Biomedical Engineering Reference
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58. Grimston SK, Brodt MD, Silva MJ et al (2008) Attenuated response to in vivo mechanical
loading in mice with conditional osteoblast ablation of the connexin 43 gene (GJA1). J Bone
Miner Res 23(6):879-886
59. Goodship AE, Kenwright J (1985) The influence of induced micromovement upon the healing
of experimental tibial fractures. J Bone Jt Surg 67(4):650-655
60. Kenwright J, Goodship AE (1989) Controlled mechanical stimulation in the treatment of tibial
fractures. Clin Orthop Relat Res 241:36-47
61. Rubin C, Judex S, Qin YX (2006) Low-level mechanical signals and their potential as a non-
pharmacological intervention for osteoporosis. Age Ageing 35(S2):32-36
62. Augat P, Merk J, Wolf S et al (2001) Mechanical stimulation by external application of cyclic
tensile strains does not effectively enhance bone healing. J Orthop Trauma 15(1):54-60
63. Hente R, Fuchtmeier B, Schlegel U et al (2004) The influence of cyclic compression and
distraction on the healing of experimental tibial fractures. J Orthop Res 22(4):709-715
64. Wang X, Nyman JS, Dong X et al (2010) Fundamental biomechanics in bone tissue engineer-
ing. doi:
10.2200/S00246ED1V01Y200912TIS004
65. Krawetz R, Cormier J, Wu Y et al (2011) Collagen I scaffolds cross-linked with beta-glycerol
phosphate induce osteogenic differentiation of embryonic stem cells in vitro and regulates
their tumorigenic potential in vivo. Tissue Eng, Part A. doi:
10.1089/ten.TEA.2011.0174
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