Biomedical Engineering Reference
In-Depth Information
23. Kotha, S.P., Hsieh, Y.-F., Strigel, R.M., Muller, R., Silva, M.J.: Experimental and finite
element analysis of the rat ulnar loading model—correlations between strain and bone
formation following fatigue loading. J. Biomech. 37, 541-548 (2004)
24. Silva, M.J., Brodt, M.D., Hucker, W.J.: Finite element analysis of the mouse tibia: estimating
endocortical strain during three-point bending in SAMP6 osteoporotic mice. Anat. Rec.
A. Discov. Mol. Cell. Evol. Biol. 283A, 380-390 (2005)
25. Mosley, J.R., March, B.M., Lynch, J., Lanyon, L.E.: Strain magnitude related changes in
whole bone architecture in growing rats. Bone 20, 191-198 (1997)
26. Rabkin, B.A., Szivek, J.A., Schonfeld, J.E., Halloran, B.P.: Long-term measurement of bone
strain in vivo: the rat tibia. J. Biomed. Mater. Res. 58, 277-281 (2001)
27. Indrekvam, K., Husby, O.S., Gjerdet, N.R., Engester, L.B., Langeland, N.: Age-dependent
mechanical properties of rat femur. Measured in vivo and in vitro. Acta Orthop. Scand. 62,
248-252 (1991)
28. Keller, T.S., Spengler, D.M.: Regulation of bone stress and strain in the immature and mature
rat femur. J. Biomech. 22, 1115-1127 (1989)
29. Raab, D.M., Smith, E.L., Crenshaw, T.D., Thomas, D.P.: Bone mechanical properties after
exercise training in young and old rats. J. Appl. Physiol. 68, 130-134 (1990)
30. Leppanen, O.V., Sievanen, H., Jokihaara, J., Pajamaki, I., Kannus, P., Jarvinen, T.L.:
Pathogenesis of age-related osteoporosis: impaired mechano-responsiveness of bone is not
the culprit. PLoS ONE 3, e2540 (2008)
31. Bennell, K.L., Khan, K.M., Warmington, S., Forwood, M.R., Coleman, B.D., Bennett, M.B.,
et al.: Age does not influence the bone response to treadmill exercise in female rats. Med. Sci.
Sports Exerc. 34, 1958-1965 (2002)
32. Umemura, Y., Ishiko, T., Tsujimoto, H., Miura, H., Mokushi, N., Suzuki, H.: Effects of jump
training on bone hypertrophy in young and old rats. Int. J. Sports Med. 16, 364-367 (1995)
33. Jarvinen, T.L., Pajamaki, I., Sievanen, H., Vuohelainen, T., Tuukkanen, J., Jarvinen, M.,
et al.: Femoral neck response to exercise and subsequent deconditioning in young and adult
rats. J. Bone Miner. Res. 18, 1292-1299 (2003)
34. Hoshi, A., Watanabe, H., Chiba, M., Inaba, Y.: Effects of exercise at different ages on bone
density and mechanical properties of femoral bone of aged mice. Tohoku J. Exp. Med. 185,
15-24 (1998)
35. Buhl, K.M., Jacobs, C.R., Turner, R.T., Evans, G.L., Farrell, P.A., Donahue, H.J.: Aged bone
displays an increased responsiveness to low-intensity resistance exercise. J. Appl. Physiol.
90, 1359-1364 (2001)
36. Honda, A., Sogo, N., Nagasawa, S., Kato, T., Umemura, Y.: Bones benefits gained by jump
training are preserved after detraining in young and adult rats. J. Appl. Physiol. 105, 849-853
(2008)
37. Rubin, C.T., Lanyon, L.E.: Regulation of bone formation by applied dynamic loads. J. Bone
Jt. Surg. [Am] 66, 397-402 (1984)
38. Lanyon, L.E., Rubin, C.T.: Static vs dynamic loads as an influence on bone remodelling.
J. Biomech. 17, 897-905 (1984)
39. Chambers, T.J., Evans, M., Gardner, T.N.: Turner- Smith A, Chow JWM. Induction of bone
formation in rat tail vertebrae by mechanical loading. Bone Miner. 20, 167-178 (1993)
40. Kroeber M, Unglaub F, Guehring T, Nerlich A, Hadi T, Lotz J, et al.: Effects of controlled
dynamic disc distraction on degenerated intervertebral discs: an in vivo study on the rabbit
lumbar spine model. Spine (Phila Pa 1976) 2005; 30:181-187
41. Rubin, C.T., Bain, S.D., McCleod, K.J.: Suppression of osteogenic response in the aging
skeleton. Calcif. Tiss. Int. 50, 306-313 (1992)
42. Turner, C.H., Akhter, M.P., Raab, D.M., Kimmel, D.B., Recker, R.R.: A noninvasive, in vivo
model for studying strain adaptive bone modeling. Bone 12, 73-79 (1991)
43. Akhter, M.P., Cullen, D.M., Pedersen, E.A., Kimmel, D.B., Recker, R.R.: Bone response to
in vivo mechanical loading in two breeds of mice. Calcif. Tiss. Int. 63, 442-449 (1998)
44. Turner, C.H., Forwood, M.R., Rho, J.Y., Yoshikawa, T.: Mechanical loading thresholds for
lamellar and woven bone formation. J. Bone Min. Res. 9, 87-97 (1994)
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