Biomedical Engineering Reference
In-Depth Information
[50]
Tian H, Z Tang, X Zhuang, X Chen and X Jing (2012). Biodegradable synthetic polymers:
preparation, functionalization and biomedical application. Progress in Polymer Science 37:
237-280.
[51]
Rezwan K, Q Chen, J Blaker and AR Boccaccini (2006). Biodegradable and bioactive porous
polymer/inorganic composite scaffolds for bone tissue engineering. Biomaterials 27: 3413-3431.
[52]
Venugopal J and S Ramakrishna (2005). Biocompatible nanofiber matrices for the engineering
of a dermal substitute for skin regeneration. Tissue Engineering 11: 847-854.
[53]
Lu H, HH Oh, N Kawazoe, K Yamagishi and G Chen (2012). PLLA-collagen and PLLA-
gelatin hybrid scaffolds with funnel-like porous structure for skin tissue engineering. Science and
Technology of Advanced Materials 13: 064210.
[54]
Liu X, T Lin, Y Gao, Z Xu, C Huang, G Yao, L Jiang, Y Tang and X Wang (2012). Antimicrobial
electrospun nanofibers of cellulose acetate and polyester urethane composite for wound dressing.
Journal of Biomedical Materials Research Part B: Applied Biomaterials 100: 1556-1565.
[55]
Elahi MF, W Lu, G Guoping and F Khan (2013). Core-shell fibers for biomedical applications - a
review. Journal of Bioengineering and Biomedical Science 3. doi: 10.4172/2155-9538.1000121.
[56]
Wei K, Y Li, H Mugishima, A Teramoto and K Abe (2012). Fabrication of core-sheath structured
fibers for model drug release and tissue engineering by emulsion electrospinning. Biotechnology
Journal 7: 677-685.
[57]
Pillai O and R Panchagnula (2001). Polymers in drug delivery. Current Opinion in Chemical
Biology 5: 447-451.
[58]
Reichman DE and JA Greenberg (2009). Reducing surgical site infections: a review. Reviews in
Obstetrics and Gynecology 2: 212.
[59]
Barrientos S, O Stojadinovic, MS Golinko, H Brem and M Tomic-Canic (2008). Growth factors
and cytokines in wound healing. Wound Repair and Regeneration 16: 585-601.
