Your search keyword '"Poole, KES"' showing total 38 results

1. Association between femur size and a focal defect of the superior femoral neck

Author

Black, Dennis, Gee, AH, Treece, GM, Tonkin, CJ, Black, DM, and Poole, KES

Abstract

© 2015 .Within each sex, there is an association between hip fracture risk and the size of the proximal femur, with larger femurs apparently more susceptible to fracture. Here, we investigate whether the thickness and density of the femoral cortex play a r

Published

2015

2. Predicting Hip Fracture Type with Cortical Bone Mapping (CBM) in the Osteoporotic Fractures in Men (MrOS) Study

Author

Black, Dennis, Treece, GM, Gee, AH, Tonkin, C, Ewing, SK, Cawthon, PM, Black, DM, and Poole, KES

Abstract

© 2015 The Authors. Journal of Bone and Mineral Research published by Wiley Periodicals, Inc. on behalf of the American Society for Bone and Mineral Research. © 2015 The Authors. Journal of Bone and Mineral Research published by Wiley Periodicals, Inc. on

Published

2015

3. How does the femoral cortex depend on bone shape? A methodology for the joint analysis of surface texture and shape

Author

Gee, AH, Treece, GM, Poole, KES, Treece, Graham [0000-0003-0047-6845], Poole, Kenneth [0000-0003-4546-7352], and Apollo - University of Cambridge Repository

Subjects

Adult, Aged, 80 and over, Hip Fractures, Surface Properties, Quantitative Biology::Tissues and Organs, Statistical parametric mapping, Shape, Organ Size, behavioral disciplines and activities, Article, Spatial normalization, Textured surfaces, body regions, Risk Factors, Computer Science::Computer Vision and Pattern Recognition, Humans, Radiographic Image Interpretation, Computer-Assisted, Computer Simulation, Female, Femur, Anatomic Landmarks, Tomography, X-Ray Computed, Algorithms, Aged

Abstract

Highlights • We consider cohorts of surfaces with scalar data at each vertex: textured surfaces. • The joint analysis of shape and texture is of interest but also inherently ambiguous. • The ambiguity may be resolved using homologies to guide vertex correspondences. • This is an extention of Geometric Morphometric Image Analysis to textured surfaces. • The method reveals how cortical bone depends on shape in the human proximal femur., Graphical abstract, In humans, there is clear evidence of an association between hip fracture risk and femoral neck bone mineral density, and some evidence of an association between fracture risk and the shape of the proximal femur. Here, we investigate whether the femoral cortex plays a role in these associations: do particular morphologies predispose to weaker cortices? To answer this question, we used cortical bone mapping to measure the distribution of cortical mass surface density (CMSD, mg/cm2) in a cohort of 125 females. Principal component analysis of the femoral surfaces identified three modes of shape variation accounting for 65% of the population variance. We then used statistical parametric mapping (SPM) to locate regions of the cortex where CMSD depends on shape, allowing for age. Our principal findings were increased CMSD with increased gracility over much of the proximal femur; and decreased CMSD at the superior femoral neck, coupled with increased CMSD at the calcar femorale, with increasing neck-shaft angle. In obtaining these results, we studied the role of spatial normalization in SPM, identifying systematic misregistration as a major impediment to the joint analysis of CMSD and shape. Through a series of experiments on synthetic data, we evaluated a number of registration methods for spatial normalization, concluding that only those predicated on an explicit set of homologous landmarks are suitable for this kind of analysis. The emergent methodology amounts to an extension of Geometric Morphometric Image Analysis to the domain of textured surfaces, alongside a protocol for labelling homologous landmarks in clinical CT scans of the human proximal femur.

Published

2018

4. Germline selection shapes human mitochondrial DNA diversity

Author

Wei, W, Tuna, S, Keogh, MJ, Smith, KR, Aitman, TJ, Beales, PL, Bennett, DL, Gale, DP, Bitner-Glindzicz, MAK, Black, GC, Brennan, P, Elliott, P, Flinter, FA, Floto, RA, Houlden, H, Irving, M, Koziell, A, Maher, ER, Markus, HS, Morrell, NW, Newman, WG, Roberts, I, Sayer, JA, Smith, KGC, Taylor, JC, Watkins, H, Webster, AR, Wilkie, AOM, Williamson, C, Attwood, A, Brown, M, Brod, NC, Crisp-Hihn, A, Davis, J, Deevi, SVV, Dewhurst, EF, Edwards, K, Erwood, M, Fox, J, Frary, AJ, Hu, F, Jolley, J, Kingston, N, Linger, R, Mapeta, R, Martin, J, Meacham, S, Papadia, S, Rayner-Matthews, PJ, Samarghitean, C, Shamardina, O, Simeoni, I, Staines, S, Staples, E, Stark, H, Stephens, J, Titterton, C, Von Ziegenweidt, J, Watt, C, Whitehorn, D, Wood, Y, Yates, K, Yu, P, James, R, Ashford, S, Penkett, CJ, Stirrups, KE, Bariana, T, Lentaigne, C, Sivapalaratnam, S, Westbury, SK, Allsup, DJ, Bakchoul, T, Biss, T, Boyce, S, Collins, J, Collins, PW, Curry, NS, Downes, K, Dutt, T, Erber, WN, Evans, G, Everington, T, Favier, R, Gomez, K, Greene, D, Gresele, P, Hart, D, Kazmi, R, Kelly, AM, Lambert, M, Madan, B, Mangles, S, Mathias, M, Millar, C, Obaji, S, Peerlinck, K, Roughley, C, Schulman, S, Scully, M, Shapiro, SE, Sibson, K, Sims, MC, Tait, RC, Talks, K, Thys, C, Toh, C-H, Van Geet, C, Westwood, J-P, Mumford, AD, Ouwehand, WH, Freson, K, Laffan, MA, Tan, RYY, Harkness, K, Mehta, S, Muir, KW, Hassan, A, Traylor, M, Drazyk, AM, Parry, D, Ahmed, M, Kazkaz, H, Vandersteen, AM, Ormondroyd, E, Thomson, K, Dent, T, Buchan, RJ, Bueser, T, Carr-White, G, Cook, S, Daniels, MJ, Harper, AR, Ware, JS, Dixon, PH, Chambers, J, Cheng, F, Estiu, MC, Hague, WM, Marschall, H-U, Vazquez-Lopez, M, Arno, G, French, CE, Michaelides, M, Moore, AT, Sanchis-Juan, A, Carss, K, Raymond, FL, Chinnery, PF, Griffiths, P, Horvath, R, Hudson, G, Jurkute, N, Pyle, A, Yu-Wai-Man, P, Whitworth, J, Adlard, J, Armstrong, R, Brewer, C, Casey, R, Cole, TRP, Evans, DG, Greenhalgh, L, Hanson, HL, Hoffman, J, Izatt, L, Kumar, A, Lalloo, F, Ong, KR, Park, S-M, Searle, C, Side, L, Snape, K, Woodward, E, Tischkowitz, M, Grozeva, D, Kurian, MA, Themistocleous, AC, Gosal, D, Marshall, A, Matthews, E, McCarthy, MI, Renton, T, Rice, ASC, Vale, T, Walker, SM, Woods, CG, Thaventhiran, JE, Allen, HL, Savic, S, Alachkar, H, Antrobus, R, Baxendale, HE, Browning, MJ, Buckland, MS, Cooper, N, Edgar, JDM, Egner, W, Gilmour, KC, Goddard, S, Gordins, P, Grigoriadou, S, Hackett, S, Hague, R, Hayman, G, Herwadkar, A, Huissoon, AP, Jolles, S, Kelleher, P, Kumararatne, D, Longhurst, H, Lorenzo, LE, Lyons, PA, Maimaris, J, Noorani, S, Richter, A, Sargur, RB, Sewell, WAC, Thomas, D, Thomas, MJ, Worth, A, Yong, PFK, Kuijpers, TW, Thrasher, AJ, Levine, AP, Sadeghi-Alavijeh, O, Wong, EKS, Cook, HT, Chan, MMY, Hall, M, Harris, C, McAlinden, P, Marchbank, KJ, Marks, S, Maxwell, H, Mozere, M, Wessels, J, Johnson, SA, Bleda, M, Hadinnapola, C, Haimel, M, Swietlik, E, Bogaard, H, Church, C, Coghlan, G, Condliffe, R, Corris, P, Danesino, C, Eyries, M, Gall, H, Ghofrani, H-A, Gibbs, JSR, Girerd, B, Holden, S, Houweling, A, Howard, LS, Humbert, M, Kiely, DG, Kovacs, G, Lawrie, A, Ross, RVM, Moledina, S, Montani, D, Newnham, M, Olschewski, A, Olschewski, H, Peacock, A, Pepke-Zaba, J, Scelsi, L, Seeger, W, Soubrier, F, Suntharalingam, J, Toshner, M, Treacy, C, Trembath, R, Noordegraaf, AV, Waisfisz, Q, Wharton, J, Wilkins, MR, Wort, SJ, Graf, S, Louka, E, Roy, NB, Rao, A, Ancliff, P, Babbs, C, Layton, DM, Mead, AJ, O'Sullivan, J, Okoli, S, Saleem, M, Bierzynska, A, Diz, CB, Colby, E, Ekani, MN, Satchell, S, Fowler, T, Rendon, A, Scott, R, Smedley, D, Thomas, E, Caulfield, M, Abbs, S, Burrows, N, Chitre, M, Gattens, M, Gurnell, M, Kelsall, W, Poole, KES, Ross-Russell, R, Spasic-Boskovic, O, Twiss, P, Wagner, A, Banka, S, Clayton-Smith, J, Douzgou, S, Abulhoul, L, Aurora, P, Bockenhauer, D, Cleary, M, Dattani, M, Ganesan, V, Pilkington, C, Rahman, S, Shah, N, Wedderburn, L, Compton, CJ, Deshpande, C, Fassihi, H, Haque, E, Josifova, D, Mohammed, SN, Robert, L, Rose, SJ, Ruddy, DM, Sarkany, RN, Sayer, G, Shaw, AC, Campbell, C, Gibson, K, Koelling, N, Lester, T, Nemeth, AH, Palles, C, Patel, S, Sen, A, Taylor, J, Tomlinson, IP, Malka, S, Browning, AC, Burn, J, De Soyza, A, Graham, J, Pearce, S, Quinton, R, Schaefer, AM, Wilson, BT, Wright, M, Simpson, M, Syrris, P, Bradley, JR, Turro, E, ARD - Amsterdam Reproduction and Development, AII - Inflammatory diseases, Paediatric Infectious Diseases / Rheumatology / Immunology, Medical Research Council (MRC), Wellcome Trust, Wei, Wei [0000-0002-2945-3543], Tuna, Salih [0000-0003-3606-4367], Smith, Katherine R [0000-0002-0329-5938], Beales, Phil L [0000-0002-9164-9782], Bennett, David L [0000-0002-7996-2696], Gale, Daniel P [0000-0002-9170-1579], Brennan, Paul [0000-0003-1128-6254], Elliott, Perry [0000-0003-3383-3984], Floto, R Andres [0000-0002-2188-5659], Houlden, Henry [0000-0002-2866-7777], Koziell, Ania [0000-0003-4882-0246], Maher, Eamonn R [0000-0002-6226-6918], Markus, Hugh S [0000-0002-9794-5996], Morrell, Nicholas W [0000-0001-5700-9792], Newman, William G [0000-0002-6382-4678], Sayer, John A [0000-0003-1881-3782], Smith, Kenneth GC [0000-0003-3829-4326], Taylor, Jenny C [0000-0003-3602-5704], Watkins, Hugh [0000-0002-5287-9016], Webster, Andrew R [0000-0001-6915-9560], Wilkie, Andrew OM [0000-0002-2972-5481], Penkett, Christopher J [0000-0003-4006-7261], Stirrups, Kathleen E [0000-0002-6823-3252], Rendon, Augusto [0000-0001-8994-0039], Bradley, John R [0000-0002-7774-8805], Turro, Ernest [0000-0002-1820-6563], Chinnery, Patrick F [0000-0002-7065-6617], and Apollo - University of Cambridge Repository

