combined with GnRH agonists, aromatase inhibitors, and even IGF-I have been conducted. This review aims to revise the current definition of ISS and discuss the management of children with ISS on the basis of the most recent evidence.

Efficacy and safety of histrelin subdermal implant in children with central precocious puberty: a multicenter trial.

CONTEXT: GnRH analog (GnRHa) therapy for central precocious puberty (CPP) typically involves im injections. The histrelin implant is a new treatment that provides a continuous slow release of the GnRHa histrelin. OBJECTIVE: The objective of the study was to investigate the safety and efficacy of the subdermal histrelin implant for the treatment of CPP in treatment naive and previously treated children. DESIGN: This was a phase III, open-label, prospective study of 1-yr duration. SETTING: The study was conducted at nine U.S. medical centers. PATIENTS: Girls ages 2-8 yr (naive) or 2-10 yr (previously treated) and boys 2-9 yr (naive) or 2-11 yr (previously treated) with clinical evidence of CPP and a pretreatment pubertal response to leuprolide stimulation were eligible. INTERVENTION: A 50-mg histrelin implant was inserted sc in the inner upper arm. MAIN OUTCOME MEASURES: Peak LH after GnRHa stimulation testing and estradiol (girls) and testosterone (boys) were the main outcome measures. RESULTS: Thirty-six subjects (20 naive) were enrolled. By 1 month, peak LH fell from 28.2 +/- 19.97 (naive) to 0.8 +/- 0.39 mIU/ml (P < 0.0001) and from 2.1 +/- 2.15 (previously treated) to 0.5 +/- 0.32 mIU/ml (P < 0.0056). Estradiol suppressed from 24.5 +/- 22.27 (naive) to 5.9 +/- 2.37 pg/ml (P = 0.0016) and remained suppressed in previously treated subjects, as did testosterone. Suppression was maintained throughout the study. No significant adverse events occurred. CONCLUSIONS: The subdermal histrelin implant achieves and maintains excellent suppression of peak LH and sex steroid levels for 1 yr in children with CPP. The treatment is well tolerated. Long-term studies are needed to confirm these results.

Age at growth hormone therapy start and first-year responsiveness to growth hormone are major determinants of height outcome in idiopathic short stature.

AIM: To develop methods to identify factors associated with a favorable outcome in GH-treated children with idiopathic short stature (ISS). METHODS: From 4,685 children listed as having ISS within KIGS (Pfizer International Growth Database), we studied (a) the prediction model group (n = 657) to develop the first-year prediction model, and (b) the near adult height group (NAH; n = 256) which received GH for >4 years to develop descriptive models for adult height and overall height gain. RESULTS: NAH group at GH start: age was 10.0 years, height -2.5 SD score (SDS), weight -2.3 SDS, height minus mid-parental height (MPH) -1.5 SDS; GH dose 0.19 mg/kg/week. Height gain was 1.1 SDS at a median age of 17.2 years. Growth response correlated positively with GH dose and weight at the start of GH treatment, and negatively with age and height SDS minus MPH SDS. The model explains 39% (error SD 1.2 cm) of the variability. Adult height correlated (R(2) = 0.64) positively with height at GH start, MPH and the first-year responsiveness to GH, and negatively with age. CONCLUSIONS: Prepubertal children with ISS who show an appropriate first-year response to GH are likely to benefit from long-term treatment, even on low GH dosages.

Type 3 renal tubular acidosis associated with growth hormone deficiency.

