Age-related changes in vertebral trabecular bone architecture—assessed by a new method

Mosekilde, Li.

Year	Entry
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2008	Zhang Y, He Z, Fan S, He K, Li C. Automatic thresholding of micro-CT trabecular bone images. Proceedings of the International Conference on BioMedical Engineering and Informatics (BMEI 2008); May 27-30, 2008; Sanya, Hainan, China.23-27.
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2014	Shridharani JK, Schmidt AL, Cox CA, Bigler BR, Knight AE, Bass CRD. Dynamic failure localization in spinal specimens using acoustic emissions. In: Proceedings of the 2014 International IRCOBI Conference on the Biomechanics of Injury. September 10-12, 2014; Berlin, Germany.166-175.
2000	Ding M. Age variations in the properties of human tibial trabecular bone and cartilage. Acta Orthop Scand. 2000;71(suppl 292):1-45.
2021	Schröder G, Jabke B, Schulze M, Wree A, Martin H, Sahmel O, Doerell A, Kullen CM, Andresen R, Schober H-C. A comparison, using X-ray micro-computed tomography, of the architecture of cancellous bone from the cervical, thoracic and lumbar spine using 240 vertebral bodies from 10 body donors. Anat Cell Biol. March 31, 2021;54(1):25-34.
2007	McDonnell P, McHugh PE, O’Mahoney D. Vertebral osteoporosis and trabecular bone quality. Ann Biomed Eng. February 2007;35(2):170-189.
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1995	Boyce RW, Ebert DC, Youngs TA, Paddock CL, Mosekilde L, Stevens ML, Gundersen HJG. Unbiased estimation of vertebral trabecular connectivity in calcium-restricted ovariectomized minipigs. Bone. June 1995;16(6):637-642.
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1997	Odgaard A. Three-dimensional methods for quantification of cancellous bone architecture. Bone. 1997;20(4):315-328.
1998	Thomsen JS, Ebbesen EN, Mosekilde L. Relationships between static histomorphometry and bone strength measurements in human iliac crest bone biopsies author links open overlay panel. Bone. February 1998;22(2):153-163.
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1999	Yeh OC, Keaveny TM. Biomechanical effects of intraspecimen variations in trabecular architecture: a three-dimensional finite element study. Bone. August 1999;25(2):223-228.
1999	Kothari M, Keaveny TM, Lin JC, Newitt DC, Majumdar S. Measurement of intraspecimen variations in vertebral cancellous bone architecture. Bone. August 1999;25(2):245-250.
1999	Uchiyama T, Tanizawa T, Muramatsu H, Endo N, Takahashi HE, Hara T. Three-dimensional microstructural analysis of human trabecular bone in relation to its mechanical properties. Bone. 1999;25(4):487-491.
2000	Ding M, Hvid I. Quantification of age-related changes in the structure model type and trabecular thickness of human tibial cancellous bone. Bone. March 2000;26(3):291-295.
2001	Banse X, Devogelaer JP, Munting E, Delloye C, Cornu O, Grynpas M. Inhomogeneity of human vertebral cancellous bone: systematic density and structure patterns inside the vertebral body. Bone. 2001;28(5):563-571.
2002	Guo XE, Kim CH. Mechanical consequence of trabecular bone loss and its treatment: a three-dimensional model simulation. Bone. February 2002;30(2):404-411.
2002	Thomsen JS, Ebbesen EN, Mosekilde L. Age-related differences between thinning of horizontal and vertical trabeculae in human lumbar bone as assessed by a new computerized method. Bone. July 2002;31(1):136-142.
2002	Hu JH, Ding M, Søballe K, Bechtold JE, Danielsen CC, Day JS, Hvid I. Effects of short-term alendronate treatment on the three-dimensional microstructural, physical, and mechanical properties of dog trabecular bone. Bone. November 2002;31(5):591-597.
2006	Stauber M, Müller R. Volumetric spatial decomposition of trabecular bone into rods and plates: a new method for local bone morphometry. Bone. 2006;38(4):475-484.
2006	Nazarian A, Stauber M, Zurakowski D, Snyder BD, Müller R. The interaction of microstructure and volume fraction in predicting failure in cancellous bone. Bone. December 2006;39(6):1196-1202.
