Bone Abstracts

Background: Osteogenesis imperfecta (OI) is a rare disease characterized by increased fracture rate and bone deformities. Patients are classified by phenotype and most are affected by mutations in COL1A1/2.Patients with OI type V present with specific clinical symptoms including hyperplastic callus formation, only mildly decreased height, metaphyseal lines and a calcification of the membrane interossea of the forearm. The disease causing mutation for OI ...

Background: OI-V is an autosomal dominant type of OI, which is characterized by recurrent fractures, hyperplastic callus formation and forearm interosseous membrane calcification. Less than 5% of OI patients are diagnosed with OI-V. The 5’-UTR IFITM5 mutation is a single recurrent heterozygous mutation reported in the majority of these patients.Presenting problem: The 2 years old girl was born at term, BW 2880g(P25-50), L 48 cm (P25-50), OF...

Aim: Lean and bone mass have considerably high phenotypic and genetic correlations with a shared heritability estimate ranging between 30 and 40% in adults. A genome-wide association study (GWAS) on total body lean mass and a bivariate GWAS on lean mass and BMD were ran in a cohort of children to identify genes with pleiotropic effects on muscle mass and peak bone mass attainment.Methods: Subjects are part of the Generation R study, a prospective multiet...

Objectives: Advanced or delayed physiological age may influence significantly health and disease processes. Physiological age can be estimated using several parameters including dental age (DA). Previous meta-analyses studying “Number of Teeth at 15 Months” (NT15M) and “Age at First Teeth Eruption” (AFTE) have identified 15 loci. We performed a genome-wide association study (GWAS) meta-analysis to identi...

Type V OI is characterised by interosseous membrane calcification and hyperplastic callus formation, but the infantile phenotype is less well recognised. In 2012 Arundel et al. described distinctive radiographic changes in an infant with type V OI. We report two further male infants (with genetic confirmation of type V OI) confirming the highly characteristic and consistent radiographic appearances that should aid early diagnosis.Case 1 – P...

Objectives: Type V osteogenesis imperfecta (OI) results in abnormal modelling of the ulna, dislocation of the radial head and interosseous membrane calcification (IOM). Individuals develop reduced functional ability as a consequence of reduced range of movement (ROM) including elbow flexion and/or supination, which may be intrinsic or secondary to the radiographic findings. We describe the evolution of radiographic and functional parameters in a cohort seen in our centre.<...

Introduction: Osteogenesis imperfecta (OI) is a genetically heterogeneous disorder characterized by bone fragility. OI type V, with autosomal dominant inheritance, is characterized by ossification of the forearm interosseus membrane, radiodense metaphyseal bands, propensity for hyperplastic callus formation, and mesh-like lamellation on bone histology. Type V OI probands are reported to have white sclerae and normal teeth. Recent reports identified the cause of type V OI as a ...

Background: Osteogenesis imperfecta (OI) is a heterogeneous group of disorders characterized by bone fragility. The current classification comprises five forms (OI types I–V) with autosomal dominant inheritance and seven rarer forms (OI types VI–XII) with recessive inheritance. OI type V (MIM 610967) has distinguishing radiological features, such as propensity to hyperplastic callus formation, calcification of the forearm interosseous membrane, radial-head dislocatio...

The biomineralization process is initiated inside matrix vesicles (MVs), with phosphate and calcium ions crystallizing as hydroxyapatite. This process is accomplished by the activities of several proteins, such as annexins (e.g. AnxV) that mediates Ca2+ influx into MVs and tissue-nonspecific alkaline phosphatase (TNAP), a phosphomonohydrolase that uses ATP and PPi as substrates. Dipalmitoylphosphatidylcholine (DPPC) and dipalmitoylphosphatidylserine (DPPS...

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