Biomedical Engineering Reference
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86. Wu Q, Zhang Y, Chen Q (2001) Indian hedgehog is an essential component of
mechanotransduction complex to stimulate chondrocyte proliferation. J Biol Chem 276
87. Chen X, Macica C, Nasiri A, Judex S, Broadus AE (2007) Mechanical regulation of PTHrP
expression in entheses. Bone 41(5):752-759
88. Shen G (2005) The role of type X collagen in facilitating and regulating endochondral
ossification of articular cartilage. Orthod Craniofac Res 8(1):11-17
89. Wu QQ, Chen Q (2000) Mechanoregulation of chondrocyte proliferation, maturation, and
hypertrophy: ion-channel dependent transduction of matrix deformation signals. Exp Cell
Res 256(2):383-391
90. Villemure I, Chung MA, Seck CS, Kimm MH, Matyas JR, Duncan NA (2005) Static
compressive loading reduces the mRNA expression of type II and X collagen in rat
growth-plate chondrocytes during postnatal growth. Connect Tissue Res 46(4-5):211-219
91. Cancel M, Grimard G, Thuillard-Crisinel D, Moldovan F, Villemure I (2009) Effects of
in vivo static compressive loading on aggrecan and type II and X collagens in the rat growth
plate extracellular matrix. Bone 44(2):306-315
92. Cserjesi P, Brown D, Ligon KL, Lyons GE, Copeland NG, Gilbert DJ, Jenkins NA, Olson EN
(1995) Scleraxis: a basic helix-loop-helix protein that prefigures skeletal formation during
mouse embryogenesis. Development 121(4):1099-1110
93. Schweitzer R, Chyung JH, Murtaugh LC, Brent AE, Rosen V, Olson EN, Lassar A, Tabin CJ
(2001) Analysis of the tendon cell fate using Scleraxis, a specific marker for tendons and
ligaments. Development 128(19):3855-3866
94. Brent AE, Schweitzer R, Tabin CJ (2003) A somitic compartment of tendon progenitors. Cell
95. Murchison ND, Price BA, Conner DA, Keene DR, Olson EN, Tabin CJ, Schweitzer R (2007)
Regulation of tendon differentiation by scleraxis distinguishes force-transmitting tendons
from muscle-anchoring tendons. Development 134(14):2697-2708
96. Scott A, Danielson P, Abraham T, Fong G, Sampaio AV, Underhill TM (2011) Mechanical
force modulates scleraxis expression in bioartificial tendons. J Musculoskelet Neuronal
Interact 11(2):124-132
97. Maeda T, Sakabe T, Sunaga A, Sakai K, Rivera AL, Keene DR, Sasaki T, Stavnezer E,
Iannotti J, Schweitzer R, Ilic D, Baskaran H, Sakai T (2011) Conversion of mechanical force
into TGF-beta-mediated biochemical signals. Curr Biol 21(11):933-941
98. Mendias CL, Gumucio JP, Bakhurin KI, Lynch EB, Brooks SV (2012) Physiological loading
of tendons induces scleraxis expression in epitenon fibroblasts. J Orthop Res 30(4):606-612
99. Stains JP, Civitelli R (2005) Cell-to-cell interactions in bone. Biochem Biophys Res Commun
100. Stains JP, Civitelli R (2005) Cell-cell interactions in regulating osteogenesis and osteoblast
function. Birth Defects Res C Embryo Today 75(1):72-80
101. Banes AJ, Horesovsky G, Larson C, Tsuzaki M, Judex S, Archambault J, Zernicke R, Herzog
W, Kelley S, Miller L (1999) Mechanical load stimulates expression of novel genes in vivo
and in vitro in avian flexor tendon cells. Osteoarthritis Cartilage 7(1):141-153
102. Waggett AD, Benjamin M, Ralphs JR (2006) Connexin 32 and 43 gap junctions differentially
modulate tenocyte response to cyclic mechanical load. Eur J Cell Biol 85(11):1145-1154
103. Grimston SK, Brodt MD, Silva MJ, Civitelli R (2008) Attenuated response to in vivo
mechanical loading in mice with conditional osteoblast ablation of the connexin43 gene
(Gja1). J Bone Miner Res 23(6):879-886
104. Grimston SK, Goldberg DB, Watkins M, Brodt MD, Silva MJ, Civitelli R (2011) Connexin43
deficiency reduces the sensitivity of cortical bone to the effects of muscle paralysis. J Bone
Miner Res 26(9):2151-2160
105. Grimston SK, Screen J, Haskell JH, Chung DJ, Brodt MD, Silva MJ, Civitelli R (2006) Role
of connexin43 in osteoblast response to physical load. Ann N Y Acad Sci 1068:214-224
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