Biomedical Engineering Reference
In-Depth Information
Bagnaninchi, PO.; Yang, Y.; Zghoul, N.; Maffulli, N.; Wang, RK. & Haj, AJ. (2007). Chitosan
microchannel scaffolds for tendon tissue engineering characterized using optical
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Cartmell, JS. & Dunn MG. (Jan 2000). Effect of chemical treatments on tendon cellularity and
mechanical properties. J Biomed Mater Res; 49:134-40
Harrison, RD. & Gratzer, PF. (Dec 2005). Effect of extraction protocols and epidermal
growth factor on the cellular repopulation of decellularized anterior cruciate
ligament allografts. J Biomed Mater Res A. 75:841-54.
Woods, T. & Gratzer, PF. (Dec 2005). Effectiveness of three extraction techniques in the
development of a decellularized bone-anterior cruciate ligament-bone graft.
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Ingram, JH.; Korossis, S.; Howling, G.; Fisher, J. & Ingham, E. (Jul 2007). The use of
ultrasonication to aid recellularization of acellular natural tissue scaffolds for use in
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Deeken, CR.; White, AK.; Bachman, SL.; Ramshaw, BJ.; Clevel, DS.; Loy, TS. & Grant, SA.
(Feb 2011). Method of preparing a decellularized porcine tendon using tributyl
phosphate. J Biomed Mater Res B Appl Biomater; 96:199-206
Doroski, DM.; Brink, KS. & Johnna, S. (2007). Techniques for biological characterization of
tissue-engineered tendon and ligament. Biomaterials; 28:187-202
Li. F; Li, B.; Wang, QM. & Wang, JH. (2008). Cell shape regulates collagen type I expression
in human tendon fibroblasts. Cell Motil Cytoskeleton; 31:1-10.
Yao, L.; Bestwick, CS.; Bestwick, LA.; Maffulli, N. & Aspden, RM. (2006). Phenotipic drift in
human tenocyte culture. Tissue Eng; 12:1843-9.
Cao, D.; Liu, W.; Wei, X.; Xu, F.; Cui, L. & Cao, Y. (2006). In vitro tendon engineering with
avian tenocytes and poliglicolic acids: A preliminary report. Tissue Eng; 12:1369-77.
Awad, HA.; Butler, DL.; Harris, MT.; Ibrahim, RE.; Wu, Y.; Young, RG.; Kadiyala, S. &
Boivin, GP. (2000). In vitro characterization of mesencymal stem cell-seeded
collagen scaffolds for tendon repair: Effects of initial seeding density on contraction
kinetics. J Biomed Mater Res; 51:233-40
Gao, J. & Caplan, AI. (2003). Mesenchymal stem cells and tissue engineering for orthopaedic
surgery. Chir Organi Mov; 88:305-316
Alhadlaq, A. & Mao, JJ. (2004). Mesenchymal stem cells: isolation therapeutics. Stem Cells
Dev; 13:436-448.
Bosnakovski, D.; Mizuno, M.; Kim, G.; Takagi, S.; Okumura, M. & Fujinaga, T. (2005).
Isolation and multilineage differentiation of bovine bone marrow mesenchymal
stem cells. Cell Tissue Res; 319:243-253.
Grove, JE.; Bruscia, E. & Krause, DS. (2004). Plasticity of bone marrow-derived stem cells.
Stem Cells; 22:487-500.
Ge, Z.; Gohm, J. & Lee, E. (2005) Selection of cell source for ligament tissue engineering. Cell
Transplant; 14:573-83
Lee, RH.; Kim, B.; Choi, I.; Kim, H.; Choi, HS.; Suh, K.; Bae, YC. & Jung, JS. (2004).
Characterization and expression analysis of mesenchymal stem cells from human
bone marrow and adipose tissue. Cell Physiol Biochem; 14:311-324.
Lee, JA.; Parrett, BM.; Conejero, JA.; Laser, J.; Chen, J.; Kogon, AJ.; Nanda, D.; Grant, RT. &
Breitbart, AS. (2003). Biological alchemy: engineering bone and fat from fat-derived
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