Subjects

0301 basic medicine, Non-Mendelian inheritance, Genome, Mitochondrial/genetics, DNA, Mitochondrial/genetics, 0302 clinical medicine, Ovum/growth & development, MTDNA, TRANSCRIPTION, Genetics, education.field_of_study, Multidisciplinary, NIHR BioResource–Rare Diseases, ASSOCIATION, Heteroplasmy, Mitochondrial, Multidisciplinary Sciences, GENOME, REPLACEMENT, Science & Technology - Other Topics, Female, Maternal Inheritance, Mitochondrial DNA, General Science & Technology, Genetic genealogy, Population, Biology, Human mitochondrial genetics, SEQUENCE, DNA, Mitochondrial, 03 medical and health sciences, Genetic, 100,000 Genomes Project–Rare Diseases Pilot, Genetic variation, MD Multidisciplinary, Humans, Selection, Genetic, education, Selection, Ovum, Science & Technology, MUTATIONS, Genetic Variation, DNA, LEIGH-DISEASE, 030104 developmental biology, REPLICATION, Genome, Mitochondrial, HETEROPLASMY, 030217 neurology & neurosurgery

Abstract

INTRODUCTION Only 2.4% of the 16.5-kb mitochondrial DNA (mtDNA) genome shows homoplasmic variation at >1% frequency in humans. Migration patterns have contributed to geographic differences in the frequency of common genetic variants, but population genetic evidence indicates that selection shapes the evolving mtDNA phylogeny. The mechanism and timing of this process are not clear. Unlike the nuclear genome, mtDNA is maternally transmitted and there are many copies in each cell. Initially, a new genetic variant affects only a proportion of the mtDNA (heteroplasmy). During female germ cell development, a reduction in the amount of mtDNA per cell causes a “genetic bottleneck,” which leads to rapid segregation of mtDNA molecules and different levels of heteroplasmy between siblings. Although heteroplasmy is primarily governed by random genetic drift, there is evidence of selection occurring during this process in animals. Yet it has been difficult to demonstrate this convincingly in humans. RATIONALE To determine whether there is selection for or against heteroplasmic mtDNA variants during transmission, we studied 12,975 whole-genome sequences, including 1526 mother–offspring pairs of which 45.1% had heteroplasmy affecting >1% of mtDNA molecules. Harnessing both the mtDNA and nuclear genome sequences, we then determined whether the nuclear genetic background influenced mtDNA heteroplasmy, validating our findings in another 40,325 individuals. RESULTS Previously unknown mtDNA variants were less likely to be inherited than known variants, in which the level of heteroplasmy tended to increase on transmission. Variants in the ribosomal RNA genes were less likely to be transmitted, whereas variants in the noncoding displacement (D)–loop were more likely to be transmitted. MtDNA variants predicted to affect the protein sequence tended to have lower heteroplasmy levels than synonymous variants. In 12,975 individuals, we identified a correlation between the location of heteroplasmic sites and known D-loop polymorphisms, including the absence of variants in critical sites required for mtDNA transcription and replication. We defined 206 unrelated individuals for which the nuclear and mitochondrial genomes were from different human populations. In these individuals, new population-specific heteroplasmies were more likely to match the nuclear genetic ancestry than the mitochondrial genome on which the mutations occurred. These findings were independently replicated in 654 additional unrelated individuals. CONCLUSION The characteristics of mtDNA in the human population are shaped by selective forces acting on heteroplasmy within the female germ line and are influenced by the nuclear genetic background. The signature of selection can be seen over one generation, ensuring consistency between these two independent genetic systems.

Published

2019

5. Long-term effects of functional impairment on fracture risk and mortality in postmenopausal women

Author

Poole, KES, Poole, Kenneth [0000-0003-4546-7352], and Apollo - University of Cambridge Repository

Subjects

musculoskeletal diseases, Aging, Hand Strength, Fracture risk, Muscle strength, Hip Fractures, Incidence, Kaplan-Meier Estimate, Middle Aged, Prognosis, Risk Assessment, Postmenopause, Bone Density, Risk Factors, Functional capacity, Health Status Indicators, Humans, Female, Mortality, Postural Balance, Finland, Osteoporotic Fractures, Follow-Up Studies

Abstract

Functional impairment is associated with the risk of fall, which is the leading cause of hip fracture. We aimed to determine how clinical assessments of functional impairment predict long-term hip fracture and mortality., Sigrid Juselius foundation and North Savo Regional Fund of the Finnish Cultural Foundation. Cambridge NIHR Biomedical Research Centre.

Published

2019

6. A new quantitative 3D approach to imaging of structural joint disease

Author

Turmezei, TD, Treece, GM, Gee, AH, Houlden, R, Poole, KES, Turmezei, TD [0000-0003-0365-8054], Houlden, R [0000-0002-6000-7218], Apollo - University of Cambridge Repository, Turmezei, Tom [0000-0003-0365-8054], Treece, Graham [0000-0003-0047-6845], and Poole, Kenneth [0000-0003-4546-7352]

Subjects

Aged, 80 and over, Imaging, Three-Dimensional, lcsh:R, Humans, Reproducibility of Results, lcsh:Medicine, Acetabulum, Joints, lcsh:Q, Joint Diseases, Tomography, X-Ray Computed, lcsh:Science, Software

Abstract

Imaging of joints with 2D radiography has not been able to detect therapeutic success in research trials while 3D imaging, used regularly in the clinic, has not been approved for this purpose. We present a new 3D approach to this challenge called joint space mapping (JSM) that measures joint space width in 3D from standard clinical computed tomography (CT) data, demonstrating its analysis steps, technical validation, and reproducibility. Using high resolution peripheral quantitative CT as gold standard, we show a marginal over-estimation in accuracy of +0.13 mm and precision of ±0.32 mm. Inter-operator reproducibility bias was near-zero at −0.03 mm with limits of agreement ±0.29 mm and a root mean square coefficient of variation 7.5%. In a technical advance, we present results from across the hip joint in 3D with optimum validation and reproducibility metrics shown at inner joint regions. We also show JSM versatility using different imaging data sets and discuss potential applications. This 3D mapping approach provides information with greater sensitivity than reported for current radiographic methods that could result in improved patient stratification and treatment monitoring.

