Biomedical Engineering Reference
In-Depth Information
65. Brent AE, Braun T, Tabin CJ (2005) Genetic analysis of interactions between the somitic
muscle, cartilage and tendon cell lineages during mouse development. Development 132
66. Sharir A, Stern T, Rot C, Shahar R, Zelzer E (2011) Muscle force regulates bone shaping for
optimal load-bearing capacity during embryogenesis. Development 138(15):3247-3259
67. Mikic B, Johnson TL, Chhabra AB, Schalet BJ, Wong M, Hunziker EB (2000) Differential
effects of embryonic immobilization on the development of fibrocartilaginous skeletal
elements. J Rehabil Res Dev 37(2):127-133
68. Gomez C, David V, Peet NM, Vico L, Chenu C, Malaval L, Skerry TM (2007) Absence of
mechanical loading in utero influences bone mass and architecture but not innervation in
Myod-Myf5-deficient mice. J Anat 210(3):259-271
69. Kahn J, Shwartz Y, Blitz E, Krief S, Sharir A, Breitel DA, Rattenbach R, Relaix F, Maire P,
Rountree RB, Kingsley DM, Zelzer E (2009) Muscle contraction is necessary to maintain
joint progenitor cell fate. Dev Cell 16(5):734-743
70. Kardon G (1998) Muscle and tendon morphogenesis in the avian hind limb. Development
71. Germiller JA, Goldstein SA (1997) Structure and function of embryonic growth plate in the
absence of functioning skeletal muscle. J Orthop Res 15(3):362-370
72. Pacifici M, Koyama E, Iwamoto M (2005) Mechanisms of synovial joint and articular
cartilage formation: recent advances, but many lingering mysteries. Birth Defects Res C
Embryo Today 75(3):237-248
73. Mikic B, Isenstein AL, Chhabra A (2004) Mechanical modulation of cartilage structure and
function during embryogenesis in the chick. Ann Biomed Eng 32(1):18-25
74. Reich A, Jaffe N, Tong A, Lavelin I, Genina O, Pines M, Sklan D, Nussinovitch A,
Monsonego-Ornan E (2005) Weight loading young chicks inhibits bone elongation and
promotes growth plate ossification and vascularization. J Appl Physiol 98(6):2381-2389
75. Reich A, Sharir A, Zelzer E, Hacker L, Monsonego-Ornan E, Shahar R (2008) The effect of
weight loading and subsequent release from loading on the postnatal skeleton. Bone 43
76. Stokes IA, Aronsson DD, Dimock AN, Cortright V, Beck S (2006) Endochondral growth in
growth plates of three species at two anatomical locations modulated by mechanical com-
pression and tension. J Orthop Res 24(6):1327-1334
77. Stokes IA, Clark KC, Farnum CE, Aronsson DD (2007) Alterations in the growth plate
associated with growth modulation by sustained compression or distraction. Bone 41
78. Henderson JH, Carter DR (2002) Mechanical induction in limb morphogenesis: the role of
growth-generated strains and pressures. Bone 31(6):645-653
79. Ingber DE (2008) Tensegrity and mechanotransduction. J Bodyw Mov Ther 12(3):198-200
80. Wang JH (2006) Mechanobiology of tendon. J Biomech 39(9):1563-1582
81. St-Jacques B, Hammerschmidt M, McMahon AP (1999) Indian hedgehog signaling regulates
proliferation and differentiation of chondrocytes and is essential for bone formation. Genes
Dev 13(16):2072-2086
82. Vortkamp A, Lee K, Lanske B, Segre GV, Kronenberg HM, Tabin CJ (1996) Regulation of
rate of cartilage differentiation by Indian hedgehog and PTH-related protein. Science 273
83. Broadus AE, Macica C, Chen X (2007) The PTHrP functional domain is at the gates of
endochondral bones. Ann N Y Acad Sci 1116:65-81
84. Huang W, Chung UI, Kronenberg HM, de Crombrugghe B (2001) The chondrogenic
transcription factor Sox9 is a target of signaling by the parathyroid hormone-related peptide
in the growth plate of endochondral bones. Proc Natl Acad Sci U S A 98(1):160-165
85. Akiyama H, Chaboissier MC, Martin JF, Schedl A, de Crombrugghe B (2002) The transcription
factor Sox9 has essential roles in successive steps of the chondrocyte differentiation pathway
and is required for expression of Sox5 and Sox6. Genes Dev 16(21):2813-2828
Search WWH ::

Custom Search