Composition and mechanical properties of cancellous bone from the femoral head of patients with osteoporosis or osteoarthritis

Li, Baohua; Aspden, Richard M.

Links

DOI: 10.1359/jbmr.1997.12.4.641

ISI: A1997WR37000017

Cited Works (5)

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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.
1993	Cummings SR, Black DM, Nevitt MC, Browner W, Cauley J, Ensrud K, Genant HK, Palmero L, Scott J, Vogt TM; Study of Osteoporotic Fractures Research Group. Bone density at various sites for prediction of hip fractures. Lancet. January 9, 1993;341(8837):72-75.

Cited By (25)

Year	Entry
1998	Aspden RM, Li B. Reproducibility of techniques using Archimedes’ principle in measuring cancellous bone volume by L. Zou, R.D. Bloebaum and K.N. Bachus. Med Eng Phys. 1998;20(5):393-395.
2002	Banse X. When density fails to predict bone strength. Acta Orthop Scand. 2002;73(2)(suppl 303):2-57.
2001	Boyd SK. Microstructural Bone Adaptation in an Experimental Model of Osteoarthritis [PhD thesis]. Calgary, AB: University of Calgary; January 2001.
2002	Brown SJ, Pollintine P, Powell DE, Davie MW, Sharp CA. Regional differences in mechanical and material properties of femoral head cancellous bone in health and osteoarthritis. Calcif Tiss Int. September 2002;71(3):227-234.
1999	Bruyère Garnier K, Dumas R, Rumelhart C, Arlot ME. Mechanical characterization in shear of human femoral cancellous bone: torsion and shear tests. Med Eng Phys. November 1999;21(9):641-649.
2011	Chen P-Y, McKittrick J. Compressive mechanical properties of demineralized and deproteinized cancellous bone. J Mech Behav Biomed Mater. October 2011;4(7):961-973.
2015	Chittenden M, Najafi AR, Li J, Jasiuk I. Nanoindentation and ash content study of age dependent changes in porcine cortical bone. J Mech Med Biol. October 2015;15(5):1550074.
2010	Cook RB, Curwen C, Tasker T, Zioupos P. Fracture toughness and compressive properties of cancellous bone at the head of the femur and relationships to non-invasive skeletal assessment measurements. Med Eng Phys. November 2010;32(9):991-997.
2011	Dall'Ara E, Öhman C, Baleani M, Viceconti M. Reduced tissue hardness of trabecular bone is associated with severe osteoarthritis. J Biomech. May 17, 2011;44(8):1593-1598.
2001	Day JS, Ding M, van der Linden JC, Hvid I, Sumner DR, Weinans H. A decreased subchondral trabecular bone tissue elastic modulus is associated with pre‐arthritic cartilage damage. J Orthop Res. September 2001;19(5):914-918.
2005	Day JS. Bone Quality: The Mechanical Effects of Microarchitecture and Matrix Properties [PhD thesis]. Rotterdam, The Netherlands: Erasmus University Rotterdam; 2005.
2003	Ferguson VL, Bushby AJ, Boyde A. Nanomechanical properties and mineral concentration in articular calcified cartilage and subchondral bone. J Anat. August 2003;203(2):191-202.
2008	Helgason B, Perilli E, Schileo E, Taddei F, Brynjólfsson S, Viceconti M. Mathematical relationships between bone density and mechanical properties: a literature review. Clin Biomech (Bristol, Avon). 2008;23(2):135-146.
2002	Homminga J, McCreadie BR, Ciarelli TE, Weinans H, Goldstein SA, Huiskes R. Cancellous bone mechanical properties from normals and patients with hip fractures differ on the structure level, not on the bone hard tissue level. Bone. May 2002;30(5):759-764.
2003	Homminga J, Mccreadie BR, Weinans H, Huiskes R. The dependence of the elastic properties of osteoporotic cancellous bone on volume fraction and fabric. J Biomech. October 2003;36(10):1461-1467.
2019	Hunt HB, Torres AM, Palomino PM, Marty E, Saiyed R, Cohn M, Jo J, Warner S, Sroga GE, King KB, Lane JM, Vashishth D, Hernandez CJ, Donnelly E. Altered tissue composition, microarchitecture, and mechanical performance in cancellous bone from men with type 2 diabetes mellitus. J Bone Min Res. July 2019;34(7):1191-1206.
in press	Johnston JD, Kontulainen SA, Masri BA, Wilson DR. Predicting subchondral bone stiffness using a depth-specific CT topographic mapping technique in normal and osteoarthritic proximal tibiae. Clin Biomech (Bristol, Avon).
2007	Lievers WB, Lee V, Arsenault SM, Waldman SD, Pilkey AK. Specimen size effect in the volumetric shrinkage of cancellous bone measured at two levels of dehydration. J Biomech. 2007;40(9):1903-1909.
2009	Lievers WB. Effects of Geometric and Material Property Changes on the Apparent Elastic Properties of Cancellous Bone [PhD thesis]. Kingston, ON: Queen's University; April 2009.
2010	Lievers WB, Poljsak AS, Waldman SD, Pilkey AK. Effects of dehydration-induced structural and material changes on the apparent modulus of cancellous bone. Med Eng Phys. 2010;32(8):921-925.
2007	Öhman C, Baleani M, Perilli E, Dall’Ara E, Tassani S, Baruffaldi F, Viceconti M. Mechanical testing of cancellous bone from the femoral head: experimental errors due to off-axis measurements. J Biomech. 2007;40(11):2426-2433.
2015	Oroszlány Á, Nagy P, Kovács JG. Compressive properties of commercially available PVC foams intended for use as mechanical models for human cancellous bone. Acta Polytech Hung. 2015;12(2):89-101.
2010	Tassani S, Öhman C, Baleani M, Baruffaldi F, Viceconti M. Anisotropy and inhomogeneity of the trabecular structure can describe the mechanical strength of osteoarthritic cancellous bone. J Biomech. 2010;43(6):1160-1166.
2011	Tassani S, Öhman C, Baruffaldi F, Baleani M, Viceconti M. Volume to density relation in adult human bone tissue. J Biomech. 2011;44(1):103-108.
2017	Yu Y. Contributions of Anisotropic and Heterogeneous Tissue Modulus to Apparent Trabecular Bone Mechanical Properties [PhD thesis]. New York, NY: Columbia University; 2017.