Published

2018

7. The effects of zoledronate on iliac bone remodelling in stroke patients

Author

Poole, KES, Loveridge, N, Vedi, S, Compston, JE, and Reeve, J

Published

2016

8. Pathophysiology of bone loss after stroke; A role for vitamin D?

Author

Poole, KES, Rose, C, Loveridge, N, Warburton, EA, and Reeve, J

Published

2016

9. Regional Differences in Femoral Neck Cortical Thickness Determine Hip Fragility: An in-Vivo CT Study

Author

Mayhew, PM, Rose, CM, Brown, K, Kaptoge, SK, Loveridge, N, Reeve, J, and Poole, KES

Published

2016

10. The effects of zoledronate on iliac bone remodelling; a histomorphometric study in stroke patients

Author

Poole, KES, Warburton, EA, Loveridge, N, and Reeve, J

Published

2016

11. Selerostin is a delayed secreted product of osteocytes that regulates BMU width and cortical canal infilling

Author

Poole, KES, Van Bezooijen, RL, Loveridge, N, Papapoulos, SE, Lowik, CW, and Reeve, J

Published

2016

12. Breaking an Egg-Shell; Regional Thinning of the Femoral Neck Cortex with Advancing Age Predisposes to Hip Fracture

Author

Poole, KES, Mayhew, PM, Rose, CM, Brown, K, Kaptoge, SK, Bearcroft, P, Loveridge, N, and Reeve, J

Published

2016

13. Reduced vitamin D in acute stroke.

Author

Poole KES, Loveridge N, Barker PJ, Halsall DJ, Rose C, Reeve J, Warburton EA, Poole, Kenneth E S, Loveridge, Nigel, Barker, Peter J, Halsall, David J, Rose, Collette, Reeve, Jonathan, and Warburton, Elizabeth A

Published

2006

14. Quantitative 3D imaging parameters improve prediction of hip osteoarthritis outcome

Author

Turmezei, TD, Treece, GM, Gee, AH, Sigurdsson, S, Jonsson, H, Aspelund, T, Gudnason, V, and Poole, KES

Subjects

musculoskeletal diseases, Adult, Male, Imaging, Three-Dimensional, Case-Control Studies, Odds Ratio, Humans, Female, Hip Joint, Middle Aged, Osteoarthritis, Hip, 3. Good health, Aged

Abstract

Osteoarthritis is an increasingly important health problem for which the main treatment remains joint replacement. Therapy developments have been hampered by a lack of biomarkers that can reliably predict disease, while 2D radiographs interpreted by human observers are still the gold standard for clinical trial imaging assessment. We propose a 3D approach using computed tomography-a fast, readily available clinical technique-that can be applied in the assessment of osteoarthritis using a new quantitative 3D analysis technique called joint space mapping (JSM). We demonstrate the application of JSM at the hip in 263 healthy older adults from the AGES-Reykjavík cohort, examining relationships between 3D joint space width, 3D joint shape, and future joint replacement. Using JSM, statistical shape modelling, and statistical parametric mapping, we show an 18% improvement in prediction of joint replacement using 3D metrics combined with radiographic Kellgren & Lawrence grade (AUC 0.86) over the existing 2D FDA-approved gold standard of minimum 2D joint space width (AUC 0.73). We also show that assessment of joint asymmetry can reveal significant differences between individuals destined for joint replacement versus controls at regions of the joint that are not captured by radiographs. This technique is immediately implementable with standard imaging technologies.

15. 'Sink or swim': an evaluation of the clinical characteristics of individuals with high bone mass

Author

Gregson, CL, Steel, SA, O'Rourke, KP, Allan, K, Ayuk, J, Bhalla, A, Clunie, G, Crabtree, N, Fogelman, I, Goodby, A, Langman, CM, Linton, S, Marriott, E, McCloskey, E, Moss, KE, Palferman, T, Panthakalam, S, Poole, KES, Stone, MD, Turton, J, Wallis, D, Warburton, S, Wass, J, Duncan, EL, Brown, MA, Davey-Smith, G, and Tobias, JH

Subjects

2. Zero hunger, Adult, Aged, 80 and over, Male, Bone Diseases, Developmental, Lumbar Vertebrae, Wales, Adolescent, Anthropometry, Databases, Factual, Mandible, Hyperostosis, Middle Aged, Body Mass Index, Young Adult, Absorptiometry, Photon, England, Bone Density, Prevalence, Humans, Female, Hip Joint, Swimming, Aged

Abstract

SUMMARY: High bone mineral density on routine dual energy X-ray absorptiometry (DXA) may indicate an underlying skeletal dysplasia. Two hundred fifty-eight individuals with unexplained high bone mass (HBM), 236 relatives (41% with HBM) and 58 spouses were studied. Cases could not float, had mandible enlargement, extra bone, broad frames, larger shoe sizes and increased body mass index (BMI). HBM cases may harbour an underlying genetic disorder. INTRODUCTION: High bone mineral density is a sporadic incidental finding on routine DXA scanning of apparently asymptomatic individuals. Such individuals may have an underlying skeletal dysplasia, as seen in LRP5 mutations. We aimed to characterize unexplained HBM and determine the potential for an underlying skeletal dysplasia. METHODS: Two hundred fifty-eight individuals with unexplained HBM (defined as L1 Z-score ≥ +3.2 plus total hip Z-score ≥ +1.2, or total hip Z-score ≥ +3.2) were recruited from 15 UK centres, by screening 335,115 DXA scans. Unexplained HBM affected 0.181% of DXA scans. Next 236 relatives were recruited of whom 94 (41%) had HBM (defined as L1 Z-score + total hip Z-score ≥ +3.2). Fifty-eight spouses were also recruited together with the unaffected relatives as controls. Phenotypes of cases and controls, obtained from clinical assessment, were compared using random-effects linear and logistic regression models, clustered by family, adjusted for confounders, including age and sex. RESULTS: Individuals with unexplained HBM had an excess of sinking when swimming (7.11 [3.65, 13.84], p < 0.001; adjusted odds ratio with 95% confidence interval shown), mandible enlargement (4.16 [2.34, 7.39], p < 0.001), extra bone at tendon/ligament insertions (2.07 [1.13, 3.78], p = 0.018) and broad frame (3.55 [2.12, 5.95], p < 0.001). HBM cases also had a larger shoe size (mean difference 0.4 [0.1, 0.7] UK sizes, p = 0.009) and increased BMI (mean difference 2.2 [1.3, 3.1] kg/m(2), p < 0.001). CONCLUSION: Individuals with unexplained HBM have an excess of clinical characteristics associated with skeletal dysplasia and their relatives are commonly affected, suggesting many may harbour an underlying genetic disorder affecting bone mass.

16. Yearly zoledronic acid in postmenopausal osteoporosis.

Author

de Nijs RNJ, Westgeest AAA, Poole KES, Kaptoge S, Reeve J, Karam R, Camm J, McClung M, Najib MA, Aziz I, Chang JT, Black D, Eriksen E, Sellmeyer D, and Compston J

Published

2007

17. Multidisciplinary team approach for CKD-associated osteoporosis.

Author

Hansen D, Jørgensen HS, Andersen TL, Ferreira AC, Ferreira A, de Jongh R, Keronen S, Kröger H, Lafage-Proust MH, Martola L, Poole KES, Tong X, Evenepoel P, and Haarhaus M

Subjects

Humans, Chronic Kidney Disease-Mineral and Bone Disorder therapy, Chronic Kidney Disease-Mineral and Bone Disorder etiology, Chronic Kidney Disease-Mineral and Bone Disorder diagnosis, Osteoporosis etiology, Osteoporosis therapy, Osteoporosis diagnosis, Osteoporosis complications, Patient Care Team, Renal Insufficiency, Chronic therapy, Renal Insufficiency, Chronic complications, Renal Insufficiency, Chronic diagnosis

Abstract

Chronic kidney disease-mineral and bone disorder (CKD-MBD) contributes substantially to the burden of cardiovascular disease and fractures in patients with CKD. An increasing arsenal of diagnostic tools, including bone turnover markers and bone imaging, is available to support clinicians in the management of CKD-associated osteoporosis. Although not mandatory, a bone biopsy remains useful in the diagnostic workup of complex cases. In this special report, the European Renal Osteodystrophy (EUROD) initiative introduces the concept of a kidney-bone multidisciplinary team (MDT) for the diagnosis and clinical management of challenging cases of CKD-associated osteoporosis. In 2021, the EUROD initiative launched virtual clinical-pathological case conferences to discuss challenging cases of patients with CKD-associated osteoporosis, in whom a bone biopsy was useful in the diagnostic workup. Out of these, we selected four representative cases and asked a kidney-bone MDT consisting of a nephrologist, an endocrinologist and a rheumatologist to provide comments on the diagnostic and therapeutic choices. These cases covered a broad spectrum of CKD-associated osteoporosis, including bone fracture in CKD G5D, post-transplant bone disease, disturbed bone mineralization, severely suppressed bone turnover and severe hyperparathyroidism. Comments from the MDT were, in most cases, complementary to each other and additive to the presented approach in the cases. The MDT approach may thus set the stage for improved diagnostics and tailored therapies in the field of CKD-associated osteoporosis. We demonstrate the clinical utility of a kidney-bone MDT for the management of patients with CKD-MBD and recommend their establishment at local, national, and international levels., (© The Author(s) 2024. Published by Oxford University Press on behalf of the ERA.)

