ObjectiveResults of the screening of disease causative mutations in congenital hypothyroidism (CH) vary significantly, depending on the sequence strategy, patients’ inclusion criteria and bioinformatics. The objective was to study the molecular basis of severe congenital hypothyroidism, using the next generation sequencing (NGS) and the recent guidelines for assessment of sequence variants.Design243 patients with CH (TSH levels at neonatal screening or retesting greater than 90 mU/l) and 56 control subjects were included in the study.MethodsA custom NGS panel targeting 12 CH causative genes was used for sequencing. The sequence variants were rated according to American College of Medical Genetics and Genomics (ACMG) guidelines.ResultsIn total, 48 pathogenic, 7 likely pathogenic and 57 variants of uncertain significance were identified in 92/243 patients (37.9%), while 4 variants of uncertain significance were found in 4/56 control subjects (7.1%). 13.1% (12/92) of the cases showed variants in ‘thyroid dysgenesis’ (TD) genes: TSHR, n = 6; NKX2-1, n = 2; NKX2-5, n = 1; PAX8, n = 3. The variants in ‘dyshormonogenesis’ (DH) genes were found in 84.8% (78/92) of cases: TPO, n = 30; DUOX2, n = 24; TG, n = 8; SLC5A5, n = 3; SLC26A4, n = 6; IYD, n = 1. 8 patients showed oligonenic variants. The majority of variants identified in DH genes were monoallelic.ConclusionsIn contrast to earlier studies demonstrating the predominance of TD in severe CH, the majority of variants identified in our study were in DH genes. A large proportion of monoallelic variants detected among DH genes suggests that non-mendelian mechanisms may play a role in the development of CH.
The consequences of lifelong untreated childhood-onset GH deficiency (COGHD) on adult bone and especially fracture prevalence are largely unknown due to the lack of data on long-term outcome of untreated patients. Therefore, we studied adult Russian patients (n = 66; 28 females and 38 males) with idiopathic GH-untreated COGHD. Patients had isolated GH deficiency (IGHD; n = 18, age 23 +/- 10 yr) or multiple pituitary hormone deficiency (MPHD) with open (OMPHD; n = 27, age 23 +/- 5 yr) or closed growth plates (CMPHD; n = 21, age 55 +/- 12 yr). Bone mineral content (BMC) and bone mineral density (BMD) values were compared with 821 normal Russian controls. Fracture prevalence was ascertained from medical history and compared with similar data from 333 normal controls. Height sd score was -4.6 (range, -1.8 to -8.1). This represents 82% of the height of normal Russian adults. BMC of the lumbar spine, femoral neck, and total body of patients with IGHD was 54, 71, and 59%, respectively, of that of age- and sex-matched controls (all P < 0 0.001). A similarly decreased BMC (42-69% of expected values) was found for all bone regions of patients with both OMPHD and CMPHD. Mean areal BMD measurements (g/cm(2)) varied (Z scores between -1.8 and -3.0), but the calculated true bone density (g/cm(3)) was normal in patients with IGHD or CMPHD and only slightly decreased (Z score, -0.8) in patients with OMPHD. Lifetime low-energy fracture prevalence was normal in patients with IGHD but substantially exceeded the expected prevalence in OMPHD (odds ratio of fracture = 3.0; 0.6 fractures per patient; P < 0.0001) or CMPHD patients (odds ratio for fracture = 7.4; 2.2 fractures per patient; P < 0.0001). In conclusion, IGHD and MPHD of childhood onset very substantially impair adult height and BMC. Although areal BMD is frankly decreased, volumetric bone density is unaffected, but nevertheless, the fracture prevalence in patients with MPHD is markedly increased. These observations demonstrate that not only volumetric density but also bone mass and shape are major determinants of bone strength.
