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Surface area overestimation within three-dimensional digital images and its consequence for skeletal dosimetry
1.G. Sgouros, “Bone marrow dosimetry for radioimmunotherapy: Theoretical considerations,” J. Nucl. Med. 34, 689–694 (1993).
2.G. Sgouros, M. Stabin, Y. Erdi, G. Akabani, C. Kwok, A. B. Brill, and B. Wessels, “Red marrow dosimetry for radiolabeled antibodies that bind to marrow, bone, or blood components,” Med. Phys. 27, 2150–2164 (2000).
3.A. Brodsky, Review of Radiation Risks and Uranium Toxicity with Applications to Decisions Associated with Decommissioning Clean-Up Criteria (RAS, Hebron, CT, 1996).
4.J. A. Siegel, B. W. Wessels, and E. E. Watson, “Bone marrow dosimetry and toxicity for radioimmunotherapy,” Antibody, Immunoconjugates, Radiopharm. 3, 213–233 (1990).
5.L. G. Bouchet, W. E. Bolch, S. M. Goddu, R. W. Howell, and D. V. Rao, “Considerations in the selection of radiopharmaceuticals for palliation of bone pain from metastatic osseous lesions,” J. Nucl. Med. 41, 682–687 (2000).
6.C. B. Clayman, The Human Body: An Illustrated Guide to its Structure, Function, and Disorders (Dorling Kindersley, London, 1995).
7.E. N. Marieb, Human Anatomy and Physiology (Benjamim/Cummings, Menlo Park, CA, 1998).
8.F. W. Spiers, “Dose to trabecular bone from internal beta-emitters,” in First International Congress of Radiation Protection, edited by W. S. Snyder (Pergamon, Rome, 1966), pp. 165–172.
9.A. H. Beddoe, “A quantitative study of the structure of mammalian bone,” J. Anat. 122, 190 (1976).
10.A. H. Beddoe, P. J. Darley, and F. W. Spiers, “Measurements of trabecular bone structure in man,” Phys. Med. Biol. 21, 589–607 (1976).
11.F. W. Spiers, A. H. Beddoe, and J. R. Whitwell, “Mean skeletal dose factors for beta-particle emitters in human bone 1. Volume-seeking radionuclides,” Br. J. Radiol. 51, 622–627 (1978).
12.F. W. Spiers, J. R. Whitwell, and A. H. Beddoe, “Calculated dose factors for the radiosensitive tissues in bone irradiated by surface-deposited radionuclides,” Phys. Med. Biol. 23, 481–494 (1978).
13.J. R. Whitwell, “Theoretical investigations of energy loss by ionizing particles in bone,” thesis, Department of Medical Physics, University of Leeds, Leeds, UK, 1973, 268 pp.
14.J. R. Whitwell and F. W. Spiers, “Calculated beta-ray dose factors for trabecular bone,” Phys. Med. Biol. 21, 16–38 (1976).
15.W. S. Snyder, M. R. Ford, G. G. Warner, and S. B. Watson, “A tabulation of dose equivalent per microcurie-day for source and target organs of an adult for various radionuclides,” ORNL/TM-5000, Oak Ridge National Laboratory, Oak Ridge, TN, 1974.
16.W. S. Snyder, M. R. Ford, G. G. Warner, and S. B. Watson, “” Absorbed Dose per Unit Cumulated Activity for Selected Radionuclides and Organs (Society of Nuclear Medicine, New York, 1975).
17.L. G. Bouchet, W. E. Bolch, R. W. Howell, and D. V. Rao, “S values for radionuclides localized within the skeleton,” J. Nucl. Med. 41, 189–212 (2000).
18.L. G. Bouchet, D. W. Jokisch, and W. E. Bolch, “A three-dimensional transport model for determining absorbed fractions of energy for electrons in trabecular bone,” J. Nucl. Med. 40, 1947–1966 (1999).
19.M. G. Stabin, “MIRDOSE: Personal computer software for internal dose assessment in nuclear medicine,” J. Nucl. Med. 37, 538–546 (1996).
