Stiffness behaviour of trabecular bone specimens

Linde, Frank; Hvid, Ivan

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.
1994	Linde F. Elastic and viscoelastic properties of trabecular bone by a compression testing approach. Dan Med Bull. April 1994;41(2):119-138.
2000	Takahashi Y, Kikuchi Y, Konosu A, Ishikawa H. Development and validation of the finite element model for the human lower limb of pedestrians. Stapp Car Crash J. 2000;44:335-355. SAE 2000-01-SC22.
2018	Mazurkiewicz A. The effect of trabecular bone storage method on its elastic properties. Acta Bioeng Biomech. 2018;20(1):21-27.
1995	Borchers RE, Gibson LJ, Burchardt H, Hayes WC. Effects of selected thermal variables on the mechanical properties of trabecular bone. Biomaterials. May 1995;16(7):545-551.
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	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	Gadeleta SJ, Boskey AL, Paschalis E, Carlson C, Menschik F, Baldini T, Peterson M, Rimnac CM. A physical, chemical, and mechanical study of lumbar vertebrae from normal, ovariectomized, and nandrolone decanoate-treated cynomolgus monkeys (macaca fascicularis). Bone. October 2000;27(4):541-550.
2019	Wood Z, Lynn L, Nguyen JT, Black MA, Patel M, Barak MM. Are we crying wolff? 3D printed replicas of trabecular bone structure demonstrate higher stiffness and strength during off-axis loading. Bone. October 2019;127:635-645.
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.
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	Brear K, Currey JD, Raines S, Smith KJ. Density and temperature effects on some mechanical properties of cancellous bone. Eng Med. October 1988;17(4):163-167.
1988	Yahia LH, Drouin G, Duval P. A methodology for mechanical measurements of technical constants of trabecular bone. Eng Med. October 1988;17(4):169-173.
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.
2020	Belda R, Palomar M, Peris-Serra JL, Vercher-Martínez A, Giner E. Compression failure characterization of cancellous bone combining experimental testing, digital image correlation and finite element modeling. Int J Mech Sci. January 2020;165:105213.
1987	Goldstein SA. The mechanical properties of trabecular bone: dependence on anatomic location and function. J Biomech. 1987;20(11-12):1055-1061.
1989	Kuhn JL, Goldstein SA, Ciarelli MJ, Matthews LS. The limitations of canine trabecular bone as a model for human: a biomechanical study. J Biomech. 1989;22(2):95-107.
1989	Linde F, Hvid I. The effect of constraint on the mechanical behaviour of trabecular bone specimens. J Biomech. 1989;22(5):485-490.
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.
1990	Linde F, Pongsoipetch B, Frich LH, Hvid I. Three-axial strain controlled testing applied to bone specimens from the proximal tibial epiphysis. J Biomech. 1990;23(11):1167-1172.
1991	Røhl L, Larsen E, Linde F, Odgaard A, Jørgensen J. Tensile and compressive properties of cancellous bone. J Biomech. 1991;24(12):1143-1149.
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	Bowman SM, Keaveny TM, Gibson LJ, Hayes WC, McMahon TA. Compressive creep behavior of bovine trabecular bone. J Biomech. March 1994;27(3):301-310.
1994	Goulet RW, Goldstein SA, Ciarelli MJ, Kuhn JL, Brown MB, Feldkamp LA. The relationship between the structural and orthogonal compressive properties of trabecular bone. J Biomech. April 1994;27(4):375-389.
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, Guo XE, Hayes WC. Mechanical behavior of damaged trabecular bone. J Biomech. November 1994;27(11):1309-1318.
1994	Deligianni DD, Maris A, Missirlis YF. Stress relaxation behaviour of trabecular bone specimens. J Biomech. December 1994;27(12):1469-1476.
1999	Kabel J, van Rietbergen B, Dalstra M, Odgaard A, Huiskes R. The role of an effective isotropic tissue modulus in the elastic properties of cancellous bone. J Biomech. 1999;32(7):673-680.
2011	Green JO, Wang J, Diab T, Vidakovic B, Guldberg RE. Age-related differences in the morphology of microdamage propagation in trabecular bone. J Biomech. October 13, 2011;44(15):2659-2666.
1989	Turner CH. Yield behavior of bovine cancellous bone [published correction appears in J Biomech Eng. 1989;111(4):335]. J Biomech Eng. August 1989;111(3):256-260.
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.
2001	Morgan EF, Yeh OC, Chang WC, Keaveny TM. Nonlinear behavior of trabecular bone at small strains. J Biomech Eng. 2001;123(1):1-9.
