Compressive axial strain distributions in cancellous bone specimens

Odgaard, Anders; Hvid, Ivan; Linde, Frank

Year	Entry
1991	Allard RN, Ashman RB. A comparison between cancellous bone compressive moduli determined from surface strain and total specimen deflection. In: Transacation of the 37th Annual Meeting of the Orthopaedic Research Society. March 4-7, 1991; Anaheim, CA.151.
2002	Currey JD. Bones: Structure and Mechanics. Princeton, NJ: Princeton University Press; 2002.
1994	Linde F. Elastic and viscoelastic properties of trabecular bone by a compression testing approach. Dan Med Bull. April 1994;41(2):119-138.
2008	Akhtar R, Daymond MR, Almer JD, Mummery PM. Elastic strains in antler trabecular bone determined by synchrotron x-ray diffraction. Acta Biomater. 2008;4(6):1677-1687.
2000	Ding M. Age variations in the properties of human tibial trabecular bone and cartilage. Acta Orthop Scand. 2000;71(suppl 292):1-45.
2001	Keaveny TM, Morgan EF, Niebur GL, Yeh OC. Biomechanics of trabecular bone. Annu Rev Biomed Eng. 2001;3:307-333.
1993	Turner CH, Burr DB. Basic biomechanical measurements of bone: a tutorial. Bone. 1993;14(4):595-608.
1997	Odgaard A. Three-dimensional methods for quantification of cancellous bone architecture. Bone. 1997;20(4):315-328.
2018	Zhao S, Arnold M, Ma S, Abel RL, Cobb JP, Hansen U, Boughton O. Standardizing compression testing for measuring the stiffness of human bone. Bone Joint Res. August 2018;7(8):524-538.
2007	Thurner PJ, Erickson B, Jungmann R, Schriock Z, Weaver JC, Fantner GE, Schitter G, Morse DE, Hansma PK. High-speed photography of compressed human trabecular bone correlates whitening to microscopic damage. Eng Fract Mech. 2007;74(12):1928-1941.
2006	Davies CM, Jones DB, Stoddart MJ, Koller K, Smith E, Archer CW, Richards RG. Mechanically loaded ex vivo bone culture system "Zetos": systems and culture preparation. Eur Cell Mater. January–June 2006;11:57-75.
2017	Tsirigotis A, Deligianni DD. Combining digital image correlation and acoustic emission for monitoring of the strain distribution until yielding during compression of bovine cancellous bone. Front Mater. December 20, 2017;4:44.
1994	Zysset PK, Sonny M, Hayes WC. Morphology-mechanical property relations in trabecular bone of the osteoarthritic proximal tibia. J Arthoplast. 1994;9(2):203-216.
1989	Hvid I, Bentzen SM, Linde F, Mosekilde L, Pongsoipetch B. X-ray quantitative computed tomography: the relations to physical properties of proximal tibial trabecular bone specimens. J Biomech. 1989;22(8-9):837-844.
1991	Odgaard A, Linde F. The underestimation of Young's modulus in compressive testing of cancellous bone specimens. J Biomech. 1991;24(8):691-698.
1992	Linde F, Hvid I, Madsen F. The effect of specimen geometry on the mechanical behaviour of trabecular bone specimens. J Biomech. 1992;25(4):359-368.
1993	Michel MC, Guo X-DE, Gibson LJ, McMahon TA, Hayes WC. Compressive fatigue behavior of bovine trabecular bone. J Biomech. April–May 1993;26(4-5):453-463.
1993	Keaveny TM, Borchers RE, Gibson LJ, Hayes WC. Theoretical analysis of the experimental artifact in trabecular bone compressive modulus [published correction appears in J Biomech. 1993;26(9):1143]. J Biomech. April–May 1993;26(4-5):599-607.
1993	Keaveny TM, Borchers RE, Gibson L, Hayes WC. Trabecular bone modulus and strength can depend on specimen geometry. J Biomech. August 1993;26(8):991-995.
1994	Keaveny TM, Guo XE, Wachtel EF, McMahon TA, Hayes WC. Trabecular bone exhibits fully linear elastic behavior and yields at low strains. J Biomech. 1994;27(9):1127-1136.
1994	Keaveny TM, Wachtel EF, Ford CM, Hayes WC. Differences between the tensile and compressive strengths of bovine tibial trabecular bone depend on modulus. J Biomech. 1994;27(9):1137-1146.
1994	Keaveny TM, Wachtel EF, Guo XE, Hayes WC. Mechanical behavior of damaged trabecular bone. J Biomech. November 1994;27(11):1309-1318.
2023	Albert DL, Katzenberger MJ, Hunter RL, Agnew AM, Kemper AR. Effects of loading rate, age, and morphology on the material properties of human rib trabecular bone. J Biomech. July 2023;156:111670.
1993	Keaveny TM, Hayes WC. A 20-year perspective on the mechanical properties of trabecular bone. J Biomech Eng. November 1993;115(4B):534-542.
2006	Zauel R, Yeni YN, Bay BK, Dong XN, Fyhrie DP. Comparison of the linear finite element prediction of deformation and strain of human cancellous bone to 3D digital volume correlation measurements. J Biomech Eng. February 2006;128(1):1-6.