Published

2024

18. Setrusumab for the treatment of osteogenesis imperfecta: 12-month results from the phase 2b asteroid study.

Author

Glorieux FH, Langdahl B, Chapurlat R, De Beur SJ, Sutton VR, Poole KES, Dahir KM, Orwoll ES, Willie BM, Mikolajewicz N, Zimmermann E, Hosseinitabatabaei S, Ominsky MS, Saville C, Clancy J, MacKinnon A, Mistry A, and Javaid MK

Subjects

Humans, Female, Male, Middle Aged, Adult, Aged, Treatment Outcome, Osteogenesis Imperfecta drug therapy, Osteogenesis Imperfecta diagnostic imaging, Osteogenesis Imperfecta pathology, Osteogenesis Imperfecta physiopathology, Bone Density drug effects

Abstract

Osteogenesis imperfecta (OI) is a rare genetic disorder commonly caused by variants of the type I collagen genes COL1A1 and COL1A2. OI is associated with increased bone fragility, bone deformities, bone pain, and reduced growth. Setrusumab, a neutralizing antibody to sclerostin, increased areal bone mineral density (aBMD) in a 21-week phase 2a dose escalation study. The phase 2b Asteroid (NCT03118570) study evaluated the efficacy and safety of setrusumab in adults. Adults with a clinical diagnosis of OI type I, III, or IV, a pathogenic variant in COL1A1/A2, and a recent fragility fracture were randomized 1:1:1:1 to receive 2, 8, or 20 mg/kg setrusumab doses or placebo by monthly intravenous infusion during a 12-mo treatment period. Participants initially randomized to the placebo group were subsequently reassigned to receive setrusumab 20 mg/kg open label. Therefore, only results from the 2, 8, and 20 mg/kg double-blind groups are presented herein. The primary endpoint of Asteroid was change in distal radial trabecular volumetric bone mineral density (vBMD) from baseline at month 12, supported by changes in high-resolution peripheral quantitative computed tomography micro-finite element (microFE)-derived bone strength. A total of 110 adults were enrolled with similar baseline characteristics across treatment groups. At 12 mo, there was a significant increase in mean (SE) failure load in the 20 mg/kg group (3.17% [1.26%]) and stiffness in the 8 (3.06% [1.70%]) and 20 mg/kg (3.19% [1.29%]) groups from baseline. There were no changes in radial trabecula vBMD (p>05). Gains in failure load and stiffness were similar across OI types. There were no significant differences in annualized fracture rates between doses. Two adults in the 20 mg/kg group experienced related serious adverse reactions. Asteroid demonstrated a beneficial effect of setrusumab on estimates of bone strength across the different types of OI and provides the basis for additional phase 3 evaluation., (© The Author(s) 2024. Published by Oxford University Press on behalf of the American Society for Bone and Mineral Research.)

Published

2024

19. Deep learning-based quantification of osteonecrosis using magnetic resonance images in Gaucher disease.

Author

Yu B, Whitmarsh T, Riede P, McDonald S, Kaggie JD, Cox TM, Poole KES, and Deegan P

Subjects

Humans, Male, Female, Adult, Femur diagnostic imaging, Femur pathology, Middle Aged, Image Processing, Computer-Assisted methods, Adolescent, Young Adult, Bone Marrow diagnostic imaging, Bone Marrow pathology, Gaucher Disease diagnostic imaging, Gaucher Disease pathology, Osteonecrosis diagnostic imaging, Magnetic Resonance Imaging methods, Deep Learning

Abstract

Gaucher disease is one of the most common lysosomal storage disorders. Osteonecrosis is a principal clinical manifestation of Gaucher disease and often leads to joint collapse and fractures. T1-weighted (T1w) modality in MRI is widely used to monitor bone involvement in Gaucher disease and to diagnose osteonecrosis. However, objective and quantitative methods for characterizing osteonecrosis are still limited. In this work, we present a deep learning-based quantification approach for the segmentation of osteonecrosis and the extraction of characteristic parameters. We first constructed two independent U-net models to segment the osteonecrosis and bone marrow unaffected by osteonecrosis (UBM) in spine and femur respectively, based on T1w images from patients in the UK national Gaucherite study database. We manually delineated parcellation maps including osteonecrosis and UBM from 364 T1w images (176 for spine, 188 for femur) as the training datasets, and the trained models were subsequently applied to all the 917 T1w images in the database. To quantify the segmentation, we calculated morphological parameters including the volume of osteonecrosis, the volume of UBM, and the fraction of total marrow occupied by osteonecrosis. Then, we examined the correlation between calculated features and the bone marrow burden score for marrow infiltration of the corresponding image, and no strong correlation was found. In addition, we analyzed the influence of splenectomy and the interval between the age at first symptom and the age of onset of treatment on the quantitative measurements of osteonecrosis. The results are consistent with previous studies, showing that prior splenectomy is closely associated with the fractional volume of osteonecrosis, and there is a positive relationship between the duration of untreated disease and the quantifications of osteonecrosis. We propose this technique as an efficient and reliable tool for assessing the extent of osteonecrosis in MR images of patients and improving prediction of clinically important adverse events., Competing Interests: Declaration of competing interest PD and TMC received institutional research support from Aventis Sanofi for this study., (Copyright © 2024 The Authors. Published by Elsevier Inc. All rights reserved.)

Published

2024

20. 3-D joint space mapping at the ankle from weight-bearing CT: reproducibility, repeatability, and challenges for standardisation.

Author

Turmezei TD, Malhotra K, MacKay JW, Gee AH, Treece GM, Poole KES, and Welck MJ

Subjects

Humans, Reproducibility of Results, Tomography, X-Ray Computed methods, Weight-Bearing, Ankle diagnostic imaging, Ankle Joint diagnostic imaging

Abstract

Objectives: We present a 3-D approach to joint space width (JSW) measurement across the ankle from weight-bearing CT (WBCT) to demonstrate inter-operator reproducibility, test-retest repeatability, and how differences in angulation affect ankle JSW distribution., Methods: One side from repeat WBCT imaging of both feet and ankles was analysed from 23 individuals as part of their routine clinical care pathway. Joint space mapping was performed at four facets across the talus: talonavicular, talar dome and medial gutter (dome-medial), lateral gutter, and posterior subtalar. Inter-operator reproducibility was calculated for two users, while test-retest repeatability was calculated by comparing the two visits, both presented as Bland-Altman statistics. Statistical parametric mapping determined any significant relationships between talocrural joint space angulation and 3-D JSW distribution., Results: The average ± standard deviation interval between imaging was 74.0 ± 29.6 days. Surface averaged bias ± limits of agreement were similar for reproducibility and repeatability, the latter being: talonavicular 0.01 ± 0.26 mm, dome-medial 0.00 ± 0.28 mm, lateral gutter - 0.02 ± 0.40 mm, and posterior subtalar 0.02 ± 0.34 mm. Results are presented as 3-D distribution maps, with optimum test-retest repeatability reaching a smallest detectable difference of ± 0.15 mm., Conclusions: Joint space mapping is a robust approach to 3-D quantification of JSW measurement, inter-operator reproducibility, and test-retest repeatability at the ankle, with sensitivity reaching a best value of ± 0.15 mm. Standardised imaging protocols and optimised metal artefact reduction will be needed to further understand the clinical value of these 3-D measures derived from WBCT., Clinical Relevance Statement: Weight-bearing computed tomography is an increasingly important tool in the clinical assessment of orthopaedic ankle disorders. This paper establishes the performance of measuring 3-D joint space width using this technology, which is an important surrogate marker for severity of osteoarthritis., Key Points: • Joint space width values and error metrics from across the ankle measured from weight-bearing CT can be presented as 3-D maps that show topographic variation. • The best sensitivity for detecting meaningful change in 3-D joint space width at the ankle was ± 0.15 mm, a value less than the isotropic imaging voxel dimensions. • Standardised imaging protocols and optimised metal artefact reduction will be needed to understand the clinical value of 3-D measures from weight-bearing CT., (© 2023. The Author(s).)

Published

2023

21. Buds of new bone formation within the Femoral Head of Hip Fracture Patients Coincide with Zones of Low Osteocyte Sclerostin.

Author

Sano H, Whitmarsh T, Skingle L, Shimakura T, Yamamoto N, Compston JE, Takahashi HE, and Poole KES

Subjects

Humans, Bone Density, Femur Head, Osteogenesis, Hip Fractures diagnostic imaging, Osteocytes

Abstract

Romosozumab treatment reduces the rate of hip fractures and increases hip bone density, increasing bone formation by inhibiting sclerostin protein. We studied the normal pattern of bone formation and osteocyte expression in the human proximal femur because it is relevant to both antisclerostin treatment effects and fracture. Having visualized and quantified buds of new bone formation in trabeculae, we hypothesized that they would coincide with areas of (a) higher mechanical stress and (b) low sclerostin expression by osteocytes. In patients with hip fracture, we visualized each bud of active modeling-based formation (forming minimodeling structure [FMiS]) in trabecular cores taken from different parts of the femoral head. Trabecular bone structure was also measured with high-resolution imaging. More buds of new bone formation (by volume) were present in the higher stress superomedial zone (FMiS density, N.FMiS/T.Ar) than lower stress superolateral (p < 0.05), and inferomedial (p < 0.001) regions. There were fewer sclerostin expressing osteocytes close to or within FMiS. FMiS density correlated with greater amount, thickness, number, and connectivity of trabeculae (bone volume BV/TV, r = 0.65, p < 0.0001; bone surface BS/TV, r = 0.47, p < 0.01; trabecular thickness Tb.Th, r = 0.55, p < 0.001; trabecular number Tb.N, r = 0.47, p < 0.01; and connectivity density Conn.D, r = 0.40, p < 0.05) and lower trabecular separation (Tb.Sp, r = -0.56, p < 0.001). These results demonstrate modeling-based bone formation in femoral trabeculae from patients with hip fracture as a potential therapeutic target to enhance bone structure. © 2023 American Society for Bone and Mineral Research (ASBMR)., (© 2023 American Society for Bone and Mineral Research (ASBMR).)

