Background: An ENDO-European Reference Network (ERN) initiative was launched that was endorsed by the European Society for Pediatric Endocrinology and the European Society for Endocrinology with 22 participants from the ENDO-ERN and the two societies. The aim was to update the practice guidelines for the diagnosis and management of congenital hypothyroidism (CH). A systematic literature search was conducted to identify key articles on neonatal screening, diagnosis, and management of primary and central CH. The evidence-based guidelines were graded with the Grading of Recommendations, Assessment, Development and Evaluation system, describing both the strength of recommendations and the quality of evidence. In the absence of sufficient evidence, conclusions were based on expert opinion. Summary: The recommendations include the various neonatal screening approaches for CH as well as the etiology (also genetics), diagnostics, treatment, and prognosis of both primary and central CH. When CH is diagnosed, the expert panel recommends the immediate start of correctly dosed levothyroxine treatment and frequent follow-up including laboratory testing to keep thyroid hormone levels in their target ranges, timely assessment of the need to continue treatment, attention for neurodevelopment and neurosensory functions, and, if necessary, consulting other health professionals, and education of the child and family about CH. Harmonization of diagnostics, treatment, and follow-up will optimize patient outcomes. Lastly, all individuals with CH are entitled to a well-planned transition of care from pediatrics to adult medicine. Conclusions: This consensus guidelines update should be used to further optimize detection, diagnosis, treatment, and follow-up of children with all forms of CH in the light of the most recent evidence. It should be helpful in convincing health authorities of the benefits of neonatal screening for CH. Further epidemiological and experimental studies are needed to understand the increased incidence of this condition.
SummaryBackgroundKCNJ11 mutations cause permanent neonatal diabetes through pancreatic ATP-sensitive potassium channel activation. 90% of patients successfully transfer from insulin to oral sulfonylureas with excellent initial glycaemic control; however, whether this control is maintained in the long term is unclear. Sulfonylurea failure is seen in about 44% of people with type 2 diabetes after 5 years of treatment. Therefore, we did a 10-year multicentre follow-up study of a large international cohort of patients with KCNJ11 permanent neonatal diabetes to address the key questions relating to long-term efficacy and safety of sulfonylureas in these patients.MethodsIn this multicentre, international cohort study, all patients diagnosed with KCNJ11 permanent neonatal diabetes at five laboratories in Exeter (UK), Rome (Italy), Bergen (Norway), Paris (France), and Krakow (Poland), who transferred from insulin to oral sulfonylureas before Nov 30, 2006, were eligible for inclusion. Clinicians collected clinical characteristics and annual data relating to glycaemic control, sulfonylurea dose, severe hypoglycaemia, side-effects, diabetes complications, and growth. The main outcomes of interest were sulfonylurea failure, defined as permanent reintroduction of daily insulin, and metabolic control, specifically HbA1c and sulfonylurea dose. Neurological features associated with KCNJ11 permanent neonatal diabetes were also assessed. This study is registered with ClinicalTrials.gov, number NCT02624817.Findings90 patients were identified as being eligible for inclusion and 81 were enrolled in the study and provided long-term (>5·5 years cut-off) outcome data. Median follow-up duration for the whole cohort was 10·2 years (IQR 9·3–10·8). At most recent follow-up (between Dec 1, 2012, and Oct 4, 2016), 75 (93%) of 81 participants remained on sulfonylurea therapy alone. Excellent glycaemic control was maintained for patients for whom we had paired data on HbA1c and sulfonylurea at all time points (ie, pre-transfer [for HbA1c], year 1, and most recent follow-up; n=64)—median HbA1c was 8·1% (IQR 7·2–9·2; 65·0 mmol/mol [55·2–77·1]) before transfer to sulfonylureas, 5·9% (5·4–6·5; 41·0 mmol/mol [35·5–47·5]; p<0·0001 vs pre-transfer) at 1 year, and 6·4% (5·9–7·3; 46·4 mmol/mol [41·0–56·3]; p<0·0001 vs year 1) at most recent follow-up (median 10·3 years [IQR 9·2–10·9]). In the same patients, median sulfonylurea dose at 1 year was 0·30 mg/kg per day (0·14–0·53) and at most recent follow-up visit was 0·23 mg/kg per day (0·12–0·41; p=0·03). No reports of severe hypoglycaemia were recorded in 809 patient-years of follow-up for the whole cohort (n=81). 11 (14%) patients reported mild, transient side-effects, but did not need to stop sulfonylurea therapy. Seven (9%) patients had microvascular complications; these patients had been taking insulin longer than those without complications (median age at transfer to sulfonylureas 20·5 years [IQR 10·5–24·0] vs 4·1 years [1·3–10·2]; p=0·0005). Initial improvement was noted following transfer to sulfo...
