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

Mosekilde, Li.

Year	Entry
1992	Bradbeer JN, Arlott ME, Meunier PJ, Reeve J. Treatment of osteoporosis with parathyroid peptide (hPTH 1-34) and oestrogen: increase in volumetric density of iliac cancellous bone may depend on reduced trabecular spacing as well as increased thickness of packets of newly formed bone. Clin Endocrinol. September 1992;37(3):282-289.
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.
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.
1996	Amling M, Pösl M, Ritzel H, Hahn M, Vogel M, Wening VJ, Delling G. Architecture and distribution of cancellous bone yield vertebral fracture clues: a histomorphometric analysis of the complete spinal column from 40 autopsy specimens. Arch Orthop Trauma Surg. July 1996;115(5):262-269.
1989	Mosekilde L. Sex differences in age-related loss of vertebral trabecular bone mass and structure—biomechanical consequences. Bone. 1989;10(6):425-432.
1989	Mosekilde L, Bentzen SM, Ørtoft G, Jørgensen J. The predictive value of quantitative computed tomography for vertebral body compressive strength and ash density. Bone. 1989;10(6):465-470.
1990	Mosekilde L, Mosekilde L. Sex differences in age-related changes in vertebral body size, density and biomechanical competence in normal individuals. Bone. 1990;11(2):67-73.
1990	Vesterby A. Star volume of marrow space and trabeculae in iliac crest: sampling procedure and correlation to star volume of first lumbar vertebra. Bone. 1990;11(3):149-155.
1990	Jensen KS, Mosekilde L, Mosekilde L. A model of vertebral trabecular bone architecture and its mechanical properties. Bone. 1990;11(6):417-423.
1992	Parfitt AM. Implications of architecture for the pathogenesis and prevention of vertebral fracture. Bone. 1992;13(suppl 2):S41-S47.
1993	Odgaard A, Gundersen HJG. Quantification of connectivity in cancellous bone, with special emphasis on 3-D reconstructions. Bone. March–April 1993;14(2):173-182.
1995	Dempster DW, Birchman R, Xu R, Lindsay R, Shen V. Temporal changes in cancellous bone structure of rats immediately after ovariectomy. Bone. January 1995;16(1):157-161.
1995	Grote HJ, Amling M, Vogel M, Hahn M, Pösl M, Delling G. Intervertebral variation in trabecular microarchitecture throughout the normal spine in relation to age. Bone. March 1995;16(3):301-308.
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.
1996	Müller R, Hahn M, Vogel M, Delling G, Rüegsegger P. Morphometric analysis of noninvasively assessed bone biopsies: comparison of high-resolution computed tomography and histologic sections. Bone. March 1996;18(3):215-220.
1996	Oxlund H, Mosekilde L, Ørtoft G. Reduced concentration of collagen reducible cross links in human trabecular bone with respect to age and osteoporosis. Bone. November 1996;19(5):479-484.
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.
1998	Majumdar S, Kothari M, Augat P, Newitt DC, Link TM, Lin JC, Lang T, Lu Y, Genant HK. High-resolution magnetic resonance imaging: three-dimensional trabecular bone architecture and biomechanical properties. Bone. May 1998;22(5):445-454.
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.
1990	Mosekilde L. Consequences of the remodelling process for vertebral trabecular bone structure: a scanning electron microscopy study (uncoupling of unloaded structures). Bone Miner. July 1990;10(1):13-35.
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2010	Wegrzyn J, Roux J, Arlot ME, Boutroy S, Vilayphiou N, Guyen O, Delmas PD, Chapurlat R, Bouxsein ML. Role of trabecular microarchitecture and its heterogeneity parameters in the mechanical behavior of ex vivo human L3 vertebrae. J Bone Miner Res. November 2010;25(11):2324-2331.
2005	Boutroy S, Bouxsein ML, Munoz F, Delmas PD. In vivo assessment of trabecular bone microarchitecture by high-resolution peripheral quantitative computed tomography. J Clin Endocrinol Metab. December 2005;90(12):6508-6515.
1991	Durand EP, Rüegsegger P. Cancellous bone structure: analysis of high-resolution ct images with the run-length method. J Comput Assist Tomogr. January–February 1991;15(1):133-139.
2005	Thomsen JS, Laib A, Koller B, Prohaska S, Mosekilde L, Gowin W. Stereological measures of trabecular bone structure: comparison of 3D micro computed tomography with 2D histological sections in human proximal tibial bone biopsies. J Microsc (Oxford). 2005;218(2):171-179.