Published

2023

22. PHOENIX (Picking up Hidden Osteoporosis Effectively during Normal CT Imaging without additional X-rays): protocol for a randomised, multicentre feasibility study.

Author

Poole KES, Chappell DDG, Clark E, Fleming J, Shepstone L, Turmezei TD, Wagner AP, Willoughby K, and Kaptoge SK

Subjects

Aged, Feasibility Studies, Female, Humans, Male, Multicenter Studies as Topic, Randomized Controlled Trials as Topic, Tomography, X-Ray Computed, X-Rays, Osteoporosis diagnostic imaging, Osteoporotic Fractures diagnostic imaging, Osteoporotic Fractures prevention & control, Spinal Fractures

Abstract

Introduction: Two million out of the UK's 5 million routine diagnostic CT scans performed each year incorporate the thoracolumbar spine or pelvic region. Up to one-third reveal undiagnosed osteoporosis or vertebral fractures. We developed an intervention, Picking up Hidden Osteoporosis Effectively during Normal CT Imaging without additional X-rays ('PHOENIX'), to facilitate early detection and management of osteoporosis in people attending hospitals for CT scans., Methods and Analysis: A multicentre, randomised, pragmatic feasibility study. From the general CT-attending population, women aged ≥65 years and men aged ≥75 years attending for CT scans are invited to participate, via a novel consent form incorporating Fracture Risk Assessment (FRAX) questions. Those at increased 10-year risk (within the amber or red zones of the UK FRAX graphical outputs for further action) are block randomised (1:1:1) to (1) PHOENIX intervention, (2) active control or (3) usual care. The PHOENIX intervention comprises (i) retrieving the CT scans using the NHS Image Exchange Portal, (ii) Mindways QCT Pro software analysis of CT hip and spine none density with CT vertebral fracture assessment, (iii) sending the participants' general practitioner (GP) a clinical report including diagnosis, necessary investigations and recommended treatment. Baseline CT scans from groups 2 and 3 are assessed with the PHOENIX intervention only at study end. Assuming 25% attrition, the study is powered to find a predicted superior osteoporosis treatment rate with PHOENIX (20%) vs 16% among patients whose GPs were sent the FRAX questionnaire only (active control) and 5% in the usual care group. Five hospitals are participating to determine feasibility. The co-primary feasibility outcome measures are (a) ability to randomise 375 patients within 10 months and (b) retention of 75% of survivors, completing their 1-year bone health outcome questionnaire. Secondary 1-year outcomes include osteoporosis/vertebral fracture identification rates and osteoporosis treatment rates. Stakeholder acceptability and economic aspects are evaluated., Ethics and Dissemination: Approved by committee (National Research Ethics Service) East of England (EE) as REF/19/EE/0176. Dissemination will be through the Royal Osteoporosis Society (to patients and public) as well as to clinician peers via national and international bone/rheumatology scientific and clinical meetings., Trial Registration Number: ISRCTN14722819., Competing Interests: Competing interests: None declared., (© Author(s) (or their employer(s)) 2022. Re-use permitted under CC BY. Published by BMJ.)

Published

2022

23. A cholinergic neuroskeletal interface promotes bone formation during postnatal growth and exercise.

Author

Gadomski S, Fielding C, García-García A, Korn C, Kapeni C, Ashraf S, Villadiego J, Toro RD, Domingues O, Skepper JN, Michel T, Zimmer J, Sendtner R, Dillon S, Poole KES, Holdsworth G, Sendtner M, Toledo-Aral JJ, De Bari C, McCaskie AW, Robey PG, and Méndez-Ferrer S

Subjects

Cholinergic Agents, Cholinergic Fibers, Glial Cell Line-Derived Neurotrophic Factor Receptors physiology, Interleukin-6, Osteogenesis

Abstract

The autonomic nervous system is a master regulator of homeostatic processes and stress responses. Sympathetic noradrenergic nerve fibers decrease bone mass, but the role of cholinergic signaling in bone has remained largely unknown. Here, we describe that early postnatally, a subset of sympathetic nerve fibers undergoes an interleukin-6 (IL-6)-induced cholinergic switch upon contacting the bone. A neurotrophic dependency mediated through GDNF-family receptor-α2 (GFRα2) and its ligand, neurturin (NRTN), is established between sympathetic cholinergic fibers and bone-embedded osteocytes, which require cholinergic innervation for their survival and connectivity. Bone-lining osteoprogenitors amplify and propagate cholinergic signals in the bone marrow (BM). Moderate exercise augments trabecular bone partly through an IL-6-dependent expansion of sympathetic cholinergic nerve fibers. Consequently, loss of cholinergic skeletal innervation reduces osteocyte survival and function, causing osteopenia and impaired skeletal adaptation to moderate exercise. These results uncover a cholinergic neuro-osteocyte interface that regulates skeletogenesis and skeletal turnover through bone-anabolic effects., Competing Interests: Declaration of interests The authors declare no competing interests., (Copyright © 2022 The Author(s). Published by Elsevier Inc. All rights reserved.)

Published

2022

24. Digital health interventions for osteoporosis and post-fragility fracture care.

Author

Gupta A, Maslen C, Vindlacheruvu M, Abel RL, Bhattacharya P, Bromiley PA, Clark EM, Compston JE, Crabtree N, Gregory JS, Kariki EP, Harvey NC, McCloskey E, Ward KA, and Poole KES

Abstract

The growing burden from osteoporosis and fragility fractures highlights a need to improve osteoporosis management across healthcare systems. Sub-optimal management of osteoporosis is an area suitable for digital health interventions. While fracture liaison services (FLSs) are proven to greatly improve care for people with osteoporosis, such services might benefit from technologies that enhance automation. The term 'Digital Health' covers a variety of different tools including clinical decision support systems, electronic medical record tools, patient decision aids, patient apps, education tools, and novel artificial intelligence (AI) algorithms. Within the scope of this review are AI solutions that use algorithms within health system registries to target interventions. Clinician-targeted, patient-targeted, or system-targeted digital health interventions could be used to improve management and prevent fragility fractures. This review was commissioned by The Royal Osteoporosis Society and Bone Research Academy during the production of the 2020 Research Roadmap (https://theros.org.uk), with the intention of identifying gaps where targeted research funding could lead to improved patient health. We explore potential uses of digital technology in the general management of osteoporosis. Evidence suggests that digital technologies can support multidisciplinary teams to provide the best possible patient care based on current evidence and to support patients in self-management. However, robust randomised controlled studies are still needed to assess the effectiveness and cost-effectiveness of these technologies., Competing Interests: Conflict of interest statement: The authors declared no potential conflicts of interest with respect to the research, authorship, and/or publication of this article., (© The Author(s), 2022.)

Published

2022

25. Phosphaturic Mesenchymal Tumor of the Ankle: A Case Report and Review of the Literature.

Author

Jones O, Murphy SH, Poole KES, Watkins AJ, and Durrani AJ

Subjects

Adult, Ankle diagnostic imaging, Humans, Male, Hypophosphatemia, Mesenchymoma diagnosis, Mesenchymoma diagnostic imaging, Neoplasms, Connective Tissue diagnostic imaging, Neoplasms, Connective Tissue surgery, Osteomalacia, Paraneoplastic Syndromes

Abstract

We report the case of a phosphaturic mesenchymal tumor of the ankle; an extremely rare lesion that causes osteomalacia via paraneoplastic renal phosphate wasting. A 41-year-old man was referred to plastic surgery with a swelling over the anterior ankle, which had been increasing in size for 1 year. Focused ultrasound assessment was inconclusive, but excision biopsy demonstrated features in keeping with a phosphaturic mesenchymal tumor. Evidence of tumor-induced osteomalacia was subsequently identified on review of historical biochemistry. The patient was followed-up for 1 year with normalization of serum phosphate. In this case report, we present a discussion of the differential diagnosis for foot and ankle soft tissue lesions, and a review of the literature regarding the diagnosis and management of these tumors. Accurate identification of any soft tissue lesion on clinical examination alone is extremely challenging and excision biopsy should be considered in cases of diagnostic uncertainty., (Copyright © 2021 the American College of Foot and Ankle Surgeons. Published by Elsevier Inc. All rights reserved.)

Published

2022

26. Opportunistic diagnosis of osteoporosis, fragile bone strength and vertebral fractures from routine CT scans; a review of approved technology systems and pathways to implementation.

