hrp0089fc3.1 | Diabetes and Insulin 1 | ESPE2018

Neonatal Diabetes Owned to Potassium Channel Mutation: Response to Sulfonylureas According to the Genotype

Garcin Laure , Fauret Anne-Laure , Cave Helene , Polak Michel , Beltrand Jacques

Introduction / aim: Neonatal diabetes owned to potassium channel mutation can be successfully treated by sulfonylureas (SU). No study has reported SU efficiency according to the genotype.Method: Review of literature conducted in accordance with the control criteria of Preferred Reporting Items for Systematic Reviews and Meta-Analysis (PRISMA). Search engine used: PubMed and the Cochrane Library database. Selection of clinical report, case reviews and met...

hrp0089fc8.1 | Sex differentiation, Gonads and Gynaecology or Sex Endocrinology | ESPE2018

Estrogen Receptor 2 Variant as a Novel Cause for Dysgenetic Ovaries

Lang-Muritano Mariarosaria , Sproll Patrick , Wyss Sascha , Kolly Anne , Hurlimann Renate , Konrad Daniel , Biason-Lauber Anna

Background: Variants in the estrogen receptor α (ESR1) have previously been described in male and female patients presenting with estrogen resistance. Estrogen resistance is characterized by delayed bone-age, early-onset osteoporosis, delayed puberty and multicystic ovaries in women. So far, no clinical consequences of variants in the estrogen receptor β (ESR2) have been reported in 46,XX patients, although ESR2 variants have previously been implicated in 46,XY DSD p...

hrp0089rfc14.3 | Multisystem Endocrine Disorders | ESPE2018

Dysregulated Glucose Homeostasis in Congenital Central Hypoventilation Syndrome

Musthaffa Yassmin , Goyal Vikash , Harris Margaret-Anne , Kapur Nitin , Leger Juliane , Harris Mark

Background: Congenital Central Hypoventilation Syndrome (CCHS) is a rare disorder of respiratory control resulting from heterozygous polyalanine repeat expansions within the Paired-Like Homeobox 2B (PHOX2B) gene. A hypoglycaemic seizure in a 4-year-old girl with CCHS, lead to a more detailed examination of glycaemic control in a cohort of children with CCHS.Objective: To describe glucose homeostasis in children with CCHS.M...

hrp0089p2-p043 | Bone, Growth Plate & Mineral Metabolism P2 | ESPE2018

Metabolic Syndrome in Children with X-linked Hypophosphatemic Rickets (XLHR)

Lambert Anne-Sophie , Saadeddine Sanaa , Rothenbuhler Anya , Ussardi Alessia , Trabado Severine , Linglart Agnes

Introduction: X-linked hypophosphatemic rickets (XLHR) is due to mutations in the PHEX gene inducing increased levels of fibroblast growth factor 23 (FGF23), phosphate wasting, hence rickets. FGF23 is suspected to be as an important metabolic regulator of glucose and lipid metabolism.Objective: To describe the metabolic profile (body mass index, blood pressure, glucid and lipid profile) in patients with XLHR and evaluate the correlation between FGF23 lev...

hrp0089p2-p044 | Bone, Growth Plate & Mineral Metabolism P2 | ESPE2018

High Incidence of Cranial Synostosis and Chiari Malformation in Children with X-linked Hypophosphatemic Rickets

Rothenbuhler Anya , Bacchetta Justine , Fadel Nathalie , Lambert Anne Sophie , Adamsbaum Catherine , Linglart Agnes , Rocco Federicco Di

Background: X-linked hypophosphatemic rickets (XLH) represents the most common form of hypophosphatemia and leads to vitamin D resistant rickets in children. Even though cranial vault and craniovertebral anomalies of potential neurosurgical interest, namely early closure of the cranial sutures and Chiari type I malformation- have been observed in XLH patients their actual incidence is not established.Aim: Describe and analyze the incidence of cranial and...

hrp0089p1-p087 | Diabetes & Insulin P1 | ESPE2018

Investigation into β-cell Adaptation During Puberty

Castell Anne-Laure , Ethier Melanie , Fergusson Grace , Ghislain Julien , Poitout Vincent

Background: Puberty is a time of hormonal changes that are associated with insulin resistance. Although insulin sensitivity is restored at the end of puberty in healthy youth, it does not resolve in obese adolescents leading to an increase of cardio metabolic disease such as type 2 diabetes. In response to an increase in insulin demand, as during pregnancy or obesity-induced insulin resistance, β-cells increase their functional mass to maintain glucose homeostasis. Howeve...

hrp0089p2-p073 | Diabetes & Insulin P2 | ESPE2018

A Novel Mutation in Phka2: Idiopathic Ketotic Hypoglycaemia May Represent Mild Gsdixa

Flejsborg Anne Benner , Brusgaard Klaus , Pedersen Carsten , Frederiksen Anja L , Christesen Henrik T

Background: Idiopathic ketotic hypoglycaemia (IKH) is an exclusion diagnosis and the most common cause of hypoglycaemia in childhood. Glycogen Storage disease (GSD) type IX comprises one quarter of all GSD’s. GSDIXa, encoded by PHKA2, is the most frequent subtype.Objective: To investigate whether IKH may be undiagnosed GSDIXa.Methods: Hospital file review and next generation sequence 29 gene GSD-panel.<p class="ab...

hrp0089p2-p384 | Thyroid P2 | ESPE2018

Graves’s Disease During Pregnancy: The Impact on the Fetus and the Newborn

Belin Florine , Rodrigue Danielle , Claire Claire , Bouvattier , Teinturier Cecile , Fouati Khadidja , Linglart Agnes , Lambert Anne-Sophie

Introduction: Graves’s disease is frequent in women, its prevalence being 0.5–2% and its incidence 0.1–1% during pregnancy. Both TSH anti-receptor antibodies and the synthetic antithyroid drugs cross the placenta, increasing the risk of hypo- and/or hyperhtyroidism. Our objective is to describe the thyroid status of fetus and newborns from women with Graves’s disease referred to our Department.Materials and methods: We included childr...

hrp0086rfc2.7 | Bone &amp; Mineral Metabolism | ESPE2016

Effect of Paternal Loss-of-Function Mutations of GNAS on Growth During the Childhood: A Role for XL

Tran Lea Chantal , Brehin Anne-Claire , Richard Nicolas , Kottler Marie-Laure

Background: Heterozygous GNAS inactivating mutations cause pseudohypoparathyroidism type Ia (PHP-Ia) when maternally inherited and pseudopseudohypoparathyroidism (PPHP)/progressive osseous heteroplasia when paternally inherited. Mutations on the paternal, but not the maternal, GNAS allele are associated with intrauterine growth retardation (IUGR). Moreover, birth weights were lower with paternal GNAS mutations affecting exons 2–13 (including XL and Gαs) than with exo...

hrp0086rfc6.5 | Syndromes: Mechanisms and Management | ESPE2016

Abnormal Videofluoroscopic Swallow Studies (VFSS) in Infants with Prader-Willi Syndrome Indicate a High Rate of Silent Aspiration

Salehi Parisa , Chen Maida , Beck Anita , McAfee Amber , Kim Soo-Jeong , Herzig Lisa , Leavitt Anne

Background: Prader-Willi Syndrome (PWS), due to loss of expression from genes within the PWS imprinted region at chromosome 15q11.2-13, is characterized by hypotonia and feeding intolerance in infancy with later development of hyperphagia and obesity. Growth hormone improves tone, body composition, and height and can be started in infancy. Morbidity and mortality in PWS include those secondary to hyperphagia and respiratory illness as well as a 17% reported incidence of sudden...