1998	Ladd AJC, Kinney JH, Haupt DL, Goldstein SA. Finite‐element modeling of trabecular bone: comparison with mechanical testing and determination of tissue modulus. J Orthop Res. September 1998;16(5):622-628.
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1993	Dempster DW, Ferguson-Pell MW, Mellish RWE, Cochran GVB, Xie F, Fey C, Horbert W, Parisien M, Lindsay R. Relationships between bone structure in the iliac crest and bone structure and strength in the lumbar spine. Osteoporos Int. March 1993;3(2):90-96.
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2008	Chen H, Shoumura S, Emura S, Bunai Y. Regional variations of vertebral trabecular bone microstructure with age and gender. Osteoporos Int. October 2008;19(10):1473-1483.
1994	Müller R, Hildebrand T, Rüegsegger P. Non-invasive bone biopsy: a new method to analyse and display the three-dimensional structure of trabecular bone. Phys Med Biol. January 1994;39(1):145-164.
1996	Gordon CL, Webber CE, Adachi JD, Christoforou N. In vivo assessment of trabecular bone structure at the distal radius from high-resolution computed tomography images. Phys Med Biol. March 1996;41(3):495-508.
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1997	Myers ER, Wilson SE. Biomechanics of osteoporosis and vertebral fracture. Spine. December 15, 1997;22(24)(suppl):25S-31S.
1998	Mosekilde L. The effect of modelling and remodelling on human vertebral body architecture. Technol Health Care. December 1998;6(5-6):287-297.
2000	Mosekilde L. Age-related changes in bone mass, structure, and strength: effects of loading. Z Rheumatol. February 2000;59(suppl 1):I1-I9.
2020	Aguirre TG. Bio-Inspired Design for Engineering Applications: Empirical and Finite Element Studies of Biomechanically Adapted Porous Bone Architectures [PhD thesis]. Colorado State University; Summer 2020.
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.
2010	Müller T. Bioimaging and Biomechanics of Bone Competence and Implant Stability [PhD thesis]. Swiss Federal Institute of Technology Zürich; 2010.
2006	Nagaraja S. Microstructural Stresses and Strains Associated With Trabecular Bone Microdamage [PhD thesis]. Atlanta, GA: Georgia Institute of Technology; December 2006.
2013	Pino W. Computational Modeling of Trabecular Bone in Lower Extremity Injuries Due to Impact [Master's thesis]. Cambridge, MA: Massachusetts Institute of Technology; June 2013.
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.
2013	Toal VR. The Mechanics of Microdamage and Microfracture in Trabecular Bone [PhD thesis]. Brisbane, Australia: Queensland University of Technology; September 2013.
2005	Ruimerman R. Modeling and Remodeling in Bone Tissue [PhD thesis]. Eindhoven, The Netherlands: Technische Universiteit Eindhoven; 2005.
2014	Gilchrist SM. Comparison of Proximal Femur Deformations, Failures and Fractures in Quasi-Static and Inertially-Driven Simulations of a Sideways Fall from Standing: An Experimental Study Utilizing Novel Fall Simulation, Digital Image Correlation, and Development of Digital Volume Correlation Techniques [PhD thesis]. Vancouver, BC: University of British Columbia; January 2014.
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.
1998	Kopperdahl DL. Structural Consequences of Damage on the Mechanical Behavior of the Human Vertebral Body [PhD thesis]. Berkeley, CA: Berkeley, University of California; 1998.
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2008	Bevill GR. Micromechanical Modeling of Failure in Trabecular Bone [PhD thesis]. Berkeley, CA: Berkeley, University of California; 2008.
2013	Sanyal A. Bone Strength Multi-Axial Behavior: Volume Fraction, Anisotropy and Microarchitecture [PhD thesis]. Berkeley, CA: Berkeley, University of California; 2013.
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.
2011	Lala D. Determinants of Fracture Risk Among Individuals With Spinal Cord Injury: A Case Control Study [Master's thesis]. University of Waterloo; 2011.
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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]. Morgantown, WV: West Virginia University; 1998.

Year	Entry
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1985	Mosekilde L, Viidik A, Mosekilde L. Correlation between the compressive strength of iliac and vertebral trabecular bone in normal individuals. Bone. 1985;6(5):291-295.
1974	Pugh JW, Radin EL, Rose RM. Quantitative studies of human subchondral cancellous bone: its relationship to the state of tts overlying cartilage. J Bone Joint Surg. March 1974;56A(2):313-321.
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