Author

Aggarwal V, Maslen C, Abel RL, Bhattacharya P, Bromiley PA, Clark EM, Compston JE, Crabtree N, Gregory JS, Kariki EP, Harvey NC, Ward KA, and Poole KES

Abstract

Osteoporosis causes bones to become weak, porous and fracture more easily. While a vertebral fracture is the archetypal fracture of osteoporosis, it is also the most difficult to diagnose clinically. Patients often suffer further spine or other fractures, deformity, height loss and pain before diagnosis. There were an estimated 520,000 fragility fractures in the United Kingdom (UK) in 2017 (costing £4.5 billion), a figure set to increase 30% by 2030. One way to improve both vertebral fracture identification and the diagnosis of osteoporosis is to assess a patient's spine or hips during routine computed tomography (CT) scans. Patients attend routine CT for diagnosis and monitoring of various medical conditions, but the skeleton can be overlooked as radiologists concentrate on the primary reason for scanning. More than half a million CT scans done each year in the National Health Service (NHS) could potentially be screened for osteoporosis (increasing 5% annually). If CT-based screening became embedded in practice, then the technique could have a positive clinical impact in the identification of fragility fracture and/or low bone density. Several companies have developed software methods to diagnose osteoporosis/fragile bone strength and/or identify vertebral fractures in CT datasets, using various methods that include image processing, computational modelling, artificial intelligence and biomechanical engineering concepts. Technology to evaluate Hounsfield units is used to calculate bone density, but not necessarily bone strength. In this rapid evidence review, we summarise the current literature underpinning approved technologies for opportunistic screening of routine CT images to identify fractures, bone density or strength information. We highlight how other new software technologies have become embedded in NHS clinical practice (having overcome barriers to implementation) and highlight how the novel osteoporosis technologies could follow suit. We define the key unanswered questions where further research is needed to enable the adoption of these technologies for maximal patient benefit., Competing Interests: Conflict of interest statement: PAB: Research collaboration with Optasia Medical (no financial interest). EMC: Consultancy work with Optasia Medical Ltd. NCH: Consultancy, lecture fees and honoraria from various pharmaceutical companies (outside the scope of the submitted work). EPK: Research collaboration with Optasia Medical Ltd; (no financial interest). KESP: Chief Investigator of the NIHR PHOENIX study (Picking up Hidden Osteoporosis Effectively during Normal CT Imaging without additional X-rays, http://www.isrctn.com/ISRCTN14722819). All other authors state they have no conflicts of interest., (© The Author(s), 2021.)

Published

2021

27. Quantitative Three-dimensional Assessment of Knee Joint Space Width from Weight-bearing CT.

Author

Turmezei TD, B Low S, Rupret S, Treece GM, Gee AH, MacKay JW, Lynch JA, Poole KES, and Segal NA

Subjects

Feasibility Studies, Female, Humans, Male, Middle Aged, Reproducibility of Results, Retrospective Studies, Imaging, Three-Dimensional methods, Osteoarthritis, Knee diagnostic imaging, Tomography, X-Ray Computed methods, Weight-Bearing

Abstract

Background Imaging of structural disease in osteoarthritis has traditionally relied on MRI and radiography. Joint space mapping (JSM) can be used to quantitatively map joint space width (JSW) in three dimensions from CT images. Purpose To demonstrate the reproducibility, repeatability, and feasibility of JSM of the knee using weight-bearing CT images. Materials and Methods Two convenience samples of weight-bearing CT images of left and right knees with radiographic Kellgren-Lawrence grades (KLGs) less than or equal to 2 were acquired from 2014 to 2018 and were analyzed retrospectively with JSM to deliver three-dimensional JSW maps. For reproducibility, images of three sets of knees were used for novice training, and then the JSM output was compared against an expert's assessment. JSM was also performed on 2-week follow-up images in the second cohort, yielding three-dimensional JSW difference maps for repeatability. Statistical parametric mapping was performed on all knee imaging data (KLG, 0-4) to show the feasibility of a surface-based analysis in three dimensions. Results Reproducibility (in 20 individuals; mean age, 58 years ± 7 [standard deviation]; mean body mass index, 28 kg/m 2 ± 6; 14 women) and repeatability (in nine individuals; mean age, 53 years ± 6; mean body mass index, 26 kg/m 2 ± 4; seven women) reached their lowest performance at a smallest detectable difference less than ±0.1 mm in the central medial tibiofemoral joint space for individuals without radiographically demonstrated disease. The average root mean square coefficient of variation was less than 5% across all groups. Statistical parametric mapping (33 individuals; mean age, 57 years ± 7; mean body mass index, 27 kg/m 2 ± 6; 23 women) showed that the central-to-posterior medial joint space was significantly narrower by 0.5 mm for each incremental increase in the KLG (threshold P < .05). One knee (KLG, 2) demonstrated a baseline versus 24-month change in its three-dimensional JSW distribution that was beyond the smallest detectable difference across the lateral joint space. Conclusion Joint space mapping of the knee using weight-bearing CT images is feasible, demonstrating a relationship between the three-dimensional joint space width distribution and structural joint disease. It is reliably learned by novice users, can be personalized for disease phenotypes, and can be used to achieve a smallest detectable difference that is at least 50% smaller than that reported to be achieved at the highest performance level in radiography. © RSNA, 2021 Online supplemental material is available for this article . See also the editorial by Roemer in this issue.

Published

2021

28. Obesity is associated with early hip fracture risk in postmenopausal women: a 25-year follow-up.

Author

Rikkonen T, Sund R, Sirola J, Honkanen R, Poole KES, and Kröger H

Subjects

Aged, Aged, 80 and over, Body Mass Index, Bone Density, Female, Finland epidemiology, Follow-Up Studies, Humans, Middle Aged, Obesity complications, Obesity epidemiology, Risk Factors, Hip Fractures epidemiology, Hip Fractures etiology, Postmenopause

Abstract

Association of body mass index and hip fracture has been controversial. In this study, women with lowest and highest body weight had the highest fracture incidence. A 25-year follow-up indicated that obesity associates with early hip fracture risk and suggested increasing trend in normal-weight women at a later stage., Introduction: Obesity is a pandemic health issue. Its association with hip fracture risk remains controversial. We studied the long-term relationship of body mass index and hip fracture incidence in postmenopausal women., Methods: The cohort of 12,715 Finnish women born in 1932-1941 was followed for 25 years, covering ages from 58 up to 83. Fractures and deaths were obtained from national registries. Women were investigated in deciles of BMI as well as in WHO weight categories (normal, overweight, or obese). The follow-up analysis was carried out in two age strata as "early" (58-70 years) and "late" (> 70 years). Body weight information was updated accordingly. Femoral neck BMD was recorded for a subsample (n = 3163). Altogether, 427 hip fractures were observed., Results: A higher risk of early hip fracture was observed in obese and normal-weight compared with overweight women with hazard ratios (HRs) of 2.3 ((95% CI) 1.4-3.7) and 2.0 (1.3-3.1) while no difference was observed in late hip fracture risk between the three WHO categories (log rank p = 0.14). All-cause mortality during the follow-up was 19.3%. Compared with normal weight women, the obese women had a higher risk of death with an HR of 1.6 (1.4-1.8) and higher baseline BMD (p < 0.001). Faster bone loss was observed in the obese compared with other women (p < 0.001)., Conclusion: Obesity associates with earlier hip fracture and higher postfracture mortality. The obese women with low BMD have clearly the highest risk of hip fracture. This combination increases hip fracture risk more than either of the factors alone. After 75 years of age, risk appears to increase more in normal weight women, but this trend is in need of further confirmation.

Published

2021

29. Increased development of radiographic hip osteoarthritis in individuals with high bone mass: a prospective cohort study.

Author

Hartley A, Hardcastle SA, Frysz M, Parkinson J, Paternoster L, McCloskey E, Poole KES, Javaid MK, Aye M, Moss K, Williams M, Tobias JH, and Gregson CL

Subjects

Bone Density, Cohort Studies, Female, Humans, Male, Middle Aged, Prospective Studies, Osteoarthritis, Hip diagnostic imaging, Osteoarthritis, Knee, Osteophyte diagnostic imaging

Abstract

Background: Individuals with high bone mass (HBM) have a greater odds of prevalent radiographic hip osteoarthritis (OA), reflecting an association with bone-forming OA sub-phenotypes (e.g. osteophytosis, subchondral sclerosis). As the role of bone mineral density (BMD) in hip OA progression is unclear, we aimed to determine if individuals with HBM have increased incidence and/or progression of bone-forming OA sub-phenotypes., Methods: We analysed an adult cohort with and without HBM (L1 and/or total hip BMD Z-score > + 3.2) with pelvic radiographs collected at baseline and 8-year follow-up. Sub-phenotypes were graded using the OARSI atlas. Superior/inferior acetabular/femoral osteophyte and medial/superior joint space narrowing (JSN) grades were summed and Δosteophyte and ΔJSN derived. Pain and functional limitations were quantified using the WOMAC questionnaire. Associations between HBM status and change in OA sub-phenotypes were determined using multivariable linear/logistic regression, adjusting for age, sex, height, total body fat mass, follow-up time and baseline sub-phenotype grade. Generalised estimating equations accounted for individual-level clustering., Results: Of 136 individuals, 62% had HBM at baseline, 72% were female and mean (SD) age was 59 (10) years. HBM was positively associated with both Δosteophytes and ΔJSN (adjusted mean grade differences between individuals with and without HBM β osteophyte  = 0.30 [0.01, 0.58], p = 0.019 and β JSN  = 0.10 [0.01, 0.18], p = 0.019). Incident subchondral sclerosis was rare. HBM individuals had higher WOMAC hip functional limitation scores (β = 8.3 [0.7, 15.98], p = 0.032)., Conclusions: HBM is associated with the worsening of hip osteophytes and JSN over an average of 8 years, as well as increased hip pain and functional limitation.