BACKGROUND: We identified two boys with type 3 renal tubular acidosis (RTA) and growth hormone deficiency and we sought to differentiate them from children with classic type 1 distal RTA. METHODS: We reviewed all children <6 years of age with RTA referred over a 13-year period and compared the growth response to alkali therapy in these two boys and in 28 children with only type 1 distal RTA. RESULTS: All children with type 1 RTA reached the 5th percentile or higher on CDC growth charts within 2 years of alkali therapy. Their mean height standard deviation score (SDS) improved from -1.4 to -0.6 SDS and their mean mid-parental height (MPH) SDS improved from -0.6 to 0 SDS after 2 years. In contrast, the boys with growth hormone deficiency had a height SDS of -1.4 and -2.4 SDS after 2 years of alkali and the MPH SDS were both -2.6 SDS after 2 years of alkali therapy. Growth hormone therapy accelerated their growth to normal levels and led to long-term correction of RTA. CONCLUSIONS: A child with type 1 RTA whose height response after 2 years of alkali therapy is inadequate should undergo provocative growth hormone testing.

Effect of growth hormone (GH) treatment on the near-final height of 1258 patients with idiopathic GH deficiency: analysis of a large international database.

CONTEXT: Treatment with GH has been used to correct the growth deficit in children with GH deficiency (GHD). Although successful in increasing height velocity, such treatment often falls short of helping patients achieve full genetic height potential. OBJECTIVE: This study set out to analyze near-final height (FH) data from a cohort of GH-treated children with idiopathic GHD. DESIGN, SETTING, AND PARTICIPANTS: Of 1258 evaluable patients in the Pfizer International Growth Database (KIGS) with GHD, 980 were of Caucasian origin, and 278 were of Japanese origin; 747 had isolated GHD (IGHD), and 511 had multiple pituitary hormone deficiencies (MPHD). MAIN OUTCOME MEASURES: Near-FH, relation to midparental height, and factors predictive of growth outcomes were the main outcome measures. RESULTS: Median height sd scores (SDS) at the start of treatment were -2.4 (IGHD) and -2.9 (MPHD) for Caucasian males and -2.6 (IGHD) and -3.4 (MPHD) for females, respectively; comparable starting heights were -2.9 (IGHD) and -3.6 (MPHD) for Japanese males and -3.3 (IGHD) and -4.0 (MPHD) for females, respectively. Corresponding near-adult height SDS after GH treatment were -0.8 (IGHD) and -0.7 (MPHD) for Caucasian males and -1.0 (IGHD) and -1.1 (MPHD) for females, respectively; and -1.6 (IGHD) and -1.9 (MPHD) for Japanese males and -2.1 (IGHD) and -1.8 (MPHD) for females, respectively. Differences between near-adult height and midparental height ranged between -0.6 and +0.2 SDS for the various groups, with the closest approximation to MPH occurring in Japanese males with MPHD. The first-year increase in height SDS and prepubertal height gain was highly correlated with total height gain, confirming the importance of treatment before pubertal onset. CONCLUSIONS: It is possible to achieve FH within the midparental height range in patients with idiopathic GHD treated from an early age with GH, but absolute height outcomes remain in the lower part of the normal range. Patients with MPHD generally had a slightly better long-term height outcome.

A brief review of the addition of gonadotropin-releasing hormone agonists (GnRH-Ag) to growth hormone (GH) treatment of children with idiopathic growth hormone deficiency: Previously published studies from America.

Despite aggressive, early and continuous growth hormone (GH) treatment of children with idiopathic (I) growth hormone deficiency (GHD), height outcomes are often below -1 SDS and do not achieve mid-parental height targets. As pubertal growth accounts for 15% of total growth and gonadotropin-releasing hormone agonist (GnRH-Ag) therapy has successfully prolonged the "prepubertal" growth phase in central precocious puberty, the addition of GnRH-Ag to GH in IGHD has been widely utilized to try to enhance linear growth. Results in the two large GH registry databases and GH prediction models do not support the success of such treatment, although several smaller, controlled trials do indicate some value. Whether GnRH-Ag therapy could be more successful if its use were related to the tempo or age of onset of puberty in a specific child is not known. No universally agreed guidelines exist for the use of GnRH-Ag plus GH in children with GHD or other short stature syndromes and may still be considered experimental.

