Context Daily growth hormone (GH) injections can be burdensome for patients and carers. Somapacitan is a long-acting, reversible albumin-binding GH derivative in development for once-weekly administration in patients with growth hormone deficiency (GHD). Objective The objective of this study is to evaluate the efficacy, safety, and tolerability of once-weekly somapacitan vs once-daily GH. Design REAL 3 is a multicenter, randomized, controlled, double-blind (somapacitan doses), phase 2 study with a 26-week main and 26-week extension phase (NCT02616562). Setting This study took place at 29 sites in 11 countries. Patients Fifty-nine GH treatment-naive prepubertal children with GHD were randomly assigned; 58 completed the trial. Interventions Interventions comprised 3 somapacitan doses (0.04 [n = 16], 0.08 [n = 15], or 0.16 mg/kg/wk [n = 14]) and daily GH (0.034 mg/kg/d [n = 14]), administered subcutaneously. Main Outcome Measures The primary end point was height velocity (HV) at week 26. Secondary efficacy end points included HV SD score (SDS) and insulin-like growth factor-I (IGF-I) SDS. Results At week 26, mean (SD) annualized HV for the somapacitan groups was 8.0 (2.0), 10.9 (1.9), and 12.9 (3.5) cm/year, respectively, vs 11.4 (3.3) cm/year for daily GH; estimated treatment difference (somapacitan 0.16 mg/kg/week—daily GH): 1.7 [95% CI –0.2 to 3.6] cm/year. HV was sustained at week 52, and significantly greater with somapacitan 0.16 mg/kg/week vs daily GH. Mean (SD) change from baseline in HV SDS at week 52 was 4.72 (2.79), 6.14 (3.36), and 8.60 (3.15) for the somapacitan groups, respectively, vs 7.41 (4.08) for daily GH. Model-derived mean (SD) IGF-I SDS for the somapacitan groups was −1.62 (0.86), −1.09 (0.78), and 0.31 (1.06), respectively, vs −0.40 (1.50) observed for daily GH. Safety and tolerability were consistent with the profile of daily GH. Conclusions In children with GHD, once-weekly somapacitan 0.16 mg/kg/week provided the closest efficacy match with similar safety and tolerability to daily GH after 26 and 52 weeks of treatment. A short visual summary of our work is available (1).
Context The clinical effects of classical 3β-hydroxysteroid dehydrogenase 2 (3βHSD2) deficiency are insufficiently defined due to a limited number of published cases. Objective To evaluate an integrated steroid metabolome and the short- and long-term clinical features of 3βHSD2 deficiency. Design Multicenter, cross-sectional study. Setting Nine tertiary pediatric endocrinology clinics across Turkey. Patients Children with clinical diagnosis of 3βHSD2 deficiency. Main Outcome Measures Clinical manifestations, genotype-phenotype-metabolomic relations. A structured questionnaire was used to evaluate the data of patients with clinical 3βHSD2 deficiency. Genetic analysis of HSD3B2 was performed using Sanger sequencing. Novel HSD3B2 mutations were studied in vitro. Nineteen plasma adrenal steroids were measured using LC-MS/MS. Results Eleven homozygous HSD3B2 mutations (6 novel) were identified in 31 children (19 male/12 female; mean age: 6.6 ± 5.1 yrs). The patients with homozygous pathogenic HSD3B2 missense variants of > 5% of wild type 3βHSD2 activity in vitro had a non-salt–losing clinical phenotype. Ambiguous genitalia was an invariable feature of all genetic males, whereas only 1 of 12 female patients presented with virilized genitalia. Premature pubarche was observed in 78% of patients. In adolescence, menstrual irregularities and polycystic ovaries in females and adrenal rest tumors and gonadal failure in males were observed. Conclusions Genetically-documented 3βHSD2 deficiency includes salt-losing and non-salt–losing clinical phenotypes. Spared mineralocorticoid function and unvirilized genitalia in females may lead to misdiagnosis and underestimation of the frequency of 3βHSD2 deficiency. High baseline 17OHPreg to cortisol ratio and low 11-oxyandrogen concentrations by LC-MS/MS unequivocally identifies patients with 3βHSD2 deficiency.