Published

2021

30. Individuals with high bone mass have increased progression of radiographic and clinical features of knee osteoarthritis.

Author

Hartley A, Hardcastle SA, Paternoster L, McCloskey E, Poole KES, Javaid MK, Aye M, Moss K, Granell R, Gregory J, Williams M, Tobias JH, and Gregson CL

Subjects

Absorptiometry, Photon, Activities of Daily Living, Adipose Tissue, Aged, Arthralgia physiopathology, Body Weight, Cohort Studies, Disease Progression, Female, Follow-Up Studies, Humans, Linear Models, Male, Middle Aged, Osteoarthritis, Knee physiopathology, Osteophyte physiopathology, Radiography, Bone Density, Osteoarthritis, Knee diagnostic imaging, Osteophyte diagnostic imaging

Abstract

Objective: High bone mass (HBM) is associated with an increased prevalence of radiographic knee OA (kOA), characterized by osteophytosis. We aimed to determine if progression of radiographic kOA, and its sub-phenotypes, is increased in HBM and whether observed changes are clinically relevant., Design: A cohort with and without HBM (L1 and/or total hip bone mineral density Z-score≥+3.2) had knee radiographs collected at baseline and 8-year follow-up. Sub-phenotypes were graded using the OARSI atlas. Medial/lateral tibial/femoral osteophyte and medial/lateral joint space narrowing (JSN) grades were summed and Δosteophytes, ΔJSN derived. Pain, function and stiffness were quantified using the WOMAC questionnaire. Associations between HBM status and sub-phenotype progression were determined using multivariable linear/poisson regression, adjusting for age, sex, height, baseline sub-phenotype grade, menopause, education and total body fat mass (TBFM). Generalized estimating equations accounted for individual-level clustering., Results: 169 individuals had repeated radiographs, providing 330 knee images; 63% had HBM, 73% were female, mean (SD) age was 58 (12) years. Whilst HBM was not clearly associated with overall Kellgren-Lawrence measured progression (RR = 1.55 [0.56.4.32]), HBM was positively associated with both Δosteophytes and ΔJSN individually (adjusted mean differences between individuals with and without HBM 0.45 [0.01.0.89] and 0.15 [0.01.0.29], respectively). HBM individuals had higher WOMAC knee pain scores (β = 7.42 [1.17.13.66]), largely explained by adjustment for osteophyte score (58% attenuated) rather than JSN (30% attenuated) or TBFM (16% attenuated). The same pattern was observed for symptomatic stiffness and functional limitation., Conclusions: HBM is associated with osteophyte progression, which appears to contribute to increased reported pain, stiffness and functional loss., (Copyright © 2020 Osteoarthritis Research Society International. Published by Elsevier Ltd. All rights reserved.)

Published

2020

31. Quantitative 3D imaging parameters improve prediction of hip osteoarthritis outcome.

Author

Turmezei TD, Treece GM, Gee AH, Sigurdsson S, Jonsson H, Aspelund T, Gudnason V, and Poole KES

Subjects

Adult, Aged, Case-Control Studies, Female, Hip Joint diagnostic imaging, Humans, Male, Middle Aged, Odds Ratio, Imaging, Three-Dimensional methods, Osteoarthritis, Hip diagnostic imaging

Abstract

Osteoarthritis is an increasingly important health problem for which the main treatment remains joint replacement. Therapy developments have been hampered by a lack of biomarkers that can reliably predict disease, while 2D radiographs interpreted by human observers are still the gold standard for clinical trial imaging assessment. We propose a 3D approach using computed tomography-a fast, readily available clinical technique-that can be applied in the assessment of osteoarthritis using a new quantitative 3D analysis technique called joint space mapping (JSM). We demonstrate the application of JSM at the hip in 263 healthy older adults from the AGES-Reykjavík cohort, examining relationships between 3D joint space width, 3D joint shape, and future joint replacement. Using JSM, statistical shape modelling, and statistical parametric mapping, we show an 18% improvement in prediction of joint replacement using 3D metrics combined with radiographic Kellgren & Lawrence grade (AUC 0.86) over the existing 2D FDA-approved gold standard of minimum 2D joint space width (AUC 0.73). We also show that assessment of joint asymmetry can reveal significant differences between individuals destined for joint replacement versus controls at regions of the joint that are not captured by radiographs. This technique is immediately implementable with standard imaging technologies.

Published

2020

32. Identification of novel pathogenic variants and features in patients with pseudohypoparathyroidism and acrodysostosis, subtypes of the newly classified inactivating PTH/PTHrP signaling disorders.

Author

Truelove A, Mulay A, Prapa M, Casey RT, Adler AI, Offiah AC, Poole KES, Trotman J, Al Hasso N, and Park SM

Subjects

Dysostoses metabolism, Humans, Intellectual Disability metabolism, Male, Middle Aged, Osteochondrodysplasias metabolism, Pseudohypoparathyroidism metabolism, Dysostoses genetics, Intellectual Disability genetics, Osteochondrodysplasias genetics, Parathyroid Hormone metabolism, Parathyroid Hormone-Related Protein metabolism, Pseudohypoparathyroidism genetics, Signal Transduction

Abstract

Albright hereditary osteodystrophy (AHO) is a complex disorder defined by the presence of a short adult stature relative to the height of an unaffected parent and brachydactyly type E, as well as a stocky build, round face, and ectopic calcifications. AHO and pseudohypoparathyroidism (PHP) have been used interchangeably in the past. The term PHP describes end-organ resistance to parathyroid hormone (PTH), occurring with or without the physical features of AHO. Conversely, pseudopseudohypoparathyroidism (PPHP) describes individuals with AHO features in the absence of PTH resistance. PHP and PPHP are etiologically linked and caused by genetic and/or epigenetic alterations in the guanine nucleotide-binding protein alpha-stimulating (G s α) locus (GNAS) in chromosome 20q13. Another less-recognized group of skeletal dysplasias, termed acrodysostosis, partially overlap with skeletal, endocrine, and neurodevelopmental features of AHO/PHP and can be overlooked in clinical practice, causing confusion in the literature. Acrodysostosis is caused by defects in two genes, PRKAR1A and PDE4D, both encoding important components of the G s α-cyclic adenosine monophosphate-protein kinase A signaling pathway. We describe the clinical course and genotype of two adult patients with overlapping AHO features who harbored novel pathogenic variants in GNAS (c.2273C > G, p.Pro758Arg, NM&#95;080425.2) and PRKAR1A (c.803C > T, p.Ala268Val, NM&#95;002734.4), respectively. We highlight the value of expert radiological opinion and molecular testing in establishing correct diagnoses and discuss phenotypic features of our patients, including the first description of subcutaneous ossification and spina bifida occulta in PRKAR1A-related acrodysostosis, in the context of the novel inactivating PTH/PTH related peptide signaling disorder classification system., (© 2019 Wiley Periodicals, Inc.)

Published

2019

33. A new quantitative 3D approach to imaging of structural joint disease.

Author

Turmezei TD, Treece GM, Gee AH, Houlden R, and Poole KES

Subjects

Acetabulum diagnostic imaging, Aged, 80 and over, Humans, Joints diagnostic imaging, Joints pathology, Reproducibility of Results, Software, Tomography, X-Ray Computed, Imaging, Three-Dimensional, Joint Diseases diagnostic imaging

Abstract

Imaging of joints with 2D radiography has not been able to detect therapeutic success in research trials while 3D imaging, used regularly in the clinic, has not been approved for this purpose. We present a new 3D approach to this challenge called joint space mapping (JSM) that measures joint space width in 3D from standard clinical computed tomography (CT) data, demonstrating its analysis steps, technical validation, and reproducibility. Using high resolution peripheral quantitative CT as gold standard, we show a marginal over-estimation in accuracy of +0.13 mm and precision of ±0.32 mm. Inter-operator reproducibility bias was near-zero at -0.03 mm with limits of agreement ±0.29 mm and a root mean square coefficient of variation 7.5%. In a technical advance, we present results from across the hip joint in 3D with optimum validation and reproducibility metrics shown at inner joint regions. We also show JSM versatility using different imaging data sets and discuss potential applications. This 3D mapping approach provides information with greater sensitivity than reported for current radiographic methods that could result in improved patient stratification and treatment monitoring.

Published

2018

34. Evidence for Ongoing Modeling-Based Bone Formation in Human Femoral Head Trabeculae via Forming Minimodeling Structures: A Study in Patients with Fractures and Arthritis.

