Biomedical Engineering Reference
In-Depth Information
69. Meunier, P.J.: Histomorphometry of the skeleton. In: Peck, W.A. (ed.) Bone and mineral
research annual, pp. 191-222. Excerpta Medica, Amsterdam (1983)
70. Moore, R.J., Durbridge, T.C., et al.: Trabecular spacing in post-menopausal Australian
women with and without vertebral fractures. Australian and New Zealand J. Med. 22,
269-273 (1992)
71. Morgan, E.F., Keaveny, T.M.: Dependence of yoield strain of human trabecular bone on
anatomic site. J. Biomech. 34, 569-577 (2001)
72. Mori, S., Harruff, R., et al.: Trabecular bonevolume and microdamage accumulation in the
femoral heads of women with and without femoral neck fractures. Bone 21, 521-526 (1997)
73. Mosekilde, L.: Sex differences in age-related loss of vertebral trabecular bone mass and
structure-biomechanical consequences. Bone 10, 425-432 (1989)
74. Mueller, T.L., Van Lenthe, G.H., et al.: Regional, age and gender differences in architectural
measures of bone quality and their contribution to bone mechanical competence in the
human radius of an elderly population. Bone 45, 882-891 (2009)
75. Muller, R., Hahn, M., et al.: Morphometric analysis of noninvasively assessed bone
biopsies: comparison of high-resolution computed tomography and histological sections.
Bone 18, 215-220 (1996)
76. Muller, R., Hildebrand, T., et al.: Non-invasive bone biopsy: a new method to analyse and
display the three-dimensional structure of trabecular bone. Phys. Med. Biol. 39, 145-164
(1994)
77. Muller, R., Koller, B., et al.: Resolution dependency of microstructural properties of
cancellous bone based on three-dimensional micro-tomography. Technol. Health Care 4,
113-119 (1996)
78. Muller, R., van Campenhout, H., et al.: Morphometric analysis of human bone biopsies: a
quantitative
structural
comparison
of
histological
sections
and
micro-computed
tomography. Bone 23, 59-66 (1998)
79. Odgaard, A.: Three-dimensional methods for quantification of cancellous bone architecture.
Bone 20, 315-328 (1997)
80. Odgaard, A., Gundersen, H.J.: Quantification of connectivity in cancellous bone, with
special emphasis on 3-D reconstructions. Bone 14, 173-182 (1993)
81. Pahr, D.H., Zysset, P.K.: A comparison of enhanced continuum FE with micro FE models of
human vertebral bodies. J. Biomech. 42, 455-462 (2009)
82. Parfitt, A.M.: Size of bone in the ages: endocortical resorption. J. Bone Miner. Res. 17, 1306
(2002)
83. Parfitt,
A.M.:
Targeted
and
nontargeted
bone
remodeling:
Relationship
to
basic
multicellular unit origination and progression. Bone 30, 5-7 (2002)
84. Parfitt,
A.M.,
Drezner,
M.K.,
et
al.:
Bone
histomorphometry:
standardization
of
nomenclature, symbols, and units. J. Bone Miner. Res. 2, 595-610 (1987)
85. Parfitt, A.M., Mathews, C.H.E., et al.: Relationships between surface, volume and thickness
if iliac trabecular bone in aging and in osteoporosis. J. Clin. Investig. 72, 1396-1409 (1983)
86. Parkinson, I.H., Fazzalari, N.L.: Cancellous bone structure analysis using image analysis.
Australasian Phys. Eng. Sci. Med. 417, 64-67 (1994)
87. Parkinson, I.H., Fazzalari, N.L.: Interrelationships between structural parameters of
cancellous bone reveal accelerated structural change at low bone volume. J. Bone Miner.
Res. 18, 2200-2205 (2003)
88. Parkinson,
I.H.,
Forbes,
D.,
et
al.:
Model-independent
3D
descriptorss
of
vertebral
cancellous bone architecture. J. Osteoporos. (2010). doi:
10.4061/2010/641578
89. Reginster, J.-Y., Minne, H.W., et al.: Randomized trial of the effects of risedronate on
vertebral fractures in women with established postmenopausal osteoporosis. Osteoporos.
Int. 11, 83-91 (2000)
90. Riggs, B.L., Melton, L.J.: Involutional osteoporosis. The New England J. Med. 314,
1676-1686 (1986)
Search WWH ::
Custom Search