Biomedical Engineering Reference
In-Depth Information
Kakizawa, Y., Furukawa, S., and Kataoka, K. 2004. Block copolymer-coated calcium
phosphate nanoparticles sensing intracellular environment for oligodeoxynu-
cleotide and siRNA delivery.
J Controlled Release
97(2): 345-356.
Kamimura, K., Suda, T., Zhang, G., et al. 2011. Advances in gene delivery systems.
Pharma Med
25(5): 293-306.
Kawano, T., Yamagata, M., Takahashi, H., et al. 2006. Stabilizing of plasmid DNA
in vivo
by PEG-modified cationic gold nanoparticles and the gene expression
assisted with electrical pulses.
J Controlled Release
111(3): 382-389.
Kesheng, W., Kovacs, G. L., and Wozny, M., et al. 2006.
Knowledge Enterprise: Intelligent
Strategies in Product Design, Manufacturing, and Management
. New York, NY:
Springer Science+Business Media.
Kim, C., Lee, Y., Kim, J. S., et al. 2010. Thermally triggered cellular uptake of quantum
dots immobilized with poly(N-isopropylacrylamide) and cell penetrating pep-
tide.
Langmuir
26(18): 14965-14969.
Kim, H. W. 2007. Biomedical nanocomposites of hydroxyapatite/polycaprolactone
obtained by surfactant mediation.
J Biomed Mater Res A
83(1): 169-177.
Kim, H. W., Lee, H. H., and Chun, G. S. 2008. Bioactivity and osteoblast responses of
novel biomedical nanocomposites of bioactive glass nanofiber filled poly(lactic
acid).
J Biomed Mater Res A
85(3): 651-663.
Kim, J., McBride, S., Tellis, B., et al. 2012. Rapid-prototyped PLGA/beta-TCP/
hydroxyapatite nanocomposite scaffolds in a rabbit femoral defect model.
Biofabrication
4(2): 025003.
Kim, T. N., Feng, Q. L., Kim, J. O., et al. 1998. Antimicrobial effects of metal ions (Ag+,
Cu2+, Zn2+) in hydroxyapatite.
J Mater Sci Mater Med
9(3): 129-134.
Kimura, T., Nibe, Y., Funamoto, S., et al. 2011. Preparation of a nanoscaled poly(vinyl
alcohol)/hydroxyapatite/DNA complex using high hydrostatic pressure tech-
nology for
in vitro
and
in vivo
gene delivery.
J Drug Delivery
2011: 1-8.
Kootstra, N. A., and Verma, I. M. 2003. Gene therapy with viral vectors.
Annu Rev
Pharm Toxicol
43: 413-439.
Kothapalli, C. R., Shaw, M. T., and Wei, M. 2005. Biodegradable HA-PLA 3-D porous
scaffolds: Effect of nano-sized filler content on scaffold properties.
Acta Biomater
1(6): 653-662.
Langer, R., and Vacanti, J. P. 1993. Tissue engineering.
Science
260(5110): 920-926.
Lee, H. H., Yu, H. S., Jang, J. H., et al. 2008. Bioactivity improvement of poly(epsilon-
caprolactone) membrane with the addition of nanofibrous bioactive glass.
Acta
Biomater
4(3): 622-629.
Lee, M. Y., Park, S. J., Park, K., et al. 2011. Target-specific gene silencing of layer-by-
layer assembled gold-cysteamine/siRNA/PEI/HA nanocomplex.
ACS Nano
5(8): 6138-6147.
Lei, B., Shin, K. H., Noh, D. Y., et al. 2012. Bioactive glass microspheres as reinforce-
ment for improving the mechanical properties and biological performance of
poly(epsilon-caprolactone) polymer for bone tissue regeneration.
J Biomed Mater
Res B Appl Biomater
100(4): 967-975.
Liu, H., and Webster, T. J. 2010. Mechanical properties of dispersed ceramic nanopar-
ticles in polymer composites for orthopedic applications.
Int J Nanomedicine
5:
299-313.
Liu, L., Guo, Y., Chen, X., et al. 2012. Three-dimensional dynamic culture of pre-
osteoblasts seeded in HA-CS/Col/nHAP composite scaffolds and treated with
alpha-ZAL.
Acta Biochim Biophys Sin
(Shanghai) 44(8): 669-677.
Search WWH ::
Custom Search