Radiographic features of osteogenesis imperfecta.

BACKGROUND: Osteogenesis imperfecta (OI), commonly called "brittle bone disease", is a genetic disorder characterised by increased bone fragility and decreased bone density due to quantitative and/or qualitative abnormalities of type I collagen. Different types of OI exist, from mild to severe; they may lead to death, multiple bone fractures, skeletal deformity and short stature. METHODS: Severe cases are usually diagnosed before birth and may incite the parents to choose therapeutic abortion, whereas milder cases are much more difficult to diagnose and may be sometimes confused with non-accidental injury (NAI) ("child abuse") in young children. Whatever the degree of severity, conventional radiography still remains the mainstay in diagnosing OI. RESULTS: The prognosis of this disorder has changed in the last few years thanks to biphosphonate therapy. CONCLUSION: The aim of this pictorial review is to illustrate the radiographic manifestations of OI, including in children receiving biphosphonates, and to outline specific patterns that help differentiate OI from NAI when necessary. KEY POINTS: • The main radiographic features of OI are osteopenia, bone fractures and bone deformities. • Some radiographic features depend on the type of OI or may be encountered with biphosphonates.

Congenital malformations of the hand and forearm in children: what radiologists should know.

Congenital upper limb malformations represent complex pathologies because of their varied clinical presentations, imaging features, and etiologies. They can be divided into (1) failure of formation with transverse, intercalary, and longitudinal (preaxial, postaxial, and mesoaxial) deficiencies, (2) failure of differentiation with synostoses, carpal coalitions, syndactylies, and symphalangism, (3) duplication with ulnar dimelia and polydactylies, and (4) brachydactylies. Congenital Madelung's deformity, clinodactyly, camptodactyly, and Kirner's deformity are usually included in these malformations. Despite advances in molecular diagnosis, a good knowledge of clinical and imaging features as well as special consideration of other skeletal or nonskeletal abnormalities are essential to eventually diagnose an embryo fetopathy (maternal valproate treatment, constriction band syndrome), a genetic disorder (trisomy 21 or Down syndrome, Turner's syndrome, Holt-Oram syndrome), or a nongenetic syndrome (vertebral, anal, cardiac, tracheal, esophageal, renal, limb association, Poland's syndrome). Genetic counseling for a child presenting with a congenital upper limb malformation is of great value, both for the treating team and the parents, and imaging is often required. The latter is still largely supported by conventional radiography, both for diagnosis and functional prognosis, but ultrasound and magnetic resonance imaging will be great tools in the near future to better evaluate these conditions.

Neuroimaging features and pathology of mixed glioblastoma--AVM complex: a case report.

This report is of a rare case of glioblastoma coexisting with an arteriovenous malformation in a 65-year-old man. Multimodal magnetic resonance imaging (MRI) performed at 3T revealed a necrotic and cystic lesion in the left hemisphere; morphological and metabolic findings were consistent with an infiltrating high-grade glioma, but the presence of dark vessel-like signals on T2* and susceptibility-weighted imaging (SWI) suggested the coexistence of a vascular malformation. The arteriovenous malformation was confirmed by MR angiography and cerebral angiography. The patient was operated on, and histological examination revealed atypical cells characteristic of glioblastoma multiforme and, in the same area, arteriovenous malformation. The possible role of angiogenic factors in this case is also addressed.