20.K. F. Eckerman, “Aspects of the dosimetry of radionuclides within the skeleton with particular emphasis on the active marrow,” in Proceedings of the Fourth International Radiopharmaceutical Dosimetry Symposium, edited by A. T. Schlafke-Stelson and E. E. Watson (ORAU, Oak Ridge, TN, 1985), pp. 514–534.
21.K. F. Eckerman and M. G. Stabin, “Electron absorbed fractions and dose conversion factors for marrow and bone by skeletal regions,” Health Phys. 78, 199–214 (2000).
22.X. Ouyang, K. Selby, T. F. Lang, K. Engelke, C. Klifa, B. Fan, F. Zucconi, G. Hottya, M. Chen, S. Majumdar, and H. K. Genant, “High resolution magnetic resonance imaging of the calcaneus: Age-related changes in trabecular structure and comparison with dual x-ray absorptiometry measurements,” Calcif. Tissue Int. 60, 139–147 (1997).
23.B. D. Snyder, S. Piazza, W. T. Edwards, and W. C. Hayes, “Role of trabecular morphology in the etiology of age-related vertebral fractures,” Calcif. Tissue Int. 53, S14–S22 (1993).
24.L. Mosekilde, “Age-related changes in vertebral trabecular architecture assessed by a new method,” Bone (N.Y.) 9, 247–250 (1986).
25.L. Mosekilde, “Sex differences in age-related loss of vertebral trabecular bone mass and structure-biomechanical consequences,” Bone (N.Y.) 10, 425–432 (1989).
26.H. G. Bone, D. D. Cody, and E. M. Monsell, “Application of quantitative computed tomography to Paget’s Disease of bone,” Semin Arthritis Rheum. 23, 244–247 (1994).
27.D. D. Cody, M. J. Flynn, and D. S. Vickers, “A technique for measuring regional bone mineral density (rBMD) in human lumbar vertebral bodies,” Med. Phys. 16, 766–772 (1989).
28.D. D. Cody, S. A. Goldstein, M. J. Flynn, and E. B. Brown, “Correlations between vertebral regional bone mineral density (rBMD) and whole bone fracture load,” Spine 16, 146–154 (1991).
29.M. J. Flynn and D. D. Cody, “The assessment of vertebral bone macroarchitecture with x-ray computed tomography,” Calcif. Tissue Int. 53, S170–S175 (1993).
30.S. Grampp, S. Majumdar, M. Jergas, D. C. Newitt, P. Lang, and H. K. Genant, “Distal radius: In vivo assessment with quantitative MR imaging, peripheral quantitative CT, and dual x-ray absorptiometry,” Radiology 198, 213–218 (1996).
31.M. Kleerekoper, D. A. Nelson, M. J. Flynn, A. S. Pawluszka, G. Jacobsen, and E. L. Peterson, “Comparison of radiographic absorptiometry with dual-energy x-ray absorptimetry and quantitative computed tomography in normal older white and black women,” J. Bone Miner. Res. 9, 1745–1749 (1994).
32.M. Kleerekoper, D. A. Nelson, E. L. Peterson, M. J. Flynn, A. S. Pawluszka, G. Jacobsen, and P. Wilson, “Reference data for bone mass, calciotropic hormones, and biochemcial markers of bone remodeling in older (55–75) postmenopausal white and black women,” J. Bone Miner. Res. 9, 1267–1276 (1994).
33.T. M. Link, S. Majumdar, W. Konermann, N. Meier, J. C. Lin, D. Newitt, X. Ouyang, P. E. Peters, and H. K. Genant, “Texture analysis of direct magnification radiographs of vertebral specimens: Correlation with bone mineral density and biomechanical properties,” Acad. Radiol. 4, 167–176 (1997).
34.T. M. Link, S. Majumdar, J. C. Lin, P. Augat, R. G. Gould, D. Newitt, X. Ouyang, T. F. Lang, A. Mathur, and H. K. Genant, “Assessment of trabecular structure using high resolution CT images and texture analysis,” J. Comput. Assist. Tomogr. 22, 15–24 (1998).