Timing of Puberty in Overweight Versus Obese Boys.

BACKGROUND AND OBJECTIVE: Studies of the relationship of weight status with timing of puberty in boys have been mixed. This study examined whether overweight and obesity are associated with differences in the timing of puberty in US boys. METHODS: We reanalyzed recent community-based pubertal data from the American Academy of Pediatrics' Pediatric Research in Office Settings study in which trained clinicians assessed boys 6 to 16 years for height, weight, Tanner stages, testicular volume (TV), and other pubertal variables. We classified children based on BMI as normal weight, overweight, or obese and compared median age at a given Tanner stage or greater by weight class using probit and ordinal probit models and a Bayesian approach. RESULTS: Half of boys (49.9%, n = 1931) were white, 25.8% (n = 1000) were African American, and 24.3% (n = 941) were Hispanic. For genital development in white and African American boys across a variety of Tanner stages, we found earlier puberty in overweight compared with normal weight boys, and later puberty in obese compared with overweight, but no significant differences for Hispanics. For TV (≥3 mL or ≥4 mL), our findings support earlier puberty for overweight compared with normal weight white boys. CONCLUSIONS: In a large, racially diverse, community-based sample of US boys, we found evidence of earlier puberty for overweight compared with normal or obese, and later puberty for obese boys compared with normal and overweight boys. Additional studies are needed to understand the possible relationships among race/ethnicity, gender, BMI, and the timing of pubertal development.

Increased response, but lower responsiveness, to growth hormone (GH) in very young children (aged 0-3 years) with idiopathic GH Deficiency: analysis of data from KIGS.

In children, GH secretion and sensitivity to GH are influenced by developmental changes. It is not clear whether the response to GH in very young children with GH deficiency (GHD) is the same as that in older, prepubertal children. A cohort of 265 children (180 males and 85 females) with idiopathic GHD from KIGS (Pfizer International Growth Database), with treatment started at less than 3 yr of age (mean age, 1.9 yr; group I) was compared with a cohort of 509 children (331 males and 178 females; group II) with treatment started at 7-8 yr of age (mean age, 7.5 yr). The following differences (P < 0.01) were found (given in mean values) between groups I and II at the start of GH treatment: 9% vs. 5% breech delivery, 38% vs. 14% multiple pituitary hormone deficiency, 4.2 vs. 5.9 ng/ml maximum GH in response to tests, -0.1 vs. -0.8 midparental height (MPH) sd score (SDS), -3.1 vs. -2.5 height SDS, 0.83 vs. 0.66 IU/kg.wk GH dose. After the first year of GH, the results were: 13.3 vs. 8.6 cm/yr height velocity, and 1.7 vs. 0.6 maximum change in height SDS. Using the previously developed growth prediction models for prepubertal children with idiopathic GHD more than 2 yr of age, our analysis revealed differences in the indexes of responsiveness in prediction models (Studentized residuals SDS, 0.7 vs.-0.3) and strikingly higher responsiveness to treatment among the young cohort, but with large scatter. Thus, new prediction models of height velocity (centimeters per year) were derived by means of multiple regression analysis for the young cohort, either involving (model A) or excluding (model B) the GH peak in tests. Model A explained 54% of the total variability with an error sd of 2.1 cm. Height velocity correlated with (parameters in order of importance) age (-), maximum GH (-), GH dose (+), weight SDS (+), height SDS minus MPH SDS (-), and birth weight SDS (+). Model B explained 45% of the total variability with an error sd of 2.3 cm. Height velocity correlated with (parameters in order of importance) age (-), GH dose (+), birth weight SDS (+), height SDS minus MPH SDS (-), and weight SDS (+). The predictors were qualitatively the same as those in the total prepubertal model involving all children more than 2 yr of age, but their quantitative impact in terms of partial contribution and the order of their importance were different for the young cohort. In particular, the partial contribution of the GH dose was higher, suggesting a greater gain in height per GH dose unit in the very young than in the older children. However, the rank order of the GH dose in the new models was lower, which suggests a slightly low sensitivity to GH in toddlers after the phase of severe GH insensitivity during early infancy. The early detection and GH treatment of congenital GHD is advantageous as a cost-effective strategy for achieving greater improvement of absolute height and growth velocity.

