Biomedical Engineering Reference
In-Depth Information
11. Mori S, Harruff R, Burr DB (1993) Microcracks in articular calcified cartilage of human
femoral heads. Arch Pathol Lab Med 117(2):196-198
12. Oegema TR Jr, Carpenter RJ, Hofmeister F, Thompson RC Jr (1997) The interaction of the
zone of calcified cartilage and subchondral bone in osteoarthritis. Microsc Res Tech 37
(4):324-332
13. Poole AR, Kojima T, Yasuda T, Mwale F, Kobayashi M, Laverty S (2001) Composition and
structure of articular cartilage: a template for tissue repair. Clin Orthop Relat Res (391
Suppl):S26-33.
14. Cohen NP, Foster RJ, Mow VC (1998) Composition and dynamics of articular cartilage:
structure, function, and maintaining healthy state. J Orthop Sports Phys Ther 28(4):203-215
15. Pape D, Filardo G, Kon E, van Dijk CN, Madry H (2010) Disease-specific clinical problems
associated with the subchondral bone. Knee Surg Sports Traumatol Arthrosc 18(4):448-462
16. Burr DB, Radin EL (2003) Microfractures and microcracks in subchondral bone: are they
relevant to osteoarthrosis? Rheum Dis Clin North Am 29(4):675-685
17. Cooper RR, Misol S (1970) Tendon and ligament insertion. A light and electron microscopic
study. J Bone Joint Surg Am 52(1):1-20
18. Benjamin M, Evans EJ, Copp L (1986) The histology of tendon attachments to bone in man.
J Anat 149:89-100
19. Thomopoulos S, Williams GR, Gimbel JA, Favata M, Soslowsky LJ (2003) Variation of
biomechanical, structural, and compositional properties along the tendon to bone insertion
site. J Orthop Res 21(3):413-419
20. Sagarriga Visconti C, Kavalkovich K, Wu J, Niyibizi C (1996) Biochemical analysis of
collagens at the ligament-bone interface reveals presence of cartilage-specific collagens.
Arch Biochem Biophys 328(1):135-142
21. Galatz LM, Ball CM, Teefey SA, Middleton WD, Yamaguchi K (2004) The outcome and
repair integrity of completely arthroscopically repaired large and massive rotator cuff tears.
J Bone Joint Surg Am 86-A(2):219-224
22. Jiang J, Nicoll SB, Lu HH (2005) Co-culture of osteoblasts and chondrocytes modulates
cellular differentiation
in vitro
. Biochem Biophys Res Commun 338(2):762-770
23. Wang IE, Shan J, Choi R, Oh S, Kepler CK, Chen FH, Lu HH (2007) Role of osteoblast-
fibroblast interactions in the formation of the ligament-to-bone interface. J Orthop Res 25
(12):1609-1620
24. Jiang J, Tang A, Ateshian GA, Guo XE, Hung CT, Lu HH (2010) Bioactive stratified polymer
ceramic-hydrogel scaffold for integrative osteochondral repair. Ann Biomed Eng 38
(6):2183-2196
25. Cheng HW, Luk KD, Cheung KM, Chan BP (2011)
In vitro
generation of an osteochondral
interface
from mesenchymal
stem cell-collagen microspheres. Biomaterials
32
(6):1526-1535
26. DeLong SA, Moon JJ, West JL (2005) Covalently immobilized gradients of bFGF on
hydrogel scaffolds for directed cell migration. Biomaterials 26(16):3227-3234
27. Barkefors I, Le Jan S, Jakobsson L, Hejll E, Carlson G, Johansson H, Jarvius J, Park JW, Li
Jeon N, Kreuger J (2008) Endothelial cell migration in stable gradients of vascular endothe-
lial growth factor A and fibroblast growth factor 2: effects on chemotaxis and chemokinesis.
J Biol Chem 283(20):13905-13912
28. Mano JF, Reis RL (2007) Osteochondral defects: present situation and tissue engineering
approaches. J Tissue Eng Regen Med 1(4):261-273
29. Schaefer D, Martin I, Shastri P, Padera RF, Langer R, Freed LE, Vunjak-Novakovic G (2000)
In vitro
generation of osteochondral composites. Biomaterials 21(24):2599-2606
30. Place ES, Evans ND, Stevens MM (2009) Complexity in biomaterials for tissue engineering.
Nat Mater 8(6):457-470
31. Malafaya PB, Reis RL (2009) Bilayered chitosan-based scaffolds for osteochondral tissue
engineering: influence of hydroxyapatite on
in vitro
cytotoxicity and dynamic bioactivity
studies in a specific double-chamber bioreactor. Acta Biomater 5(2):644-660
Search WWH ::
Custom Search