35.T. M. Link, S. Majumdar, J. C. Lin, D. Newitt, P. Augat, X. Ouyang, A. Mathur, and H. K. Genant, “A comparative study of trabecular bone properties in the spine and femur using high resolution MRI and CT,” J. Bone Miner. Res. 13, 122–132 (1998).
36.F. Chevalier, A. M. Laval-Jeantet, M. Laval-Jeantet, and C. Bergot, “CT image analysis of the vertebral trabecular network in vivo,” Calcif. Tissue Int. 51, 8–13 (1992).
37.E. P. Durand and P. Rüegsegger, “High-contrast resolution of CT images for bone structure analysis,” Med. Phys. 19, 569–573 (1992).
38.J. L. Kuhn, S. A. Goldstein, L. A. Feldkamp, R. W. Goulet, and G. Jesion, “Evaluation of a microcomputed tomography system to study trabecular bone structure,” J. Orthop. Res. 8, 833–842 (1990).
39.S. Majumdar, H. K. Genant, S. Grampp, D. C. Newitt, V. H. Truong, J. C. Lin, and A. Mathur, “Correlation of trabecular bone structure with age, bone mineral density, and osteoporotic status: In vivo studies in the distal radius using high-resolution magnetic resonance imaging,” J. Bone Miner. Res. 12, 111–118 (1997).
40.R. Müller, R. Hildebrand, H. J. Häuselmann, and P. Rüegsegger, “In vivo reproducibility of three-dimensional structural properties of noninvasive bone biopsies using 3D-pQCT,” J. Bone Miner. Res. 11, 1745–1750 (1996).
41.D. W. Jokisch, P. W. Patton, B. A. Inglis, L. G. Bouchet, D. A. Rajon, J. Rifkin, and W. E. Bolch, “NMR microscopy of trabecular bone and its role in skeletal dosimetry,” Health Phys. 75, 584–596 (1998).
42.D. W. Jokisch, P. W. Patton, D. A. Rajon, B. A. Inglis, and W. E. Bolch, “Chord distributions across 3D digital images of a human thoracic vertebra,” Med. Phys. 28, 1493–1504 (2001).
43.D. W. Jokisch, L. G. Bouchet, P. W. Patton, D. A. Rajon, and W. E. Bolch, “Beta-particle dosimetry of the trabecular skeleton using Monte Carlo transport within 3D digital images,” Med. Phys. 28, 1505–1518 (2001).
44.D. A. Rajon, D. W. Jokisch, P. W. Patton, A. P. Shah, and W. E. Bolch, “Voxel size effects in 3D NMR microscopy performed for trabecular bone dosimetry,” Med. Phys. 27, 2624–2635 (2000).
45.J. Peter, M. P. Tornai, and R. J. Jaszczek, “Analytical versus voxelized phantom representation for Monte Carlo simulation in radiological imaging,” IEEE Trans. Med. Imaging 19, 556–564 (2000).
46.G. F. Knoll, Radiation Detection and Measurement (Wiley, New York, 1989).
47.J. E. Turner, Atoms, Radiation, and Radiation Protection (Wiley, New York, 1995).
48.ICRU, “Stopping powers for electrons and positrons,” Report No. 37, International Commission on Radiation Units and Measurements, Bethesda, MD, 1984.
49.P. W. Patton, D. W. Jokisch, D. A. Rajon, A. P. Shah, S. L. Myers, and W. E. Bolch, “Skeletal dosimetry via NMR microscopy: Investigations of sample reproducibility and signal source,” Health Phys. 82, 316–326 (2002).
50.P. Rüegsegger, B. Koller, and R. Müller, “A microtomographic system for the nondestructive evaluation of bone architecture,” Calcif. Tissue Int. 58, 24–29 (1996).
51.R. Müller, T. Hildebrand, and P. Rüegsegger, “Non-invasive bone biopsy: A new method to analyze and display the three-dimensional structure of trabecular bone,” Phys. Med. Biol. 39, 145–164 (1994).
52.W. E. Lorensen and H. E. Cline, “Marching cubes: A high-resolution 3D surface construction algorithm,” Comput. Graph. 21, 163–169 (1987).
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