1996	Keyak JH, Lee IY, Nath DS, Skinner HB. Postfailure compressive behavior of tibial trabecular bone in three anatomic directions. J Biomed Mater Res. July 1996;31(3):373-378.
1994	Keyak JH, Lee IY, Skinner HB. Correlations between orthogonal mechanical properties and density of trabecular bone: use of different densitometric measures. J Biomed Mater Res. November 1994;A28(11):1329-1336.
2000	Lucchinetti E, Thomann D, Danuser G. Micromechanical testing of bone trabeculae: potentials and limitations. J Mater Sci. December 2000;35(24):6057-6064.
2010	Lievers WB, Waldman SD, Pilkey AK. Minimizing specimen length in elastic testing of end-constrained cancellous bone. J Mech Behav Biomed Mater. January 2010;3(1):22-30.
2018	Morton JJ, Bennison M, Lievers WB, Waldman SD, Pilkey AK. Failure behaviour of rat vertebrae determined through simultaneous compression testing and micro-CT imaging. J Mech Behav Biomed Mater. March 2018;79:73-82.
2020	Fleps I, Bahaloo H, Zysset PK, Ferguson SJ, Pálsson H, Helgason B. Empirical relationships between bone density and ultimate strength: a literature review. J Mech Behav Biomed Mater. October 2020;110:103866.
1994	Les CM, Keyak JH, Stover SM, Taylor KT, Kaneps AJ. Estimation of material properties in the equine metacarpus with use of quantitative computed tomography. J Orthop Res. November 1994;12(6):822-833.
1995	Bay BK. Texture correlation: a method for the measurement of detailed strain distributions within trabecular bone. J Orthop Res. March 1995;13(2):258-267.
1997	Keaveny TM, Pinilla TP, Crawford RP, Kopperdahl DL, Lou A. Systematic and random errors in compression testing of trabecular bone [published correction appears in J Orthop Res. 1995;17(1):151]. J Orthop Res. 1997;15(1):101-110.
2002	Kopperdahl DL, Morgan EF, Keaveny TM. Quantitative computed tomography estimates of the mechanical properties of human vertebral trabecular bone. J Orthop Res. July 2002;20(4):801-805.
1998	Currey JD. Mechanical properties of vertebrate hard tissues. Proc Inst Mech Eng Part H-J Eng Med. 1998;216(6):399-411.
2020	Turunen MJ, Le Cann S, Tudisco E, Lovric G, Patera A, Hall SA, Isaksson H. Sub-trabecular strain evolution in human trabecular bone. Sci Rep. 2020;10:13788.
1999	Bay BK, Yerby SA, McLain RF, Toh E. Measurement of strain distributions within vertebral body sections by texture correlation. Spine. January 1, 1999;24(1):10-17.
2003	Bredbenner TL. Damage Modeling of Vertebral Trabecular Bone [PhD thesis]. Cleveland, OH: Case Western Reserve University; January 2003.
2005	Cook RB. Non-Invasively Assessed Skeletal Bone Status and Its Relationship to the Biomechanical Properties and Condition of Cancellous Bone [PhD thesis]. Cranfield, UK: Cranfield University; December 18, 2005.
2004	İnceoğlu S. Failure of Pedicle Screw-Bone Interface: Biomechanics of Pedicle Screw Insertion and Pullout [PhD thesis]. Cleveland State University; December 2004.
2011	Donaldson FE. On Incorporating Bone Microstructure in Macro-Finite-Element Models [PhD thesis]. Edinburgh, UK: University of Edinburgh; March 2011.
2016	Florencio FL. Multiscale Modelling of Trabecular Bone: From Micro to Macroscale [PhD thesis]. Edinburgh, Scotland: University of Edinburgh; 2016.
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.
1993	Guo X-DE. Fatigue of Trabecular Bone [PhD thesis]. Cambridge, MA: Harvard University; 1993.
2007	Akhtar R. Micromechanical Behaviour of Bone [PhD thesis]. University of Manchester; 2007.
2001	Arthur Moore TL. Microdamage Accumulation in Bovine Trabecular Bone [PhD thesis]. Cambridge, MA: Massachusetts Institute of Technology; June 2001.
2010	Johnson TPM. On the Rate-Dependent Constitutive Response of Cortical and Trabecular Bone [PhD thesis]. Cambridge, MA: Massachusetts Institute of Technology; September 2010.
2009	Lievers WB. Effects of Geometric and Material Property Changes on the Apparent Elastic Properties of Cancellous Bone [PhD thesis]. Queen's University; April 2009.
2013	Morton JJ. An Investigation of Rat Vertebra Failure Behaviour Under Uniaxial Compression Through Time-Lapsed Micro-CT Imaging [Master's thesis]. Queen's University; 2013.
2011	Yao H. Microstructure-Based Characterization and Modeling of Trabecular Bone Deformation and Failure [PhD thesis]. Southern Methodist University; August 3, 2011.
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.