Author

Sano H, Kondo N, Shimakura T, Fujisawa J, Kijima Y, Kanai T, Poole KES, Yamamoto N, Takahashi HE, and Endo N

Abstract

Bone modeling is a biological process of bone formation that adapts bone size and shape to mechanical loads, especially during childhood and adolescence. Bone modeling in cortical bone can be easily detected using sequential radiographic images, while its assessment in trabecular bone is challenging. Here, we performed histomorphometric analysis in 21 bone specimens from biopsies collected during hip arthroplasty, and we proposed the criteria for histologically identifying an active modeling-based bone formation, which we call a "forming minimodeling structure" (FMiS). Evidence of FMiSs was found in 9 of 20 specimens (45%). In histomorphometric analysis, bone volume was significant higher in specimens displaying FMiSs compared with the specimens without these structures (BV/TV, 31.7 ± 10.2 vs. 23.1 ± 3.9%; p  < 0.05). Osteoid parameters were raised in FMiS-containing bone specimens (OV/BV, 2.1 ± 1.6 vs. 0.6 ± 0.3%; p  < 0.001, OS/BS, 23.6 ± 15.5 vs. 7.6 ± 4.2%; p  < 0.001, and O.Th, 7.4 µm ± 2.0 vs. 5.2 ± 1.0; p  < 0.05). Our results showed that the modeling-based bone formation on trabecular bone surfaces occurs even during adulthood. As FMiSs can represent histological evidence of modeling-based bone formation, understanding of this physiology in relation to bone homeostasis is crucial.

Published

2018

35. UK clinical guideline for the prevention and treatment of osteoporosis.

Author

Compston J, Cooper A, Cooper C, Gittoes N, Gregson C, Harvey N, Hope S, Kanis JA, McCloskey EV, Poole KES, Reid DM, Selby P, Thompson F, Thurston A, and Vine N

Subjects

Aged, Bone Density Conservation Agents therapeutic use, Diphosphonates therapeutic use, Female, Humans, Life Style, Male, Middle Aged, Osteoporosis etiology, Osteoporosis prevention & control, Risk Assessment methods, Risk Assessment standards, United Kingdom, Bone Density Conservation Agents standards, Diphosphonates standards, Osteoporosis drug therapy, Osteoporotic Fractures prevention & control, Practice Guidelines as Topic

Abstract

Introduction: In 2008, the UK National Osteoporosis Guideline Group (NOGG) produced a guideline on the prevention and treatment of osteoporosis, with an update in 2013. This paper presents a major update of the guideline, the scope of which is to review the assessment and management of osteoporosis and the prevention of fragility fractures in postmenopausal women and men age 50 years or over., Methods: Where available, systematic reviews, meta-analyses and randomised controlled trials were used to provide the evidence base. Conclusions and recommendations were systematically graded according to the strength of the available evidence., Results: Review of the evidence and recommendations are provided for the diagnosis of osteoporosis, fracture-risk assessment, lifestyle measures and pharmacological interventions, duration and monitoring of bisphosphonate therapy, glucocorticoid-induced osteoporosis, osteoporosis in men, postfracture care and intervention thresholds., Conclusion: The guideline, which has received accreditation from the National Institute of Health and Care Excellence (NICE), provides a comprehensive overview of the assessment and management of osteoporosis for all healthcare professionals who are involved in its management.

Published

2017

36. An exploratory study into measuring the cortical bone thickness from CT in the presence of metal implants.

Author

Whitmarsh T, Treece GM, Gee AH, and Poole KES

Subjects

Aged, Aged, 80 and over, Artifacts, Female, Femur, Humans, Male, Arthroplasty, Replacement, Hip, Bone Screws, Cortical Bone diagnostic imaging, Multidetector Computed Tomography methods

Abstract

Purpose: The aim of this study was to develop and evaluate a method for measuring the cortical bone thickness from computed tomography (CT) scans with metallic implants and to assess the benefits of metal artefact removal software., Methods: A previously validated technique based on the fitting of a cortical model was modified to also model metal structures when required. Cortical thickness measurements were taken over intact bone segments and compared with the corresponding contralateral bone segment. The evaluation dataset includes post-operative CT scans of a unipolar hemi-arthroplasty, a dynamic hip screw fixation, a bipolar hemi-arthroplasty, a fixation with cannulated screws and a total hip arthroplasty. All CT scans were analysed before and after processing with metal artefact removal software., Results: Cortical thickness validity and accuracy were improved through the use of a modified metalwork-optimised model and metal artefact removal software. For the proximal femoral segments of the aforementioned cases, the cortical thickness was measured with a mean absolute error of 0.55, 0.39, 0.46, 0.53 and 0.69 mm. The hemi-pelvis produced thickness errors of 0.51, 0.52, 0.52, 0.47 and 0.67 mm, respectively., Conclusions: The proposed method was shown to measure cortical bone thickness in the presence of metalwork at a sub-millimetre accuracy. This new technique might be helpful in assessing fracture healing near implants or fixation devices, and improve the evaluation of periprosthetic bone after hip replacement surgery.

Published

2017

37. Focal osteoporosis defects play a key role in hip fracture.

Author

Poole KES, Skingle L, Gee AH, Turmezei TD, Johannesdottir F, Blesic K, Rose C, Vindlacheruvu M, Donell S, Vaculik J, Dungl P, Horak M, Stepan JJ, Reeve J, and Treece GM

Subjects

Aged, Area Under Curve, Biopsy, Cortical Bone pathology, Female, Femur Neck pathology, Hip Fractures pathology, Humans, Male, Odds Ratio, Osteoporosis pathology, ROC Curve, Hip Fractures etiology, Osteoporosis complications

Abstract

Background: Hip fractures are mainly caused by accidental falls and trips, which magnify forces in well-defined areas of the proximal femur. Unfortunately, the same areas are at risk of rapid bone loss with ageing, since they are relatively stress-shielded during walking and sitting. Focal osteoporosis in those areas may contribute to fracture, and targeted 3D measurements might enhance hip fracture prediction. In the FEMCO case-control clinical study, Cortical Bone Mapping (CBM) was applied to clinical computed tomography (CT) scans to define 3D cortical and trabecular bone defects in patients with acute hip fracture compared to controls. Direct measurements of trabecular bone volume were then made in biopsies of target regions removed at operation., Methods: The sample consisted of CT scans from 313 female and 40 male volunteers (158 with proximal femoral fracture, 145 age-matched controls and 50 fallers without hip fracture). Detailed Cortical Bone Maps (c.5580 measurement points on the unfractured hip) were created before registering each hip to an average femur shape to facilitate statistical parametric mapping (SPM). Areas where cortical and trabecular bone differed from controls were visualised in 3D for location, magnitude and statistical significance. Measures from the novel regions created by the SPM process were then tested for their ability to classify fracture versus control by comparison with traditional CT measures of areal Bone Mineral Density (aBMD). In women we used the surgical classification of fracture location ('femoral neck' or 'trochanteric') to discover whether focal osteoporosis was specific to fracture type. To explore whether the focal areas were osteoporotic by histological criteria, we used micro CT to measure trabecular bone parameters in targeted biopsies taken from the femoral heads of 14 cases., Results: Hip fracture patients had distinct patterns of focal osteoporosis that determined fracture type, and CBM measures classified fracture type better than aBMD parameters. CBM measures however improved only minimally on aBMD for predicting any hip fracture and depended on the inclusion of trabecular bone measures alongside cortical regions. Focal osteoporosis was confirmed on biopsy as reduced sub-cortical trabecular bone volume., Conclusion: Using 3D imaging methods and targeted bone biopsy, we discovered focal osteoporosis affecting trabecular and cortical bone of the proximal femur, among men and women with hip fracture., (Copyright © 2016 The Authors. Published by Elsevier Inc. All rights reserved.)

Published

2017

38. Association between femur size and a focal defect of the superior femoral neck.

Author

Gee AH, Treece GM, Tonkin CJ, Black DM, and Poole KES

Subjects

Aged, Aged, 80 and over, Bone Density physiology, Female, Femoral Neck Fractures physiopathology, Humans, Male, Middle Aged, Organ Size, Radiographic Image Interpretation, Computer-Assisted methods, Risk Factors, Tomography, X-Ray Computed, Adaptation, Physiological physiology, Femur diagnostic imaging, Femur Neck diagnostic imaging

Abstract

Within each sex, there is an association between hip fracture risk and the size of the proximal femur, with larger femurs apparently more susceptible to fracture. Here, we investigate whether the thickness and density of the femoral cortex play a role in this association: might larger femurs harbour focal, cortical defects? To answer this question, we used cortical bone mapping to measure the distribution of cortical mass surface density (CMSD, mg/cm(2)) in cohorts of 308 males and 125 females. Principal component analysis of the various femoral surfaces led to a measure of size that is linearly independent from shape. After mapping the data onto a canonical femur surface, we used statistical parametric mapping to identify any regions where CMSD depends on size, allowing for other confounding covariates including shape. Our principal finding was a focal patch on the superior femoral neck, where CMSD is reduced by around 1% for each 1% increase in proximal-distal size (p<0.000005 in the males, p<0.001 in the females). This finding appears to be consistent with models of functional adaptation, and may help with the design of interventional strategies for reducing fracture risk., (Copyright © 2015. Published by Elsevier Inc.)

Published

2015