Background/Aims: Defects of the PROP1 gene are the most prevalent genetic cause of combined pituitary hormone deficiency. Previous observations in affected patients have shown pituitary size ranging from hypoplasia to overt pituitary mass and evolution of size over the lifespan. Methods: We evaluated pituitary size and morphology in PROP1-mutation carriers who originated from Central and Eastern Europe. We analyzed 112 pituitary magnetic resonance imaging (MRI) scans from 82 patients (42 males) aged 2.5–72.7 (median 16.6) years from 60 kindreds. Results: Among the 120 independent PROP1 alleles, the most prevalent mutations were delGA301/302 (99 alleles) and delA150 (13 alleles). Median pituitary height at first MRI was 4.7 mm (range 1.0–20.7) and median volume was 127.6 mm3 (range 7.5–3,087.0). Pituitary size did not differ between sexes and did not correlate with hormonal phenotype, but significantly decreased with increasing age. However, evaluation of individual values suggested a biphasic mode with increasing volume during childhood, peak in adolescence, and subsequent regression in adulthood. Conclusion: Although pituitary size was increased in a number of PROP1-deficient patients, none of them suffered permanent damage from pituitary mass; therefore, any proposed surgery should be postponed as long as possible and ultimately may not be necessary due to the self-limiting nature of the pituitary enlargement.
GH insensitivity (GHI) is an autosomal recessive disorder caused by defects in the GH receptor (GHR). In a 17-yr-old female with severe short stature and biochemical features of GHI, sequencing of GHR gene revealed a compound heterozygosity for two novel mutations: C83X and a G deletion at position 1776 (1776del). 1776del is predicted to result in GHR truncation to 581 amino acids with a nonsense sequence of residues 560-581. To clarify the effect of 1776del on GHR function, wild-type GHR, GHR-1776del, and two additional GHR mutants, GHR-L561X (stop codon at site of the 1776del) and GHR-I582X (translation termination in GHR-1776del) were transiently expressed in CHO cells. After incubation with recombinant human GH, GHR-1776del showed lower signal transducer and activator of transcription 5 (STAT5)-mediated transcriptional activation ( approximately 50%, P < 0.05), as well as STAT5 Tyr694 phosphorylation (P < 0.05) compared with wild-type GHR, whereas GHR-L561X and GHR-I582X showed normal STAT5 phosphorylation and transcriptional activity. In contrast, all vectors produced similar effects on STAT3-mediated transcriptional activation. In conclusion, this novel GHR-1776del mutation in a classical GHI patient illustrates an important mechanism of impaired GHR-STAT5 but intact GHR-STAT3 signaling. This effect might result from interference of C-terminal nonsense sequence in mutated GHR with STAT5 docking to upstream tyrosine residues.
The materials of the National Consensus reflect the modern domestic and international experience on this issue. Before conducting a specialized endocrinological examination of a short child, all other causes of short stature should be excluded: severe somatic diseases in a state of decompensation that can affect growth velocity, congenital systemic skeletal diseases, syndromic short stature (all girls with growth retardation require a mandatory study of karyotype, depending on the presence or absence of phenotypic signs of Turner syndrome), endocrine diseases in decompensation. A specialized examination of the state of GH-IGF-I axis is carried out when the proportionally folded child has pronounced short stature: if the child’s height is < –2.0 SDS, if the difference between the child’s height SDS and child’s midparental height SDS exceeds 1.5 SDS and/or a low growth velocity. The consensus reflects clear criteria for the diagnosis of GH-deficiency, central hypothyroidism, central hypocorticosolism, central hypogonadism, diabetes insipidus, hypoprolactinemia, and also the criteria for their compensation. The dose of somatropin with GH-deficiency in children and adolescents is 0.025–0.033 mg/kg/day. With total somatotropic insufficiency, especially in young children, it is advisable to start therapy with somatropin from lower doses: 25–50% of the substitution, gradually increasing it within 3–6 months to optimal. In children with a growth deficit when entering puberty, the dose may be increased to 0.045–0.05 mg/kg/day. With the development of side effects, the dose of somatropin can be reduced (by 30–50%), or temporarily canceled (depending on the severity of the clinical picture) until the complete disappearance of undesirable symptoms. With swelling of the optic nerve, treatment is temporarily stopped until