hrp0086fc8.1 | Growth: Clinical | ESPE2016

Transcriptomics and Machine Learning Methods Accurately Predict Diagnosis and Severity of Childhood Growth Hormone Deficiency

Murray Philip , Stevens Adam , Koledova Ekaterina , Chatelain Pierre , Clayton Peter

Background: The diagnosis of Growth Hormone Deficiency (GHD) involves the use of GH stimulation tests that require day case admission, multiple blood sampling and are associated with significant adverse effects.Aim: To assess the utility of gene expression (GE) profiling and candidate SNP analysis for the diagnosis of and classification of GHD.Method: Pre-pubertal treatment-naïve children with GHD (n=98) were enrolled from the...

hrp0086fc8.4 | Growth: Clinical | ESPE2016

Genetic Insights from Children with Idiopathic Short Stature in the EPIGROW Study

Perchard Reena , Murray Philip , Payton Anthony , Clayton Peter

Background: EPIGROW was a prospective European epidemio-genetic study in children with idiopathic short stature (ISS).Objectives: To identify (1) differences in frequencies of single nucleotide polymorphisms (SNPs) in growth related genes between ISS children and controls, and (2) associations between growth characteristics, IGF status and SNPs in these genes.Methods: Sequence data from EPIGROW was used to determine the difference ...

hrp0086fc14.6 | Growth : Mechanisms | ESPE2016

In vitro and in vivo Evidence for a Growth Inhibitory Role of the Transcription Factor ZBTB38 Throughout Pre- and Post-Natal Life

Parsons Sam , Stevens Adam , Whatmore Andrew , Murray Philip , Clayton Peter

Background: Single nucleotide polymorphisms (SNPs) within the promotor and 5Â’UTR of the transcriptional factor, ZBTB38, are associated with adult height and idiopathic short stature although their precise auxological effects have not previously been described. In addition, the molecular mechanisms through which ZBTB38 affects growth have not been fully elucidated but potential downstream mediators are suggested to include MCM10 or IGF2.Objectives: <...

hrp0086rfc14.5 | Growth : Mechanisms | ESPE2016

Gene Expression Profiling of Children with GH Deficiency (GHD) Prior to Treatment with Recombinant Human Growth Hormone (r-hGH) is Associated with Growth Response Over Five Years of Therapy

Stevens Adam , Murray Philip , Koledova Ekaterina , Chatelain Pierre , Clayton Peter

Background: The relationship of pre-treatment gene expression (GE) to long-term growth response in GHD is unknown. Prediction of long-term response to r-hGH therapy would allow better decision making about start and maintenance doses and hence cost:benefit.Objective and hypotheses: To assess the relationship of baseline GE to response to r-hGH over 5 years of therapy in GHD children.Method: Pre-pubertal children with GHD (n</em...

hrp0082fc7.3 | Growth promoting therapies | ESPE2014

Gene Expression Networks Associated with Changes in Serum Markers of Metabolism and Growth in GH-Treated Children with GH Deficiency

Stevens Adam , De Leonibus Chiara , Chatelain Pierre , Clayton Peter

Introduction: Growth promoting effects of GH occur in parallel with its impact on insulin sensitivity and lipid metabolism; underlying biological networks that link these actions are not defined. Our objective was to identify gene expression (GE) networks linking growth with metabolic responses in GH-treated children with GHD.Methods/design: Pre-pubertal children with GH Deficiency GHD (n=125) were enrolled from the PREDICT short-term (NCT002561...

hrp0095fc10.2 | GH and IGFs | ESPE2022

The first-year growth response to once-weekly growth hormone (GH) treatment can be predicted from the pre-treatment blood transcriptome in children with GH deficiency (GHD)

Garner Terence , Clayton Peter , Murray Philip , Bagci Ekaterine , Højby Michael , Stevens Adam

Growth response to daily GH treatment can be predicted using pre-treatment gene expression profiles.1 Once-weekly GH treatment potentially reduces the burden of daily injections2 and thus may be a major advancement in care for patients with GHD, vs standard, daily GH treatment. Here we investigate the prediction of first-year growth response based on pre-treatment blood transcriptome in children with GHD undergoing treatment with daily or once-weekly GH. ...

hrp0095p2-129 | Fetal, Neonatal Endocrinology and Metabolism | ESPE2022

Molecular pathways linking fetal growth restriction to cardiometabolic risk in childhood

Perchard Reena , Higgins Lucy , Garner Terence , Stevens Adam , Johnstone Edward , Clayton Peter

Background: Cardiometabolic (CM) risk is linked to being small for gestational age (SGA, birthweight <-2SDS). Fetal growth restriction (FGR) may not result in SGA. We focused on potential CM risk in children born following pregnancies at higher risk for FGR.Aims: To identify associations between fetal and childhood weight trajectory quartiles and CM risk markers. 2.To define molecular pathways potentially associated w...

hrp0092fc12.4 | Growth and Syndromes (to include Turner Syndrome) | ESPE2019

Integration of Transcriptomic and Epigenomic Data in Childhood Identifies a Subset of Individuals Born Small for Gestational Age (SGA) with "catch-up" Growth Who Become Pre-Hypertensive in Early Adulthood

Garner Terence , Murray Philip , Sellers Robert , Whatmore Andrew , Clayton Peter , Stevens Adam

Background: Children born SGA are known to develop cardiometabolic conditions in adulthood1. Nothing is known about the relationship of the transcriptome (gene expression) and epigenome (DNA methylation) to birth size and the future development of cardiometabolic disease.Aim: To identify, I) differences and functional links between epigenome age-7years, transcriptome age-9years associated and ...

hrp0092fc12.6 | Growth and Syndromes (to include Turner Syndrome) | ESPE2019

An Integrated Systems Biology Analysis of the Genome, Epigenome and Transcriptome Identifies a Distinct Pattern of Hypermethylation Associated with Low Childhood Growth

Garner Terence , Sellers Robert , Guo Hui , Whatmore Andrew , Clayton Peter , Stevens Adam , Murray Philip

Background: Current data from genome wide association studies (GWAS) explains 24.6% of the variation in adult height from 3290 single nucleotide polymorphisms (SNPs)1. Data on the genetic control of growth velocity during childhood is more limited and no previous studies have linked childhood growth to changes in the transcriptome (gene expression) or epigenome (DNA methylation). Here we present a systems biology approach to understand mid-child...

hrp0089fc15.1 | Growth and Syndromes | ESPE2018

The Diagnostic Yield of a Targeted Next Generation Sequencing Panel in Children with Short Stature of Undefined Aetiology

Perchard Reena , Murray Philip G , Highton Georgina L , Whatmore Andrew J , Clayton Peter E

Background: Currently, data on the diagnostic yield of targeted gene panels using next generation sequencing (NGS) in children with short stature of undefined aetiology (SSUA) are limited. EPIGROW (ClinicalTrials.gov ID NCT00710307) was a prospective European epidemio-genetic study in which a targeted NGS panel including 69 genes associated with short stature (e.g. primordial growth disorders and skeletal dysplasias) was performed in 263 patients and 263 controls. In these pat...