2007	Nagaraja S, Lin ASP, Guldberg RE. Age-related changes in trabecular bone microdamage initiation. Bone. April 2007;40(4):973-980.
2009	Mueller TL, Stauber M, Kohler T, Eckstein F, Müller R, van Lenthe GH. Non-invasive bone competence analysis by high-resolution pQCT: an in vitro reproducibility study on structural and mechanical properties at the human radius. Bone. February 2009;44(2):364-371.
2009	Liu XS, Zhang XH, Guo XE. Contributions of trabecular rods of various orientations in determining the elastic properties of human vertebral trabecular bone. Bone. August 2009;45(2):158-163.
2020	Harris D, Garrett K, Uppuganti S, Creecy A, Nyman JS. The BALB/c mouse as a preclinical model of the age-related deterioration in the lumbar vertebra. Bone. August 2020;137:115438.
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2003	Kim CH. In Vivo Trabecular Bone Response to Mechanical Loading and Parathyroid Hormone Stimulation [PhD thesis]. Columbia University; 2003.
2007	Liu XS. High-Resolution Image Based Micro-Mechanical Modeling of Trabecular Bone [PhD thesis]. Columbia University; 2007.
2007	Cole JH. The Role of Architecture and Tissue Properties in the Structural Integrity of Human Vertebral Cancellous Bone [PhD thesis]. Ithaca, NY: Cornell University; May 2007.
2004	İnceoğlu S. Failure of Pedicle Screw-Bone Interface: Biomechanics of Pedicle Screw Insertion and Pullout [PhD thesis]. Cleveland State University; December 2004.
2016	Shridharani JK. Injury Detection and Localization in the Spine Using Acoustic Emission [PhD thesis]. Duke University; 2016.
2005	Day JS. Bone Quality: The Mechanical Effects of Microarchitecture and Matrix Properties [PhD thesis]. Erasmus University Rotterdam; 2005.
2005	Stauber M. Volumetric Spatial Decomposition of Porous Microstructures: A Framework for Element Based Analysis of Trabecular Bone [PhD thesis]. Swiss Federal Institute of Technology Zürich; 2005.
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2006	Nagaraja S. Microstructural Stresses and Strains Associated With Trabecular Bone Microdamage [PhD thesis]. Atlanta, GA: Georgia Institute of Technology; December 2006.
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2009	Dai Y. Subject-Specific Computational Modeling of Spinal Constructs [PhD thesis]. University of Notre Dame; April 2009.
2011	Ahmed F. Multiscale Quantitative Imaging of Human Femoral Heads Using X-Ray Microtomography [PhD thesis]. Queen Mary University of London; 2011.
2005	Buie HR. Use of Finite Element Method Modelling and Rapid Prototyping to Study the Effect of Trabecular Bone Architecture on Apparent Mechanical Properties [Master's thesis]. Queen's University; November 2005.
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2016	Gustafson HM. Quantifying the Response of Vertebral Bodies to Compressive Loading Using Digital Image Correlation [PhD thesis]. Vancouver, BC: University of British Columbia; October 2016.
2017	Fung A. Experimental Validation of Finite Element Predicted Bone Strain in the Human Metatarsal [Master's thesis]. Calgary, AB: University of Calgary; April 2017.
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2013	Wang Y-K. Multi-Level Micromechanical Modeling of Bone Tissues [PhD thesis]. Los Angeles, CA: Los Angeles, University of California; 2013.
2020	Belda González R. Mechanical and Morphometric Characterization of Cancellous Bone [PhD thesis]. Universität Politècnica de València; March 2020.
2018	Burke MV. Quantification of Changes in Vertebral Bone Quality in the Presence of Metastases [PhD thesis]. University of Toronto; 2018.
2017	Kirby ML. Digital Modeling of Trabecular Bones: Structural Analysis and Probabilistic Modeling Techniques [Master's thesis]. San Antionio, TX: University of Texas at San Antonio; August 2017.
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1998	Yeni YN. Fracture Mechanics of Human Cortical Bone: The Relationship of Geometry, Microstructure and Composition With the Fracture of the Tibia, Femoral Shaft and the Femoral Neck [PhD thesis]. West Virginia University; 1998.

Year	Entry
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