2015	Oftadeh R, Perez-Viloria M, Villa-Camacho JC, Vaziri A, Nazarian A. Biomechanics and mechanobiology of trabecular bone: a review. J Biomech Eng. January 2015;137(1):010802.
2020	Martig S, Hitchens PL, Lee PVS, Whitton RC. The relationship between microstructure, stiffness and compressive fatigue life of equine subchondral bone. J Mech Behav Biomed Mater. January 2020;101:103439.
1989	Linde F, Hvid I, Pongsoipetch B. Energy absorptive properties of human trabecular bone specimens during axial compression. J Orthop Res. May 1989;7(3):432-439.
2021	Waletzko-Hellwig J, Saemann M, Schulze M, Frerich B, Bader R, Dau M. Mechanical characterization of human trabecular and formed granulate bone cylinders processed by high hydrostatic pressure. Materials. February 25, 2021;14(5):1069.
1997	Mitton D, Rumelhart C, Hans D, Meunier PJ. The effects of density and test conditions on measured compression and shear strength of cancellous bone from the lumbar vertebrae of ewes. Med Eng Phys. 1997;19(5):464-474.
2004	Wegst UGK, Ashby MF. The mechanical efficiency of natural materials. Philos Mag. July 21, 2004;84(21):2167-2181.
2003	Bredbenner TL. Damage Modeling of Vertebral Trabecular Bone [PhD thesis]. Cleveland, OH: Case Western Reserve University; January 2003.
2003	Winwood K. An Experimental Investigation Into the Effects of Cyclic Fatigue on Ageing Human Cortical Bone [PhD thesis]. Cranfield University; September 2003.
1994	Zysset P. A Constitutive Law for Trabecular Bone [PhD thesis]. Lausanne, Switzerland: École Polytechnique Fédérale de Lausanne; 1994.
2011	O'Neal JM. The Effects of Aging and Remodeling on Bone Quality and Microdamage [PhD thesis]. Atlanta, GA: Georgia Institute of Technology; August 2011.
1993	Guo X-DE. Fatigue of Trabecular Bone [PhD thesis]. Cambridge, MA: Harvard University; 1993.
1997	Bowman SM. Creep of Trabecular Bone [PhD thesis]. Cambridge, MA: Harvard University; May 1997.
2002	Follet H. Caractérisation Biomécanique Et Modélisation 3D Par Imagerie X Et IRM Haute Résolution De L’os Spongieux Humain: Evaluation Du Risque Fracturaire [PhD thesis]. Institut national des sciences appliquées de Lyon (INSA Lyon); 2002.
2015	Oftadeh R. Hierarchical Analysis and Multiscale Modelling of Cellular Structures: From Meta Materials to Bone Structure [PhD thesis]. Northeastern University; December 2015.
2002	Morgan EF-i. The Dependence on Anatomic Site of Trabecular Bone Structure-Function Relationships [PhD thesis]. Berkeley, CA: Berkeley, University of California; 2002.
1993	Goulet RW. The Quantification of the Structure and Mechanical Properties of Trabecular Bone [PhD thesis]. Ann Arbor, MI: University of Michigan; 1993.
1993	McCubbrey DA. The Macroscopic Architectural Properties of Vertebral Trabecular Bone and Their Relation to Whole Vertebral Failure Loads [PhD thesis]. University of Michigan; 1993.
1995	Guldberg RE. Mechanical Adaptation of Trabecular Bone Formation in Vivo [PhD thesis]. Ann Arbor, MI: University of Michigan; 1995.
2019	Martig S. Compressive Fatigue Life and Micromorphology of Equine Metacarpal Subchondral Bone [PhD thesis]. University of Melbourne; June 2019.
2020	Belda González R. Mechanical and Morphometric Characterization of Cancellous Bone [PhD thesis]. Universität Politècnica de València; March 2020.

Year	Entry
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.
1974	Schoenfeld CM, Lautenschlager EP, Meyer PR. Mechanical properties of human cancellous bone in the femoral head. Med Biol Eng. 1974;12(3):313-317.
1980	Zilch H, Rohlmann A, Bergmann G, Kölbel R. Material properties of femoral cancellous bone in axial loading, II: time dependent properties. Arch Orthop Trauma Surg. December 1980;97(4):257-262.
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.
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.
1969	Rockoff SD, Sweet E, Bleustein J. The relative contribution of trabecular and cortical bone to the strength of human lumbar vertebrae. Calcif Tiss Res. December 1969;3(1):163-175.
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.
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.
1983	Woo SL-Y, Gomez MA, Seguchi Y, Endo CM, Akeson WH. Measurement of mechanical properties of ligament substance from a bone-ligament-bone preparation. J Orthop Res. 1983;1(1):22-29.
1975	Townsend PR, Rose RM, Radin EL. Buckling studies of single human trabeculae. J Biomech. July 1975;8(3-4):199-200.
1970	Currey JD. The mechanical properties of bone. Clin Orthop Relat Res. November–December 1970;73:210-231.