Biomedical Engineering Reference
In-Depth Information
46. Krishnan R, Park S, Eckstein F, Ateshian GA (2003) Inhomogeneous cartilage properties
enhance superficial interstitial fluid support and frictional properties, but do not provide a
homogeneous state of stress. J Biomech Eng 125(5):569-577
47. Mizuno S, Tateishi T, Ushida T, Glowacki J (2002) Hydrostatic fluid pressure enhances
matrix synthesis and accumulation by bovine chondrocytes in three-dimensional culture.
J Cell Physiol 193(3):319-327
48. O'Connor KM (1997) Unweighting accelerates tidemark advancement in articular cartilage
at the knee joint of rats. J Bone Miner Res 12(4):580-589
49. Carter DR, Beaupre GS, Wong M, Smith RL, Andriacchi TP, Schurman DJ (2004) The
mechanobiology of articular cartilage development and degeneration. Clin Orthop Relat Res
427(suppl):S69-S77
50. Magnusson SP, Hansen P, Kjaer M (2003) Tendon properties in relation to muscular activity
and physical training. Scand J Med Sci Sports 13(4):211-223
51. Woo SL, Gomez MA, Woo YK, Akeson WH (1982) Mechanical properties of tendons and
ligaments. II. The relationships of immobilization and exercise on tissue remodeling.
Biorheology 19(3):397-408
52. Amiel D, Woo SL, Harwood FL, Akeson WH (1982) The effect of immobilization on
collagen turnover in connective tissue: a biochemical-biomechanical correlation. Acta
Orthop Scand 53(3):325-332
53. Walsh S, Frank C, Hart D (1992) Immobilization alters cell metabolism in an immature
ligament. Clin Orthop Relat Res 277:277-288
54. Woo SL, Gomez MA, Sites TJ, Newton PO, Orlando CA, Akeson WH (1987) The
biomechanical and morphological changes in the medial collateral ligament of the rabbit
after immobilization and remobilization. J Bone Joint Surg Am 69(8):1200-1211
55. Vogel KG, Koob TJ (1989) Structural specialization in tendons under compression. Int Rev
Cytol 115:267-293
56. Vogel KG, Ordog A, Pogany G, Olah J (1993) Proteoglycans in the compressed region of
human tibialis posterior tendon and in ligaments. J Orthop Res 11(1):68-77
57. Vogel KG, Sandy JD, Pogany G, Robbins JR (1994) Aggrecan in bovine tendon. Matrix Biol
14(2):171-179
58. Petersen W, Pufe T, Kurz B, Mentlein R, Tillmann B (2002) Angiogenesis in fetal tendon
development: spatial and temporal expression of the angiogenic peptide vascular endothelial
cell growth factor. Anat Embryol 205(4):263-270
59. Pufe T, Petersen W, Kurz B, Tsokos M, Tillmann B, Mentlein R (2003) Mechanical factors
influence the expression of endostatin—an inhibitor of angiogenesis—in tendons. J Orthop
Res 21(4):610-616
60. Thomopoulos S, Das R, Birman V, Smith L, Ku K, Elson E, Pryse KM, Marquez P, Genin
GM (2011) Fibrocartilage tissue engineering: the role of the stress environment on cell
morphology and matrix expression. Tissue Eng Part A 17(7-8):1039-1053
61. Carter DR, Beaupr
´
GS, Beaupre GS (2007) Skeletal function and form: mechanobiology of
skeletal development, aging, and regeneration. Cambridge University Press, Cambridge
62. Nowlan NC, Sharpe J, Roddy KA, Prendergast PJ, Murphy P (2010) Mechanobiology of
embryonic skeletal development: insights from animal models. Birth Defects Res C Embryo
Today 90(3):203-213
63. Osborne AC, Lamb KJ, Lewthwaite JC, Dowthwaite GP, Pitsillides AA (2002) Short-term
rigid and flaccid paralyses diminish growth of embryonic chick limbs and abrogate joint
cavity formation but differentially preserve pre-cavitated joints. J Musculoskelet Neuronal
Interact 2(5):448-456
64. Nowlan NC, Bourdon C, Dumas G, Tajbakhsh S, Prendergast PJ, Murphy P (2010) Developing
bones are differentially affected by compromised skeletal muscle formation. Bone 46
(5):1275-1285
Search WWH ::
Custom Search