👤 Barbara Leube

Multiple osteochondromas (MO) is an autosomal-dominant inherited disorder. The two genes responsible (EXT1 and EXT2) have been identified. We investigated 12 MO families for phenotype details and the genetic basis by cosegregation and mutation analysis (seven novel pathogenic mutations [five frameshift, one splice site, and one gross deletion] and one novel missense polymorphism). We found EXT1 to be responsible in seven families (19 affected members) and EXT2 in four families (17 affected members). One family remains undetermined. We found a tendency to a more severe phenotype in EXT1 families. As a novel finding, we could identify a single parameter (ulna/height ratio) that separates EXT1 family from EXT2 family in our series. Show less

Hereditary multiple exostoses (HME) is an autosomal dominant skeletal disorder with a wide spectrum of clinical manifestations. In 52 out of 60 individuals from HME+ families, exostoses became clinically apparent. In this study, the clinical and radiological outcome of these 52 HME patients (19 families) was investigated by medical history, clinical examination, and radiographs. In addition to correlating phenotype with genotype, a linkage/exclusion analysis was performed in 35 HME patients. We found several correlations between HME genes (EXT1, EXT2) and phenotype. Compared to EXT2-linkage, female individuals with EXT1-linkage were smaller in stature. Patients with EXT1-linkage and patients with undetermined linkage (EXT?) were more severely affected, underwent more surgeries, and showed a higher number of exostoses at follow-up. Moreover, we found an increased phenotype risk for limb shortening for EXT1- and EXT?-linkage. This study corresponds to data of other investigators who showed that EXT1 mutations are associated with a more severe phenotype than other EXT forms. (c) 2007 Orthopaedic Research Society. Published by Wiley Periodicals, Inc. J Orthop Res 25:1541-1551, 2007. Show less