BackgroundCongenital sphingosine-1-phosphate (S1P) lyase deficiency due to biallelic mutations in SGPL1 gene has recently been described in association with primary adrenal insufficiency and steroid-resistant nephrotic syndrome. S1P lyase, on the other hand, is therapeutically inhibited by fingolimod which is an oral drug for relapsing multiple sclerosis (MS). Effects of this treatment on adrenal function has not yet been evaluated. We aimed to test adrenal function of MS patients receiving long-term fingolimod treatment.MethodsNineteen patients (14 women) with MS receiving oral fingolimod (Gilenya®, Novartis) therapy were included. Median age was 34.2 years (range; 21.3–44.6 years). Median duration of fingolimod treatment was 32 months (range; 6–52 months) at a dose of 0.5 mg/day. Basal and ACTH-stimulated adrenal steroid measurements were evaluated simultaneously employing LC-MS/MS based steroid panel. Basal steroid concentrations were also compared to that of sex- and age-matched healthy subjects. Cortisol and 11-deoxycortisol, 11-deoxycorticosterone and dehydroepiandrosterone were used to assess glucocorticoid, mineralocorticoid and sex steroid producing pathways, respectively.ResultsBasal ACTH concentrations of the patients were 20.8 pg/mL (6.8–37.8 pg/mL) (normal range; 5–65 pg/mL). There was no significant difference in the basal concentrations of cortisol, 11-deoxycortisol, 11-deoxycorticosterone and dehydroepiandrosterone between patients and controls (p = 0.11, 0.058, 0.74, 0.15; respectively). All patients showed adequate cortisol response to 250 mcg IV ACTH stimulation (243 ng/mL, range; 197–362 ng/mL). There was no significant correlation between duration of fingolimod treatment and basal or ACTH-stimulated cortisol or change in cortisol concentrations during ACTH stimulation test (p = 0.57, 0.66 and 0.21, respectively).ConclusionModification and inhibition of S1P lyase activity by the long-term therapeutic use of fingolimod is not associated with adrenal insufficiency in adult patients with MS. This suggests that S1P lyase has potentially a critical role on adrenal development rather than the function of a fully mature adrenal gland.
Infant sleep problems are among the most common problems presented to physicians dealing with children. Infants go through rapid eye movement (REM) and non-REM sleep every 50 minutes, so they can wake up many times each night [1,2]. By about 4 months, many babies begin to sleep through the night and approximately 80% of infants sleep through the night by the time they are 6 to 9 months of age [1,2]. Parents often see the infant who is not sleeping through the night as having a sleep problem and search for solutions. About 20-30% of young children suffer from bedtime resistance (bedtime struggles, bedtime refusals) and frequent night awakenings [1][2][3][4][5]. They become dependent upon specific sleep onset associations (rocking, ÖZET Amaç: Bebeklik dönemi uyku sorunları pediatristlerin en sık karşılaştığı sorunlardan biridir. "Bebek Kısa Uyku Anketi"nin genişletilmiş hali, erken çocukluk döneminde uyku ortamı ve uyku sorunlarını değerlendirmek için Sadeh tarafından geliştirilen bir ankettir. Bu çalışmada, bu anket Türkçe'ye çevrilmiş ve bebeklerde uyku ortamı ve uyku sorunlarının değerlendirilmesi amaçlanmıştır.Hastalar ve Yöntem: Sadeh'in onayı alındıktan sonra çeviri başladı. Anketin son hali 121 bebekte uygulanarak değerlendirildi.Bulgular: Bebeklerin %11,6'sının ebeveynleri bebeklerinin uykusunu çok ciddi bir sorun olarak algılarken, %22,3'ü küçük bir sorun olduğunu, %66,1'inin ise uyku sorunu olmadığını düşündüğü görüldü. Kötü uyku kriterine göre %32,2 (39) bebek kötü uyuyan olarak kabul edildi. Lojistik regresyon analizine göre ebeveynin yatağında uyuma kötü uyku ile ilişkili bulundu. Bebeğin uyku sorunuyla ilgili annelerin algısı Sadeh tarafından ileri sürülen uyku sorunu kriterleriyle ilişkili bulundu.Sonuç: Test sonuçları, anketin Türkçe çevirisinin erken çocukluk döneminde uyku ortamı ve uyku sorunlarını değerlendirmede kabul edilebilir ve anlaşılabilir olduğu konusunda ön kanıtlar sağlamıştır.
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