Regional differences in some physical properties of human spongy bone

Evans, F. G.; King, A. I.

Year	Entry
1973	Evans FG. Mechanical Properties of Bone. Springfield, IL: Charles C. Thomas; 1973.
2004	Haug E, Choi H-Y, Robin S, Beaugonin M. Human models for crash and impact simulation. In: Ayache N, ed. Computational Models for the Human Body. Amsterdam, The Netherlands: Elsevier B.V; 2004:231-452. Ciarlet PG, ed. Handbook of Numerical Analysis; vol 12.
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1970	Gurdjian ES, Gonzales D, Hodgson VR, Thomas LM, Greenberg SW. Comparisons of research in inanimate and biologic material: artifacts and pitfalls. In: Gurdjian ES, Lange WA, Patrick LM, Thomas LM, eds. Impact Injury and Crash Protection. Springfield, IL: Charles C. Thomas; 1970:234-253.
2011	Yue N, Shin J, Untaroiu CD. Blunt injury response of occupant lower extremity during automotive crashes: a finite element study. In: Proceedings of the 39th International Workshop on Human Subjects for Biomechanical Research. 2011.
2001	Kent R, Bolton J, Crandall J, Prasad P, Nusholtz G, Mertz H, Kallieris D. Restrained Hybrid III dummy-based criteria for thoracic hard-tissue injury prediction. In: Proceedings of the 2001 International IRCOBI Conference on the Biomechanics of Impact. October 10-12, 2001; Isle of Man, UK.
2013	Boruah S, Henderson K, Subit D, Salzar RS, Shender BS, Paskoff G. Response of human skull bone to dynamic compressive loading. In: Proceedings of the 2013 International IRCOBI Conference on the Biomechanics of Injury. September 11-13, 2013; Gothenburg, Sweden.497-508.
2013	Untaroiu CD, Yue N, Shin J. A finite element model of the lower limb for simulating automotive impacts. Ann Biomed Eng. March 2013;41(3):513-526.
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.
1970	Galante J, Rostoker W, Ray RD. Physical properties of trabecular bone. Calcif Tiss Res. 1970;5(1):236-246.
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1985	Linde F, Hvid I, Jensen NC. Material properties of cancellous bone in repetitive axial loading. Eng Med. October 1985;14(4):173-177.
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.
1972	Simon SR, Radin EL, Paul IL, Rose RM. The response of joints to impact loading, II: in vivo behavior of subchondral bone. J Biomech. May 1972;5(3):267-272.
1975	Townsend PR, Raux P, Rose RM, Miegel RE, Radin EL. The distribution and anisotropy of the stiffness of cancellous bone in the human patella. J Biomech. 1975;8(6):363-367.
1978	Hayes WC, Swenson LW Jr, Schurman DJ. Axisymmetric finite element analysis of the lateral tibial plateau. J Biomech. 1978;11(1-2):21-33.
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.
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.
1987	Goldstein SA. The mechanical properties of trabecular bone: dependence on anatomic location and function. J Biomech. 1987;20(11-12):1055-1061.
1989	Odgaard A, Hvid I, Linde F. Compressive axial strain distributions in cancellous bone specimens. J Biomech. 1989;22(8-9):829-835.
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	Odgaard A, Linde F. The underestimation of Young's modulus in compressive testing of cancellous bone specimens. J Biomech. 1991;24(8):691-698.
1991	Linde F, Nørgaard P, Hvid I, Odgaard A, Søballe K. Mechanical properties of trabecular bone: dependency on strain rate. J Biomech. 1991;24(9):803-809.
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.
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	Dalstra M, Huiskes R, Odgaard A, van Erning L. Mechanical and textural properties of pelvic trabecular bone. J Biomech. April–May 1993;26(4-5):523-535.
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.
1978	Lin HS, Liu YK, Adams KH. Mechanical response of the lumbar intervertebral joint under physiological (complex) loading. J Bone Joint Surg. January 1978;60A(1):41-55.
1985	Hvid I, Hansen SL. Trabecular bone strength patterns at the proximal tibial epiphysis. J Orthop Res. 1985;3(4):464-472.
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.
1991	Ciarelli MJ, Goldstein SA, Kuhn JL, Cody DD, Brown MB. Evaluation of orthogonal mechanical properties and density of human trabecular bone from the major metaphyseal regions with materials testing and computed tomography. J Orthop Res. May 1991;9(5):674-682.
1987	Hansson TH, Keller TS, Panjabi MM. A study of the compressive properties of lumbar vertebral trabeculae: effects of tissue characteristics. Spine. January–February 1987;12(1):56-62.
1998	D'Andrea SE. Lower Limb Response to Impact in Simulated Microgravity and 1G [PhD thesis]. The Ohio State University; 1998.
2006	Whitty M. Development of a Physiological Three Dimensional Finite Element Model of a Human Tibia [Master's thesis]. Kingston, ON: Royal Military College of Canada; May 2006.
2002	Kent RW. Dynamic Response of the Thorax: Restraint-Specific Hard Tissue Injury Prediction [PhD thesis]. Charlottesville, VA: University of Virginia; January 2002.
2019	Yue N. A Numerical Investigation of Biomechanical Response and Injury of Occupant Lower Extremities in Automotive Frontal Impact Scenario [Master's thesis]. Charlottesville, VA: University of Virginia; December 2019.
2005	Anderson DE. An Investigation of the Mechanical Implications of Sacroplasty Using Finite Element Models Based on Tomographic Image Data [Master's thesis]. Virginia Polytechnic Institute and State University; April 25, 2005.