Abstract
Background: Hereditary Multiple Osteochondromas(HMO) is a rare genetic musculoskeletal disorder characterized by multiple osteochondromas that form near to the growth plates of many bones. Loss-of-function mutations in EXT1 or EXT2 that encode glycosyltrasferases are the causal mutations for most HMO patients.Methods: After collecting the family history and clinical information, we used Whole-Exome Sequencing to find the pathogenic mutations in one Chinese Hereditary Multiple Exostoses pedigree. Sanger sequencing and relevant online databases were used to validate the screened variants. Lollipop plots were drew to map the reported mutations from online databases (Multiple Osteochondroma Mutation Database and clinvar)on a linear protein domains by MutationMapper.Results: A novel heterozygous splicing-site mutation in gene EXT1 (NM_000127:exon5:c.1417+1G>C,chr8:118834703) was found in this pedigree and mutation spectrum of genes EXT1 and EXT2 were demonstrated.Conclusions: Our results help this pedigree to identify the pathogenic variant and guide the prenatal diagnosis, also expand the mutation spectrum in Hereditary Multiple Osteochondromas.
Correction of knee and ankle valgus in hereditary multiple exostoses using the Ilizarov apparatus