the picture of the fundus of the eye fully normalizes. If therapy has been temporarily discontinued, treatment is resumed in smaller doses (50% of the initial) with a gradual (within 1–3 months) return to the optimum. GH treatment at pediatric doses not continue beyond attainment of a growth velocity below 2–2.5 cm/year, closure of the epiphyseal growth zones, or earlier, when: the achievement of genetically predicted height, but not more than 170 cm in girls, 180 cm in boys, the patient’s desire and his parents / legal representatives satisfied with the achieved result of the final height. Re-evaluation of the somatotropic axis is carried out after reaching the adult height, after 1–3 months GH therapy will be discontinued. Patients with isolated GH-deficiency or patients with 1 (besides GH) pituitary hormone deficiencies in the presence of a normal IGF-1 level (against the background of somatropin withdrawal) and not having molecular genetic confirmation of the diagnosis need re- evaluation. Patients with two or more (besides GH) pituitary hormone deficiencies, acquired hypothalamic-pituitary lesions due to operations on the pituitary and irradiation of the hypothalamic-pituitary area (if the IGF-1 level is low against somatropin withdrawal), specific pituitary/ hypothalamic structural defect on MRI, gene defects of the GH-IGF-I system do not need re- evaluation. If GH deficiency is confirmed, treatment with somatropin is resumed at metabolic doses of 0.01—0.003 mg/kg/day under the control of the IGF-I level in the blood (measurement 1 time in 6 months), the indicator should not exceed the upper limit of the reference value for the corresponding age and floor.
Graves' disease is rather rare occurrence in the childhood, with the girls being the most frequently affected gender. The draft clinical guidelines on diagnostics and treatment of Graves' disease in the children and adolescents are proposed for the extensive discussion. The guidelines are intended for pediatric endocrinologists, pediatrists, surgeons, and specialists in radioisotope therapy.
Background. Neonatal screening for congenital hypothyroidism (CH) allows the timely diagnosis of disease and onset of replacement therapy. Analytical research in the field of health care provides the basis for making managerial decisions, in particular by public authorities. Objective — the study objective was to analyze the results of neonatal screening for congenital hypothyroidism in the Russian Federation. Material and methods. We analyzed reports of local health authorities (LHAs) on the results of activities of regional medical and genetic services, which were monthly submitted to the Ministry of Health of the Russian Federation. The reports included the number of newborns, examined newborns, and newly diagnosed CH cases. Results. According to the results of neonatal screening, the rate of CH detection in the Russian Federation was 1 case per 3,617 newborns (maximum, 1 per 2379; minimum, 1 per 4752 in different federal districts). The coverage of neonatal screening for CH in the Russian Federation varies by years and regions, from 67.9% (1997) to 99.8% (2012) and from 81.7% (North Caucasian Federal District) to 99.9% (Central Federal District). With the percentage of newborn screening coverage more than 70%, each additional coverage percent results in detection of 6—7 new CH cases. Conclusion. The conducted analysis indicates the need for further studying the features of congenital hypothyroidism incidence in different regions of the Russian Federation and improving organizational processes of neonatal screening for CH.
Valtropin™ (somatropin, BioPartners and LG Life Sciences [LGLS]) is a recombinant human growth hormone (GH) preparation produced using a yeast expression system. An open single-arm phase III study was conducted to evaluate efficacy and safety at a dose of 0.16 IU/kg/day (0.053 mg/kg/day) s.c. for 12 months in the treatment of short stature in girls (n = 30, aged 2-9 years) with Turner's syndrome. The primary efficacy variable was height velocity (HV) at 12 months. Secondary efficacy variables included serum GH dependent growth factors. HV increased from 3.8 ±1.8 cm/yr at baseline to 9.7 ± 1.6 cm/yr (mean ± SD) after 12 months of treatment. Marked treatment effects were also observed on other growth parameters, serum insulin-like growth factor-I (IGF-I) and insulinlike growth factor binding protein-3 (IGFBP-3). Treatment was well tolerated with no significant adverse events. It is concluded that Valtropin™ is as safe and effective as other human GH preparations for the treatment of growth failure in girls with Turner's syndrome.
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