Glen M. Blake scite author profile

Osteoporosis is a common disease with a strong genetic component, characterized by reduced bone mass and increased fracture risk. Current evidence suggests that the inheritance of bone mass is under polygenic control but the genes responsible are poorly defined. Type I collagen is the major protein of bone encoded by the COLIA1 and COLIA2 genes. While these are strong candidates for the genetic regulation of bone mass, no abnormality of either gene has so far been defined in osteoporosis. In this study, we describe a novel G-->T polymorphism in a regulatory region of COLIA1 at a recognition site for the transcription factor Sp1(7) that is significantly related to bone mass and osteoporotic fracture. G/T heterozygotes at the polymorphic Sp1 site (Ss) had significantly lower bone mineral density (BMD) than G/G homozygotes (SS) in two populations of British women and BMD was lower still in T/T homozygotes (ss). The unfavourable Ss and ss genotypes were over-represented in patients with severe osteoporosis and vertebral fractures (54%), as compared with controls (27%), equivalent to a relative risk of 2.97 (95% confidence interval 1.63-9.56) for vertebral fracture in individuals who carry the 's' allele. While the mechanisms that underlie this association remain to be defined, the COLIA1 Sp1 polymorphism appears to be an important marker for low bone mass and vertebral fracture, raising the possibility that genotyping at this site may be of value in identifying women who are at risk of osteoporosis.

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Guidelines for the measurement of glomerular filtration rate using plasma sampling

Fleming¹,

Zivanovic²,

Blake³

et al. 2004

275

315

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The role of DXA bone density scans in the diagnosis and treatment of osteoporosis

2007

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Dual energy x ray absorptiometry (DXA) scans to measure bone mineral density (BMD) at the spine and hip have an important role in the evaluation of individuals at risk of osteoporosis, and in helping clinicians advise patients about the appropriate use of antifracture treatment. Compared with alternative bone densitometry techniques, hip and spine DXA examinations have a number of advantages that include a consensus that BMD results can be interpreted using the World Health Organization T-score definition of osteoporosis, a proven ability to predict fracture risk, proven effectiveness at targeting antifracture therapies, and the ability to monitor response to treatment. This review discusses the evidence for these and other clinical aspects of DXA scanning, including its role in the new WHO algorithm for treating patients on the basis of their individual fracture risk.

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Quantitative studies of bone with the use of 18F-fluoride and 99mTc-methylene diphosphonate

Blake

Park-Holohan

Cook

et al. 2001

Seminars in Nuclear Medicine

261

194

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Glen M. Blake

Reduced bone density and osteoporosis associated with a polymorphic Sp1 binding site in the collagen type I α 1 gene

Guidelines for the measurement of glomerular filtration rate using plasma sampling

The role of DXA bone density scans in the diagnosis and treatment of osteoporosis

Quantitative studies of bone with the use of 18F-fluoride and 99mTc-methylene diphosphonate

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