Biomedical Engineering Reference
In-Depth Information
95. Gupta B, Revagade N, Hilborn J (2007) Poly(lactic acid) fiber: an overview. Prog Polym Sci
32(4):455-482
96. Stevanovic M, Uskokovic D (2009) Poly(lactide-co-glycolide)-based micro and nanoparticles
for the controlled drug delivery of vitamins. Curr Nanosci 5(1):1-14
97. Lu JM et al (2009) Current advances in research and clinical applications of PLGA-based
nanotechnology. Expert Rev Mol Diagn 9(4):325-341
98. Barrere F, van Blitterswijk CA, de Groot K (2006) Bone regeneration: molecular and
cellular interactions with calcium phosphate ceramics. Int J Nanomed 1(3):317-332
99. Emadi R et al (2010) Nanostructured forsterite coating strengthens porous hydroxyapatite
for bone tissue engineering. J Am Ceram Soc 93(9):2679-2683
100. Chen
JG
et
al
(2010)
In
situ
grown
fibrous
composites
of
poly(DL-lactide)
and
hydroxyapatite as potential tissue engineering scaffolds. Polymer 51(26):6268-6277
101. Uskokovic V, Uskokovic DP (2011) Nanosized hydroxyapatite and other calcium
phosphates: chemistry of formation and application as drug and gene delivery agents.
J Biomed Mater Res Part B Appl Biomater 96B(1):152-191
102. Swetha M et al (2010) Biocomposites containing natural polymers and hydroxyapatite for
bone tissue engineering. Int J Biol Macromol 47(1):1-4
103. Bellucci D et al (2010) Potassium based bioactive glass for bone tissue engineering. Ceram
Int 36(8):2449-2453
104. Mourino V, Newby P, Boccaccini AR (2010) Preparation and characterization of gallium
releasing 3D alginate coated 45S5 bioglass (R) based scaffolds for bone tissue engineering.
Adv Eng Mater 12(7):B283-B291
105. Mullen LM et al (2010) Binding and release characteristics of insulin-like growth factor-1
from a collagen-glycosaminoglycan scaffold. Tissue Eng Part C Methods 16(6):1439-1448
106. Yuan
T
et
al
(2010)
Chondrogenic
differentiation
and
immunological
properties
of
mesenchymal stem cells in collagen type I hydrogel. Biotechnol Prog 26(6):1749-1758
107. Zorlutuna P, Vadgama P, Hasirci V (2010) Both sides nanopatterned tubular collagen
scaffolds as tissue-engineered vascular grafts. J Tissue Eng Regen Med 4(8):628-637
108. Zheng WF, Zhang W, Jiang XY (2010) Biomimetic collagen nanofibrous materials for bone
tissue engineering. Adv Eng Mater 12(9):B451-B466
109. Lee CH, Singla A, Lee Y (2001) Biomedical applications of collagen. Int J Pharm 221(1-2):
1-22
110. Kosmala JD, Henthorn DB, Brannon-Peppas L (2000) Preparation of interpenetrating
networks of gelatin and dextran as degradable biomaterials. Biomaterials 21(20):2019-2023
111. Tripathi A, Kathuria N, Kumar A (2009) Elastic and macroporous agarose-gelatin cryogels
with isotropic and anisotropic porosity for tissue engineering. J Biomed Mater Res Part A
90A(3):680-694
112. Leddy HA, Awad HA, Guilak F (2004) Molecular diffusion in tissue-engineered cartilage
constructs: effects of scaffold material time, and culture conditions. J Biomed Mater Res
Part B Appl Biomater 70B(2):397-406
113. Bensaid W et al (2003) A biodegradable fibrin scaffold for mesenchymal stem cell
transplantation. Biomaterials 24(14):2497-2502
114. Kim SH et al (2009) Recent research trends of fibrin gels for the applications of regenerative
medicine. Tissue Eng Regen Med 6(1-3):273-286
115. Oliveira JT et al (2011) Novel melt-processable chitosan-polybutylene succinate fibre
scaffolds for cartilage tissue engineering. J Biomater Sci Polym Ed 22(4-6):773-788
116. Jayakumar
R
et
al
(2010)
Biomedical
applications
of
chitin
and
chitosan
based
nanomaterials—a short review. Carbohydr Polym 82(2):227-232
117. Venkatesan J, Kim SK (2010) Chitosan composites for bone tissue engineering—an
overview. Mar Drugs 8(8):2252-2266
118. VandeVord PJ et al (2002) Evaluation of the biocompatibility of a chitosan scaffold in mice.
J Biomed Mater Res 59(3):585-590
119. Eiselt P et al (2000) Porous carriers for biomedical applications based on alginate hydrogels.
Biomaterials 21(19):1921-1927
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