Biomedical Engineering Reference
In-Depth Information
59. Kaiser, J., Lemaire, T., Naili, S., Sansalone, Lemaire, T.: Effective chemical transport
within cortical bone: a comparison between textural and electrochemical effects (submitted,
2012b)
60. Kameo, Y., Adachi, T., Hojo, M.: Transient response of fluid pressure in a poroelastic
material under uniaxial cyclic loading. J. Mech. Phys. Sol. 5, 1794-1805 (2008)
61. Kameo, Y., Adachi, T., Sato, N., Hojo, M.: Estimation of bone permeability considering the
morphology of lacuno-canalicular porosity. J. Mech. Behav. Biomed. Mat. 3, 240-248
(2010)
62. Kasiri, S., Taylor, D.: A critical distance study of stress concentrations in bone. J. Biomech.
41, 603-609 (2008)
63. Klein-Nulend, J., Bacabac, R.G., Mullender, M.G: Mechanobiology of bone tissue. Path.
Bio. 53, 576-580 (2005)
64. Klein-Nulend, J., Bakker, A.: Osteocytes: mechanosensors of bone and orchestrators of
mechanical adaptation. Clin. Rev. Bone Miner. Metabol. 5, 195-209 (2007)
65. Klein-Nulend, J., van der Plas, A., Semeins, C.M., Ajubi, N.E., Frangos, J.A., Nijweide, P.J.,
Burger, E.H: Sensitivity of osteocytes to biomechanical stress in vitro. Faseb J. 9, 441-445
(1995)
66. Knothe Tate, M.L: Whither flows the fluid in bone? An osteocyte's perspective. J. Biomech.
36(10), 1409-1424 (2003)
67. Knothe Tate, M.L., Knothe, U., Niederer, P.: Experimental elucidation of mechanical load-
induced fluid flow and its potential role in bone metabolism and functional adaptation. Am.
J. Med. Sci. 316, 189-195 (1998a)
68. Knothe Tate, M.L., Niederer, P., Knothe, U.: In vivo tracer transport through the
lacunocanalicular system of rat bone in an environment devoid of mechanical loading. Bone
22, 107-117 (1998b)
69. Knothe Tate, M.L., Steck, R., Forwood, M.R., Niederer, P.: In vivo demonstration of load-
induced fluid flow in the rat tibia and its potential implications for processes associated with
functional adaptation. J. Exp. Biol. 203, 2737-2745 (1998c)
70. Kubo, T.: Piezoelectricity of bone and electrical callus. J. Orthop. Sci. 17, 105-106 (2012)
71. Lanyon, L.E., Hampson, W.G., Goodship, A.E., Shah, J.S: Bone deformation recorded in
vivo from strain gauges attached to the human tibial shaft. Acta Orthop. Scand. 46, 256-268
(1975)
72. Lanyon, L.E., Rubin, C.T: Static vs dynamic loads as an influence on bone remodelling.
J. Biomech. 17(12), 897-905 (1984)
73. Lemaire, T., Borocin, F., Naili, S.: Mechanotransduction of bone remodelling: role of
micro-cracks at the periphery of osteons. C.R. Mecanique 336, 354-362 (2008)
74. Lemaire, T., Capiez-Lernout, E., Kaiser, J., Naili, S., Rohan, E., Sansalone, V.: A multiscale
theoretical investigation of electric measurements in living bone. Piezo-electricity and
electrokinetics. Bull. Math. Biol. 73, 2649-2677 (2011)
75. Lemaire, T., Capiez-Lernout, E., Kaiser, J., Naili, S., Sansalone, V.: What is the importance
of
multiphysical
phenomena
in
bone
remodelling
signals
expression?
A
multiscale
perspective. J. Mech. Behav. Biomed. Mat. 4, 909-920 (2011b)
76. Lemaire, T., Kaiser, J., Naili, S., Sansalone, V.: Modelling of the transport in charged
porous media including ionic exchanges. Mech. Res. Commun. 37, 495-499 (2010a)
77. Lemaire, T., Kaiser, J., Sansalone, V., Rohan, E., Naili, S.: What is the nature of bone in
vivo electricity? Comput. Meth. Biomech. Biomed. Eng. 14, S143-S144 (2011c)
78. Lemaire, T., Lemonnier, S., Naili, S.: On the paradoxical determinations of the lacuno-
canalicular permeability of bone. Biomech. Model. Mechanobiol. 11, 933-946 (2012)
79. Lemaire, T., Moyne, C., Stemmelen, D.: Imbibition test in a clay powder (mx-80 bentonite).
Appl. Clay Sci. 26, 235-248 (2004)
80. Lemaire, T., Moyne, C., Stemmelen, D.: Modelling of electro-osmosis in clayey materials
including ph effects. Phys. Chem. Earth 32, 441-452 (2007)
81. Lemaire,
T.,
Moyne,
C.,
Stemmelen,
D.,
Murad,
M.A.:
Electro-chemo-mechanical
couplings
in
swelling
clays
derived
by
homogenization:
electroviscous
effects
and
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