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Identification of hip fracture patients from radiographs using Fourier analysis of the trabecular structure: a cross-sectional study

By Jennifer Susan Gregory, Alison Stewart, Peter Edward Undrill, David M Reid and Richard Malcolm Aspden

Abstract

Peer reviewedPublisher PD

Topics: RC Internal medicine, RC
Year: 2004
DOI identifier: 10.1186/1471-2342-4-4
OAI identifier: oai:aura.abdn.ac.uk:2164/791
Journal:

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Citations

  1. (2004). A method for assessment of the shape of the proximal femur and its relationship to osteoporotic hip fracture. Osteoporos Int doi
  2. (1999). Analysis of trabecular bone structure using Fourier transforms and neural networks. doi
  3. (1994). Assessment of fracture risk and its application to screening for postmenopausal osteoporosis. Volume WHO Technical Report Series 843. Geneva, World Health Organisation; doi
  4. (1991). Buckland-Wright JC: Analysis of texture in macroradiographs of osteoarthritic knees using the fractal signature. Phys Med Biol doi
  5. (2002). CE: An investigation of thoracic and lumbar cancellous vertebral architecture using power-spectral analysis of plain radiographs. doi
  6. (1997). CJ: Application of computer texture analysis to the Singh index.
  7. (1989). Collins AJ: Principal component analysis. Introduction to Multivariate Analysis Volume 4. 4th edition. Chapman and Hall; doi
  8. (2000). Diagnosis and Therapy. doi
  9. (1999). DM: Bone Density and Bone Turnover in Patients with Osteoarthritis and Osteoporosis.
  10. (2002). Electronic nose analysis of volatile compounds from poultry meat samples, fresh and after refrigerated storage. Journal of the science of food and agriculture doi
  11. (1997). Evaluation of cancellous structure in the distal radius using spectral analysis. Clin Orthop
  12. (2000). Fazzalari NL: Methodological principles for fractal analysis of trabecular bone. doi
  13. (2001). Fractal Dimension Analysis of Weight-bearing Bones of Rats During Skeletal Unloading. Bone doi
  14. (1984). Fractal-Based Description of Natural Scenes. doi
  15. (1994). FW: On the fractal nature of trabecular structure.
  16. (1997). Gelsema ES: Unravelling the role of structure and density in determining vertebral bone strength. Calcif Tissue Int doi
  17. (1999). Genant HK: Fractal analysis of radiographs: Assessment of trabecular bone structure and prediction of elastic modulus and strength. doi
  18. (1998). Genant HK: In vivo high resolution MRI of the calcaneus: Differences in trabecular structure in osteoporosis patients. doi
  19. (1998). Ginkel FC: The radiographic trabecular pattern of hips in patients with hip fractures and in elderly control subjects. doi
  20. (2002). GM: Lacunarity analysis of spatial pattern in CT images of vertebral trabecular bone for assessing osteoporosis. doi
  21. (2000). Hip Geometry, Bone Mineral Distribution, and Bone Strength in European Men and Women: The EPOS Study. Bone doi
  22. (1999). HJ: Relationship between structural parameters, bone mineral density and fracture load in lumbar vertebrae, based on high- resolution computed tomography, quantitative computed tomography and compression tests. Osteoporos Int doi
  23. (1993). Is there a role for Bone Quality in Fragility Fractures. Calcif Tissue Int doi
  24. (1993). LB: Computerized radiographic analysis of osteoporosis: preliminary evaluation. Radiology
  25. (1999). Majumdar S: Fractal Analysis of Proximal Femur Radiographs: Correlation with Biomechanical Properties and Bone Mineral Density. Osteoporos Int doi
  26. (2001). Marchandise X: Bone microarchitecture and mechanical resistance. Joint Bone Spine doi
  27. (1999). Marchandise X: Image Analysis of the Distal Radius Trabecular Network Using Computed Tomography. Osteoporos Int doi
  28. (1997). MF: Image processing assessment of femoral osteopenia. doi
  29. (1994). Multifractal radiographic analysis of osteoporosis. doi
  30. (2000). Net evolutionary trajectories of body shape evolution within a microgeographic radiation of threespine sticklebacks (Gasterosteus aculeatus). doi
  31. (2001). Pothuaud L: Fractal analysis of radiographic trabecular bone texture and bone mineral density: Two complementary parameters related to osteoporotic fractures. doi
  32. (2000). Prediction of bone strength from cancellous structure of the distal radius: Can we improve on DXA? Osteoporos Int doi
  33. (1970). PS: Changes in Trabecular Pattern of the Upper End of the Femur as an Index of Osteoporosis.
  34. (2003). Purbach B: Determination of the trabecular bone direction from digitised radiographs. doi
  35. (1998). RD: Image Processing, Analysis and Machine Vision 2nd edition. doi
  36. (1986). ROC Analysis in Radiologic Imaging. Investigative Radiology doi
  37. (2001). Ruzzo WL: Principal component analysis for clustering gene expression data. Bioinformatics doi
  38. (1996). Southard KA: Detection of simulated osteoporosis in maxillae using radiographic texture analysis. doi
  39. (2002). TD: Femoral neck trabecular patterns predict osteoporotic fractures. doi
  40. (1966). The scree test for a number of factors. Multivariate Behavioural Research doi
  41. (1993). WC: Role of Trabecular Morphology in the Etiology of Age-Related Vertebral Fractures. Calcif Tissue Int doi

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