Biomedical Engineering Reference
In-Depth Information
[69]
Buschmann J, L Härter, S Gao, S Hemmi, M Welti, N Hild, OD Schneider, WJ Stark, N
Lindenblatt and CML Werner (2012). Tissue engineered bone grafts based on biomimetic nano-
composite PLGA/amorphous calcium phosphate scaffold and human adipose-derived stem
cells. Injury 43:1689-1697.
[70]
Asefnejad A, A Behnamghader, MT Khorasani and B Farsadzadeh (2011). Polyurethane/fluor-
hydroxyapatite nanocomposite scaffolds for bone tissue engineering. Part I: morphological,
physical, and mechanical characterization. International Journal of Nanomedicine 6: 93.
[71]
Cannillo V, F Chiellini, P Fabbri and A Sola (2010). Production of Bioglass® 45S5 polycapro-
lactone composite scaffolds via salt-leaching. Composite Structures 92: 1823-1832.
[72]
Boccaccini AR, F Chicatun, J Cho, O Bretcanu, JA Roether, S Novak and QZ Chen (2007).
Carbon nanotube coatings on bioglass-based tissue engineering scaffolds. Advanced Functional
Materials 17: 2815-2822.
[73]
Petite H, V Viateau, W Bensaid, A Meunier, C de Pollak, M Bourguignon, K Oudina, L Sedel
and G Guillemin (2000). Tissue-engineered bone regeneration. Nature Biotechnology 18:
959-963.
[74]
Arcos D and M Vallet-Reg (2013). Bioceramics for drug delivery. Acta Materialia 61: 890-911.
[75]
Pompe T, K Salchert, K Alberti, P Zandstra and C Werner (2010). Immobilization of growth
factors on solid supports for the modulation of stem cell fate. Nature Protocols 5: 1042-1050.
[76]
King WJ and PH Krebsbach (2012). Growth factor delivery: How surface interactions modulate
release in vitro and in vivo. Advanced Drug Delivery Reviews 64: 1239-1256.
[77]
Sahoo S, LT Ang, JC-H Goh and S-L Toh (2010). Growth factor delivery through electrospun
nanofibers in scaffolds for tissue engineering applications. Journal of Biomedical Materials
Research Part A 93A: 1539-1550.
[78]
Woo KM, VJ Chen and PX Ma (2003). Nano-fibrous scaffolding architecture selectively
enhances protein adsorption contributing to cell attachment. Journal of Biomedical Materials
Research A 67: 531-537.
[79]
Chew SY, J Wen, EKF Yim and KW Leong (2005). Sustained release of proteins from electros-
pun biodegradable fibers. Biomacromolecules 6: 2017-2024.
[80]
Casper CL, W Yang, MC Farach-Carson and JF Rabolt (2007). Coating electrospun collagen
and gelatin fibers with perlecan domain I for increased growth factor binding. Biomacromolecules
8: 1116-1123.
[81]
Luu YK, K Kim, BS Hsiao, B Chu and M Hadjiargyrou (2003). Development of a nanostruc-
tured DNA delivery scaffold via electrospinning of PLGA and PLA-PEG block copolymers.
Journal of Controlled Release 89: 341-353.
[82]
Yoo HS, TG Kim and TG Park (2009). Surface-functionalized electrospun nanofibers for tissue
engineering and drug delivery. Advanced Drug Delivery Reviews 61: 1033-1042.
[83]
Xie J, SM Willerth, X Li, MR Macewan, A Rader, SE Sakiyama-Elbert and Y Xia (2009). The
differentiation of embryonic stem cells seeded on electrospun nanofibers into neural lineages.
Biomaterials 30: 354-362.
[84]
Teh TKH, S-L Toh and JCH Goh (2011). Aligned hybrid silk scaffold for enhanced differentiation
of mesenchymal stem cells into ligament fibroblasts. Tissue Engineering Part C: Methods 17:
687-703.
[85]
Jiang X, HQ Cao, LY Shi, SY Ng, LW Stanton and SY Chew (2012). Nanofiber topography and
sustained biochemical signaling enhance human mesenchymal stem cell neural commitment.
Acta Biomaterialia 8: 1290-1302.
[86]
Dang JM and KW Leong (2007). Myogenic induction of aligned mesenchymal stem cell sheets
by culture on thermally responsive electrospun nanofibers. Advanced Materials 19: 2775-2779.
[87]
Place ES, ND Evans and MM Stevens (2009). Complexity in biomaterials for tissue engineering.
Nature Materials 8: 457-470.
[88]
Zeugolis DI, ST Khew, ES Yew, AK Ekaputra, YW Tong, LY Yung, DW Hutmacher, C
Sheppard and M Raghunath (2008). Electro-spinning of pure collagen nano-fibres - just an
expensive way to make gelatin? Biomaterials 29: 2293-305.
[89]
Schnell E, K Klinkhammer, S Balzer, G Brook, D Klee, P Dalton and Jr Mey (2007). Guidance
of glial cell migration and axonal growth on electrospun nanofibers of poly-ε-caprolactone and
a collagen/poly-ε-caprolactone blend. Biomaterials 28: 3012-3025.
