Biomedical Engineering Reference
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104. Nagatomi, J., Arulanandam, B.P., Metzger, D.W., Meunier, A., Bizios, R.: Frequency- and
duration-dependent effects of cyclic pressure on select bone cell functions. Tissue Eng. 7,
717-728 (2001)
105. Nagatomi, J., Arulanandam, B.P., Metzger, D.W., Meunier, A., Bizios, R.: Effects of cyclic
pressure on bone marrow cell cultures. J. Biomech. Eng. 124, 308-314 (2002)
106. M. Nakamura, R. Hiratai, and K. Yamashita. Bone mineral as an electrical energy reservoir.
J. Biomed. Mater. Res. A, 100A: 1368-1374, 2012.
107. Nakamura, S., Kobayashi, T., Nakamura, M., Yamashita, K.: Enhanced in vivo responses of
osteoblasts in electrostatically activated zones by hydroxyapatite electrets. J. Mater. Sci.
Mater. M. 20, 99-103 (2009)
108. Nguyen, V.-H., Lemaire, T., Naili, S.: Anisotropic poroelastic hollow cylinders with
damaged periphery under harminically axial loading: relevance to bone remodelling.
Multidisc. Model. Mater. Struct. 5, 205-222 (2009)
109. Nguyen, V.-H., Lemaire, T., Naili, S.: Poroelastic behaviour of cortical bone under
harmonic axial loading: theoretical study at the osteonal tissue scale. Med. Eng. Phys. 32,
384-390 (2010)
110. Nguyen, V.-H., Lemaire, T., Naili, S.: Influence of interstitial bone micro-cracks on strain-
induced fluid flow. Biomech. Model. Mechanobiol. 10, 963-972 (2011)
111. Noble, B.: Bone microdamage and cell apoptotsis. Europ. Cells Mater. 6, 46-56 (2003)
112. Noris-Suárez, K., Lira-Olivares, J., Ferreira, A.M., Feijoo, J.L., Suárez, N., Hernández,
M.C., Barrios, E.: In vitro deposition of hydroxyapatite on cortical bone collagen stimulated
by deformation-induced piezoelectricity. Biomacromolecules 8, 941-948 (2007)
113. Norman, T.L., Wang, Z.: Microdamage of human cortical bone: incidence and morphology
in long bones. Bone 20, 375-379 (1997)
114. O'Brien, F.J., Taylor, D., Dickson, G.R., Lee, T.C.: Visualisation of three-dimensional
micro-cracks in compact bone. J. Ana. 197, 413-420 (2000)
115. C. Oddou, T. Lemaire, J. Pierre, and B. David. Hydrodynamics in porous media with
applications to tissue engineering. In K. Vafai, editor, Porous media: applications in
biological systems and biotechnology, pages 75-119. CRC Press, 2011.
116. Otter, M., Shoenung, J., Williams, W.S: Evidence for different sources of stress-generated
potentials in wet and dry bone. J. orthop. Res. 3, 321-324 (1985)
117. Otter, M.W., Palmieri, V.R., Wu, D.D., Seiz, K.G., MacGinitie, L.A., Cochran, G.V.B: A
comparative analysis of streaming potentials in vivo and in vitro. J. Orthop. Res. 10, 710-
719 (1992)
118. Oyen, M.L: Poroelastic nanoindentation responses of hydrated bone. J. Mater. Res. 23,
1307-1314 (2008)
119. Petrov, N., Pollack, S.R: Comparative analysis of diffusive and stress induced nutrient
transport efficiency in the lacunar-canalicular system of osteons. Biorheology 40, 347-353
(2003)
120. Piccolino, M.: Animal electricity and the birth of electrophysiology: the legacy of luigi
galvani. Brain Res. Bull. 46, 381-407 (1998)
121. Piekarski, K., Munro, M.: Transport mechanism operating between blood supply and
osteocytes in long bones. Nature 269, 80-82 (1977)
122. Plecis, A., Schoch, R.B., Renaud, P.: Ionic transport phenomena in nanofluidics:
experimental and theoretical study of the exclusion-enrichment effect on a chip. Nano
Lett. 5, 1147-1155 (2005)
123. Pollack, S.R., Petrov, N., Salzstein, R., Brankov, G., Blagoeva, R.: An anatomical model for
streaming potentials in osteons. J. Biomech. 17, 627-636 (1984)
124. Price, C., Zhou, X., Li, W., Wang, L.: Real-time measurement of solute transport within the
lacunar-canalicular system of mechanically loaded bone: direct evidence for load-induced
fluid flow. J. Bone Miner. Res. 26, 277-285 (2011)
125. Qing, H., Ardeshirpour, L., Divieti Pajevic, P., Dusevich, V., Jähn, K., Kato, S.,
Wysolmerski, J., Bonewald, L.F: Demonstration of osteocytic perilacunar/canalicular
remodeling in mice during lactation. J. Bone Miner. Res. 27, 1018-1029 (2012)
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