Aims/hypothesis The value of managing children with type 1 diabetes using a combination of insulin pump and continuous glucose monitoring starting from diagnosis for improving subsequent glycaemic control and preserving residual beta cell function was determined. Methods A total of 160 children (aged 1-16 years, mean± SD: 8.7±4.4 years; 47.5% girls) were randomised to receive insulin pump treatment with continuous glucose monitoring or conventional self-monitoring blood glucose measurements. The primary outcome was the level of HbA 1c after 12 months. Other analyses included fasting C-peptide, glycaemic variability, sensor usage, adverse events, children's health-related quality of life and parent's wellbeing. Results HbA 1c was not significantly different between the two groups, but patients with regular sensor use had lower values (mean 7.1%, 95% CI 6.8-7.4%) compared with the combined group with no or low sensor usage (mean 7.6%, 95% CI 7.3-7.9%; p=0.032). At 12 months, glycaemic variability was lower in the sensor group (mean amplitude of glycaemic excursions 80.2 ± 26.2 vs 92.0 ± 33.7; p=0.037). Higher C-peptide concentrations were seen in sensor-treated 12-to 16-year-old patients (0.25±0.12 nmol/l) Electronic supplementary material The online version of this article
OBJECTIVE -Low birth weight (LBW), no early catch-up weight, and subsequent fat accumulation have been associated with increased risks of insulin resistance from childhood onward and later cardiovascular disease. We sought to clarify the effects of high birth weight (HBW) and postnatal weight gain on insulin resistance. RESEARCH DESIGN AND METHODS-A total of 117 obese children aged 10.4 Ϯ 2.4 years were divided into three groups according to fetal growth after exclusion of maternal diabetes. They were comparable for age, sex, puberty, and percent body fat. Customized French birth weight standards, adjusted for maternal characteristics and gestation number, identified subjects with true altered fetal growth: 32 had increased fetal growth according to customized standards (HBWcust), 52 were eutrophic, and 33 had restricted fetal growth according to customized standards (LBWcust). Fat distribution by dual-energy X-ray absorptiometry, insulin sensitivity indexes from an oral glucose tolerance test (OGTT), and leptin, adiponectin, and visfatin levels were compared between groups.RESULTS -The HBWcust subjects had a higher adiponectin level, higher whole-body insulin sensitivity index (WBISI), and lower hepatic insulin resistance index, lower insulin and free fatty acid concentrations during OGTT, and lower trunk fat percent than eutrophic (P Ͻ 0.05) and LBWcust subjects (P Ͻ 0.05). Besides birth weight, weight gain between 0 and 2 years was a positive predictor (P Ͻ 0.05) of WBISI, whereas weight gain after 4 years was a negative predictor (P Ͻ 0.05).CONCLUSIONS -HBW and early weight gain may program insulin sensitivity and adipose tissue metabolism and contribute to so-called metabolically healthy obesity. Diabetes Care 31:1031-1036, 2008N umerous studies have shown that low birth weight (LBW) is associated with an increased risk of insulin resistance, trunk accumulation of fat, metabolic syndrome, and cardiovascular disease in adulthood (1-3). Insulin resistance and metabolic syndrome have also been detected in children, adolescents, and young adults born small for gestational age (4 -6). Notably, the effect of birth weight on insulin resistance and later cardiovascular disease has been most apparent in the upper tertile of normal BMI and in obese subjects (7). In addition, the absence of early catch-up weight gain in the context of LBW has been shown to be the most deleterious (1,8).At the opposite extreme, the effect of high birth weight (HBW) on later insulin resistance and cardiovascular disease is more controversial. Some studies showed that subjects with HBW had lower rates of coronary heart disease and type 2 diabetes (2,9), whereas others reported that, in a context of gestational diabetes or in specific ethnic groups, the heaviest born babies also had an increased risk for developing obesity (10,11) and metabolic syndrome (12). This suggests that disease associations with higher birth weight may reflect the influence of maternal diabetes in both promoting larger birth size and conferring risk for diabetes t...
Heterozygous germline mutations of the hepatocyte nuclear factor (HNF)-1 alpha are associated with maturity-onset diabetes of the young (MODY)3. Recently, the biallelic inactivation of the HNF-1 alpha gene was reported in liver adenomas. We show the occurrence of liver adenomatosis in six MODY3-affected patients from two unrelated and large families. Liver adenomatosis was characterized by the presence of numerous adenomas within a normal hepatic parenchyma. The HNF-1 alpha hot-spot germline mutation P291fs was identified in the two probands and in 16 relatives from the two families. The six patients affected by liver adenomatosis and diabetes exhibited the mutation. The analysis of liver-cell tumors from two affected patients evidenced the biallelic inactivation of HNF-1 alpha. The familial screening confirmed the clinical heterogeneity of the liver phenotype, from silent liver adenomatosis to fatal hemorrhage. These observations warrant the systematic screening for liver adenomatosis in MODY3 families to prevent its potentially deadly complications. Moreover, such screening may help to determine if a particular mutational spectrum of HNF-1 alpha is associated with liver adenomatosis and to establish its prevalence in this frequent form of diabetes in the young adult.
The usual markers of testis dysgenesis may be normal in 46,XY individuals with SF-1 mutation. Screening for SF-1 mutation should be performed in subjects with apparent partial androgen insensitivity syndrome and no mutation in the AR gene.
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