Failure mechanisms in human vertebral cancellous bone.

Specimens of human vertebral cancellous bone were compressed to well past mechanical failure (15% strain) in the infero-superior direction. The mechanisms of failure were examined microscopically and histologically. The primary mechanism of failure was shown to be microscopic cracking rather than overt failure of the trabecular elements. The morphology of the cracks was consistent with an hypothesis that they were the result of shear stress (or strain) in the tissue. Complete fracture of trabeculae was confined to elements oriented transversely to the direction of loading. The tissue's ultimate strength and residual strength after compressive failure were both strongly correlated to tissue stiffness (R2 = 0.88 and R2 = 0.71, respectively). It is proposed that cancellous bone strength may be a consequence of the adaptation of bone stiffness to applied stresses. With removal of the load, all specimens recovered at least 94% of their original height. Implications of energy dissipation by microcracking for recovery and maintenance of overall trabecular architecture are discussed.

[1]  H. Uhthoff,et al.  Repair of trabecular fatigue fractures. Cadaver studies of the upper femur. , 1989, Acta orthopaedica Scandinavica.

[2]  L. Mosekilde,et al.  Consequences of the remodelling process for vertebral trabecular bone structure: a scanning electron microscopy study (uncoupling of unloaded structures). , 1990, Bone and mineral.

[3]  David B. Burr,et al.  Structure, Function, and Adaptation of Compact Bone , 1989 .

[4]  Wilson C. Hayes,et al.  Basic Orthopaedic Biomechanics , 1995 .

[5]  D. Burr,et al.  Validity of the bulk-staining technique to separate artifactual from in vivo bone microdamage. , 1990, Clinical orthopaedics and related research.

[6]  M. Ashby,et al.  Cellular solids: Structure & properties , 1988 .

[7]  M. Kleerekoper,et al.  Reversal of vertebral deformities in osteoporosis: Measurement error or “rebound”? , 1994, Journal of bone and mineral research : the official journal of the American Society for Bone and Mineral Research.

[8]  B. Vernon‐roberts,et al.  Osteoarthritis of the hip. Possible protective and causative roles of trabecular microfractures in the head of the femur. , 1987 .

[9]  J. M. Aitken,et al.  Relevance of osteoporosis in women with fracture of the femoral neck , 1984 .

[10]  S. Timoshenko,et al.  Mechanics of Materials, 3rd Ed. , 1991 .

[11]  Friedrich Pauwels,et al.  Biomechanics of the Locomotor Apparatus , 1980 .

[12]  M A Freeman,et al.  Isolated trabecular fatigue fractures in the femoral head. , 1972, The Journal of bone and joint surgery. British volume.

[13]  John C. Koch,et al.  The laws of bone architecture , 1917 .

[14]  B. Riggs,et al.  Incidence of Colles' fracture in a North American community. , 1982, American journal of public health.

[15]  C. K. Jackson,et al.  The scanning electron microscope in studies of trabecular bone from a human vertebral body. , 1971, Journal of anatomy.

[16]  L. Gibson The mechanical behaviour of cancellous bone. , 1985, Journal of biomechanics.

[17]  W C Hayes,et al.  Postyield behavior of subchondral trabecular bone. , 1976, Journal of biomedical materials research.

[18]  Iu.N. Rabotnov Elements of hereditary solid mechanics , 1980 .

[19]  A Chamay,et al.  Mechanical and morphological aspects of experimental overload and fatigue in bone. , 1970, Journal of biomechanics.

[20]  William Prager,et al.  Introduction to Plasticity , 1960 .

[21]  M. Kleerekoper,et al.  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. , 1983, The Journal of clinical investigation.

[22]  D. Morgan,et al.  The loss of bone with age, osteoporosis, and fractures. , 1970, Clinical orthopaedics and related research.

[23]  H. Frost,et al.  Physical characteristics of bone. IV. Microscopic prefailure and failure patterns. , 1961, Henry Ford Hospital medical bulletin.

[24]  B. Vernon‐roberts,et al.  Healing trabecular microfractures in the bodies of lumbar vertebrae. , 1973, Annals of the rheumatic diseases.

[25]  R. Rose,et al.  A possible mechanism of Wolff's law: trabecular microfractures. , 1973, Archives internationales de physiologie et de biochimie.

[26]  W. J. Whitehouse,et al.  Scanning electron microscope studies of trabecular bone in the proximal end of the human femur. , 1974, Journal of anatomy.