Expanding the phenotype of SPARC-related osteogenesis imperfecta: clinical findings in two patients with pathogenic variants in SPARC and literature review

成骨不全 脊柱侧凸 表型 医学 钙化 肌病 肌肉无力 近端肌无力 错义突变 病理 生物信息学 遗传学 解剖 生物 外科 基因 活检 肌肉活检
作者
Anna Durkin,Catherine DeVile,Paul Arundel,Mary Bull,Jennifer Walsh,Nicholas Bishop,Emilie Hupin,Susan Parekh,Ramesh Nadarajah,Amaka C Offiah,Alistair Calder,Joanna Brock,Duncan Baker,Meena Balasubramanian
出处
期刊:Journal of Medical Genetics [BMJ]
卷期号:59 (8): 810-816 被引量:18
标识
DOI:10.1136/jmedgenet-2021-107942
摘要

Background Secreted protein, acidic, cysteine rich ( SPARC )-related osteogenesis imperfecta (OI), also referred to as OI type XVII, was first described in 2015, since then there has been only one further report of this form of OI. SPARC is located on chromosome 5 between bands q31 and q33. The encoded protein is necessary for calcification of the collagen in bone, synthesis of extracellular matrix and the promotion of changes to cell shape. Methods We describe a further two patients with previously unreported homozygous SPARC variants with OI: one splice site; one nonsense pathogenic variant. We present detailed information on the clinical and radiological phenotype and correlate this with their genotype. There are only two previous reports by Mendozo-Londono et al and Hayat et al with clinical descriptions of patients with SPARC variants. Results From the data we have obtained, common clinical features in individuals with OI type XVII caused by SPARC variants include scoliosis (5/5), vertebral compression fractures (5/5), multiple long bone fractures (5/5) and delayed motor development (3/3). Interestingly, 2/4 patients also had abnormal brain MRI, including high subcortical white matter changes, abnormal fluid-attenuated inversion in the para-atrial white matter and a large spinal canal from T10 to L1. Of significance, both patients reported here presented with significant neuromuscular weakness prompting early workup. Conclusion Common phenotypic expressions include delayed motor development with neuromuscular weakness, scoliosis and multiple fractures. The data presented here broaden the phenotypic spectrum establishing similar patterns of neuromuscular presentation with a presumed diagnosis of ‘myopathy’.
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