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Mosekilde, L.
1
Age-related loss of vertebral trabecular bone mass and structure: biomechanical consequences
Biomechanics of Diarthrodial Joints
Affiliations
1
Department of Connective Tissue Biology, Institute of Anatomy,
University of Aarhus
, DK-8000 Aarhus C, Denmark
Cited Works (16)
Year
Entry
1983
Parfitt AM, Mathews CH, Villanueva AR, Kleerekoper M, Frame B, Rao DS. Relationships between surface, volume, and thickness of iliac trabecular bone in aging and in osteoporosis: implications for the microanatomic and cellular mechanisms of bone loss.
J Clin Invest
. October 1983;72(4):1396-1409.
1967
Atkinson PJ. Variation in trabecular structure of vertebrae with age.
Calcif Tiss Res
. December 1967;1(1):24-32.
1987
Parfitt AM. Trabecular bone architecture in the pathogenesis and prevention of fracture.
Am J Med
. January 26, 1987;82(suppl 1B):68-72.
1987
Mosekilde L, Mosekilde L, Danielsen CC. Biomechanical competence of vertebral trabecular bone in relation to ash density and age in normal individuals.
Bone
. 1987;8(2):79-85.
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.
1984
Parfitt AM. Age-related structural changes in trabecular and cortical bone: cellular mechanisms and biomechanical consequences.
Calcif Tiss Int
. 1984;36(suppl 1):S123-S128.
1966
Arnold JS, Bartley MH, Tont SA, Jenkins DP. Skeletal changes in aging and disease.
Clin Orthop Relat Res
. December 1966;49:17-38.
1967
Bell GH, Dunbar O, Beck JS, Gibb A. Variations in strength of vertebrae with age and their relation to osteoporosis.
Calcif Tiss Res
. 1967;1(1):75-86.
1973
Pugh JW, Rose RM, Radin EL. Elastic and viscoelastic properties of trabecular bone: dependence on structure.
J Biomech
. 1973;6(5):475-485.
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.
1985
Kleerekoper M, Villanueva AR, Stanciu J, Rao DS, Parfitt AM. The role of three-dimensional trabecular microstructure in the pathogenesis of vertebral compression fractures.
Calcif Tiss Int
. 1985;37(6):594-597.
1988
Mosekilde L. Age-related changes in vertebral trabecular bone architecture—assessed by a new method.
Bone
. 1988;9(4):247-250.
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.
1975
Townsend PR, Rose RM, Radin EL. Buckling studies of single human trabeculae.
J Biomech
. July 1975;8(3-4):199-200.
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.
Cited By (5)
Year
Entry
1997
Silva MJ, Gibson LJ. Modeling the mechanical behavior of vertebral trabecular bone: effects of age-related changes in microstructure.
Bone
. 1997;21(2):191-199.
1993
Snyder BD, Piazza S, Edwards WT, Hayes WC. Role of trabecular morphology in the etiology of age-related vertebral fractures.
Calcif Tiss Int
. February 1993;53(suppl 1):S14-S22.
1994
Hollister SJ, Brennan JM, Kikuchi N. A homogenization sampling procedure for calculating trabecular bone effective stiffness and tissue level stres.
J Biomech
. 1994;27(4):433-444.
1999
Whyne CM.
Development of Guidelines for the Prophylactic Treatment of Metastatically Involved Vertebral Bodies
[PhD thesis]. Berkeley, CA: Berkeley, University of California; 1999.
1991
Hollister SJ.
Homogenization Analysis of Trabecular Bone and Prediction Ofbone Ingrowth Using Topology Optimization
[PhD thesis]. University of Michigan; 1991.