Cowin, S. C. Bone poroelasticity. J. Biomech. 32:217–238, 1999.
Fernandez-Seara, M. A., S. L. Wehrli, and F. W. Wehrli. Diffusion of exchangeable water in cortical bone studied by nuclear magnetic resonance. Biophys. J. 82:522–529, 2002.
Holmes, J. M., D. H. Davies, W. J. Meath, and R. A. Beebe. Gas adsorption and surface structure of bone mineral. Biochemistry 19:2019–2024, 1964.
Kamioka, H., T. Honjo, and T. Takano-Yamamoto. A three-dimensional distribution of osteocyte processes revealed by the combination of confocal laser scanning microscopy and differential interference contrast microscopy. Bone 28:145–149, 2001.
Knothe Tate, M. L. Interstitial fluid flow. In: Bone Mechanics Handbook: Flow of fluids in bone, edited by S. C. Cowin. CRC Press, 2001, 22, pp. 1–29.
Knothe Tate, M. L. Whither flows the fluid in bone? An osteocyte’s perspective. J. Biomech. 36:1409–1424, 2003.
Knothe Tate, M. L., and U. Knothe. An ex vivo model to study transport processes and fluid flow in loaded bone. J. Biomech. 33:247–254, 2000.
Knothe Tate, M. L., and P. Niederer. Theoretical FE-based model developed to predict the relative contribution of convective and diffusive transport mechanisms for the maintenance of local equilibria within cortical bone. Adv. Heat. Mass. Transf. Biotech. Trans. HTD-Vol 362/BED-Vol 40 edited by S. Clegg ASME. 133–142, 1998.
Knothe Tate, M. L., P. Niederer, and U. Knothe. In vivo tracer transport through the lacunocanalicular system of rat bone in an environment devoid of mechanical loading. Bone 2:107–117, 1998.
Knothe Tate, M. L., R. Steck, M. R. Forwood, and P. Niederer. 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, 2000.
Knothe Tate, M. L., A. E. Tami, T. W. Bauer, and U. Knothe. Micropathoanatomy of osteoporosis: Indications for a cellular basis of bone disease. Adv. Osteopor. Frac. Man. 2:9–14, 2002.
Marotti, G., M. Ferretti, M. A. Muglia, C. Palumbo, and S. Palazzini. A quantitative evaluation of osteoblast-osteocyte relationships on growing endosteal surface of rabbit tibiae. Bone 13:363–368, 1992.
Meyers, J. J., and A. I. Liapis. Network modeling of the intraparticle convection and diffusion of molecules in porous particles packed in a chromatographic column. J. Chromat. 827:197–213, 1998.
Mishra, S., and M. L. Knothe Tate. Effect of lacunocanalicular architecture on hydraulic conductance in bone tissue: Implications for bone health and evolution. Anat. Rec. 273A:752–762, 2003.
Morris, M. A., J. A. Lopez-Curto, S. P. Hughes, K. N. An, J. B. Bassingthwaighte, and P. J. Kelly. Fluid spaces in canine bone and marrow. Microvasc. Res. 23:188–200, 1982.
Neuman, W. F., and M. W. Neuman. The Chemical Dynamics of Bone. University of Chicago Press, 1958.
Neuman, W. F., T. Y. Toribara, and B. J. Mulvran. The surface chemistry of bone. VII The hydration shell. J. Am. Chem. Soc. 75:4239–4242, 1953.
Oliver, J. D., III, S. Anderson, J. L. Troy, B. M. Brenner, and W. H. Deen. Determination of glomerular size-selectivity in the normal rat with Ficoll. J. Am. Soc. Nephr. 3:214–228, 1992.
Oliver, J. D., III, and W. M. Deen. Random-coil model for glomerular sieving of dextran. Bull. Math. Biol. 56:369–389, 1994.
Power, J., N. Loveridge, N. Rushton, M. Parker, and J. Reeve. Osteocyte density in aging subjects is enhanced in bone adjacent to remodeling haversian systems. Bone 30:859–865, 2002.
Qin, Y. X., T. Kaplan, A. Saldanha, and C. Rubin. Fluid pressure gradients, arising from oscillations in intramedullary pressure, is correlated with the formation of bone and inhibition of intracortical porosity. J. Biomech. 36:1427–1437, 2003.
Qin, Y. X., K. J. Mcleod, M. W. Otter, and C. T. Rubin. The interdependent role of loading frequency, intracortical fluid pressure and pressure gradients in guiding site-specific bone adaptation. Trans. 44th Ann. Meetors. 544, p. 1998.
Robinson, R. A. Observations regarding compartments for tracer calcium in the body. In: Bone Biodynamics, edited by H. M. Frost. London: Churchill Publishers, 1964, pp. 423–439.
Saltzman, W. M., and R. Langer. Transport rates of proteins in porous materials with known microgeometry. Biophys. J. 55:163–171, 1989.
Stauffer, D., and A. Aharony. Introduction to Percolation Theory. Taylor & Francis Ltd, 1994.
Tami, A. E., M. B. Schaffler, and M. L. Knothe Tate. Probing the tissue to subcellular level structure underlying bone’s molecular sieving function. Biorheology 40:577–590, 2003.
Vashishth, D., O. Verborgt, G. Divine, M. B. Schaffler, and D. P. Fyhrie. Decline in osteocyte lacunar density in human cortical bone is associated with accumulation of microcracks with age. Bone 26:375–380, 2000.
Yuan, F., A. Krol, and S. Tong. Available space and extracellular transport of macromolecules: Effects of pore size and connectedness. Ann. Biomed. Eng. 29:1150–1158, 2001.
Anderson, E. J., S. Kaliyamoorthy, J. I. D. Alexander, and M. L. Knothe Tate. Nano-microscale models of periosteocytic flow show differences in stress imported to cell body and processes. Ann. Biomed. Eng. 2005.
RetroSearch is an open source project built by @garambo | Open a GitHub Issue
Search and Browse the WWW like it's 1997 | Search results from DuckDuckGo
HTML:
3.2
| Encoding:
UTF-8
| Version:
0.7.4