2018	Pendleton MM. Effects of Spaceflight- and Clinically-Relevant Ionizing Radiation Exposure on Bone Biomechanics [PhD thesis]. Berkeley, CA: Berkeley, University of California; 2018.
2020	Belda González R. Mechanical and Morphometric Characterization of Cancellous Bone [PhD thesis]. Universität Politècnica de València; March 2020.
2011	Aiyangar AK. Physical and Computational Modeling of Subsidence of Anterior Interbody Fusion Devices [PhD thesis]. University of Wisconsin – Madison; 2011.

Year	Entry
1985	Hvid I, Hansen SL. Trabecular bone strength patterns at the proximal tibial epiphysis. J Orthop Res. 1985;3(4):464-472.
1987	Bentzen SM, Hvid I, Jorgensen J. Mechanical strength of tibial trabecular bone evaluated by X-ray computed tomography. J Biomech. 1987;20(8):743-752.
1987	Ashman RB, Corin JD, Turner CH. Elastic properties of cancellous bone: measurement by an ultrasonic technique. J Biomech. 1987;20(10):979-986.
1961	Evans FG, King AI. Regional differences in some physical properties of human spongy bone. In: Evans FG, ed. Biomechanical Studies of the Musculo-Skeletal System. Springfield, IL: Charles C. Thomas; 1961:49-67.
1976	Hayes WC, Carter DR. Postyield behavior of subchondral trabecular bone. J Biomed Mater Res. July 1976;10(4):537-544.
1977	Carter DR, Hayes WC. The compressive behavior of bone as a two-phase porous structure. J Bone Joint Surg. 1977;59A(7):954-962.
1985	Linde F, Hvid I, Jensen NC. Material properties of cancellous bone in repetitive axial loading. Eng Med. October 1985;14(4):173-177.
1987	Vahey JW, Lewis JL, Vanderby R Jr. Elastic moduli, yield stress, and ultimate stress of cancellous bone in the canine proximal femur. J Biomech. 1987;20(1):29-33.
1989	Linde F, Hvid I. The effect of constraint on the mechanical behaviour of trabecular bone specimens. J Biomech. 1989;22(5):485-490.
1988	Linde F, Gøthgen CB, Hvid I, Pongsoipetch B, Bentzen S. Mechanical properties of trabecular bone by a non‐destructive compression testing approach. Eng Med. 1988;17(1):23-29.
1988	Rice JC, Cowin SC, Bowman JA. On the dependence of the elasticity and strength of cancellous bone on apparent density. J Biomech. 1988;21(2):155-168.
1983	Goldstein SA, Wilson DL, Sonstegard DA, Matthews LS. The mechanical properties of human tibial trabecular bone as a function of metaphyseal location. J Biomech. 1983;16(12):965-969.
1985	Hvid I, Jensen NC, Bünger C, Sølund K, Djurhuus JC. Bone mineral assay: its relation to the mechanical strength of cancellous bone. Eng Med. 1985;14(2):79-83.
1984	Hvid I, Jensen J. Cancellous bone strength at the proximal human tibia. Eng Med. January 1984;13(1):21-25.
1988	Harrigan TP, Jasty M, Mann RW, Harris WH. Limitations of the continuum assumption in cancellous bone. J Biomech. 1988;21(4):269-275.
1970	Galante J, Rostoker W, Ray RD. Physical properties of trabecular bone. Calcif Tiss Res. 1970;5(1):236-246.
1982	Williams JL, Lewis JL. Properties and an anisotropic model of cancellous bone from the proximal tibial epiphysis. J Biomech Eng. February 1982;104(1):50-56.
1974	Behrens JC, Walker PS, Shoji H. Variations in strength and structure of cancellous bone at the knee. J Biomech. 1974;7(3):201-207.
1976	Lindahl O. Mechanical properties of dried defatted spongy bone. Acta Orthop Scand. 1976;47(1):11-19.
1945	Cook M, Larke EC. Resistance of copper and copper alloys to homogeneous deformation in compression. J Inst Metals. 1945;71(12):371-390.
1977	Ducheyne P, Heymans L, Martens M, Aernoudt E, Meester Pd, Mulier JC. The mechanical behaviour of intracondylar cancellous bone of the femur at different loading rates. J Biomech. 1977;10(11-12):747-762.
1983	Ashby MF. The mechanical properties of cellular solids. Metall Trans. September 1983;A14:1755-1769.
1983	Martens M, Van Audekercke R, Delport P, De Meester P, Mulier JC. The mechanical characteristics of cancellous bone at the upper femoral region. J Biomech. 1983;16(12):971-983.
1980	Brown TD, Ferguson AB Jr. Mechanical property distributions in the cancellous bone of the human proximal femur. Acta Orthop Scand. 1980;51(1):429-437.
1970	McElhaney JH, Fogle JL, Melvin JW, Haynes RR, Roberts VL, Alem NM. Mechanical properties of cranial bone. J Biomech. 1970;3(5):495-511.
1970	McElhaney J, Alem N, Roberts V. A porous block model for cancellous bones. Winter Annual Meeting of the American Society of Mechanical Engineers; November 29–December 3, 1970; New York, NY.1-9. ASME Publication 70-WA/BHF-2.