Randomized controlled trial evaluating response to metformin versus standard therapy in the treatment of adolescents with polycystic ovary syndrome.

OBJECTIVE: We evaluated the hypothesis that metformin would improve signs and symptoms of polycystic ovary syndrome (PCOS) in adolescents as compared to oral contraceptive pills (OCP) and have a favorable effect on obesity. STUDY DESIGN: Thirty-five obese, post-menarchal, non-sexually active adolescents aged 12-21 years with PCOS and hyperinsulinism were randomly assigned to receive either OCP or metformin for 6 months. RESULTS: There was a significant decrease in BMI in the two groups over time, from 40.1 to 38.6 in the OCP group, and 37.3 to 36.3 in the metformin group, p = 0.0026, but no significant difference in the degree of change between the two groups. Both groups had decreased free testosterone (OCP: 1.8 pg/ml to 0.96 pg/ml; metformin: 2.1 pg/ml to 1.6 pg/ml), p < 0.0001, and improvements in insulin resistance as evidenced by increased glucose/insulin (G/I) ratio (p < 0.005) and increased QUICK1 scores (p < 0.0005). No significant differences in response to treatment were found between the metformin and OCP groups in outcome variables. CONCLUSION: Adolescents with PCOS treated with metformin or OCP experienced similar beneficial outcomes including reduction in androgen levels, weight loss, and increased insulin sensitivity. The choice of a treatment agent for long-term use will depend on safety profiles, therapeutic goals and patient adherence.

Testotoxicosis: current viewpoint.

Testotoxicosis is a form of gonadotropin-independent (peripheral) precocious puberty in which boys experience early onset and progression of puberty. Patients have accelerated growth, early development of secondary sexual characteristics and usually reduced adult height. Testotoxicosis is caused by an activating mutation of the luteinizing hormone (LH) receptor, leading to increased levels of sex steroids in the context of low LH. Therapy has, therefore, traditionally targeted steroidogenesis. However, the drugs used have been associated with side effects. More recently, a combination of an oral anti-androgen (spironolactone) and an aromatase inhibitor (testolactone) decreased height velocity and improved predicted height. A phase II study in testotoxicosis is currently underway,exploring the combination of a highly selective anti-androgen, bicalutamide, and the potent aromatase inhibitor, anastrozole. These agents are well tolerated in the populations in which they have been studied and effectively inhibit testosterone activity and estrogen production, in adult patients.

HIV--associated lipodystrophy in children.

Lipodystrophy (LD) with varying degrees of lipohypertrophy, lipoatrophy, hyperlipidemia, and insulin resistance is one of the complications of highly active antiretroviral therapy (HAART) and occurs in one to 33 % of HAART-treated, HIV infected children. We summarize the data on the role of leptin, adiponectin, the growth hormone axis, glucocorticoids, sterol response element binding protein 1c (SREBP-1c), the tumor necrosis factor alpha axis (TNF-alpha), interleukin-6 (IL-6), interleukin- 18 (IL-18), interferon-alpha (IFN-alpha), tissue plasminogen activator (tPA), and plasminogen activator inhibitor (PAI-1) in the pathophysiology of LD. Adiponectin levels are generally decreased in LD, whereas leptin levels are increased. Systemic cortisol levels are not elevated in LD, even though glucocorticoids seem to play an important role in LD and the phenotype can be reminiscent of Cushing syndrome. GH resistance in LD needs to be better characterized. While some cytokines show promise as markers for LD, it is difficult to tell whether their derangement is a cause of or the effect of LD.