Biomedical Engineering Reference
In-Depth Information
171. Wolcott, A.; Gerion, D.; Visconte, M.; Sun, J.; Schwartzberg, A.; Chen, S., et al. Silica-Coated
CdTe Quantum Dots Functionalized with Thiols for Bioconjugation to IgG Proteins.
J. Phys.
Chem. B.
2006,
110,
5779-5789.
172. Xu, H.; Aguilar, Z.; Waldron, J.; Wei, H.; Wang, Y. Application of Semiconductor Quantum
Dots for Breast Cancer Cell Sensing, 2009 Biomedical Engineering and Informatics.
IEEE
Computer Society BMEI
2009,
1,
516-520.
173. Xu, H.; Aguilar, Z.; Wang, A. Quantum Dot-Based Sensors for Proteins.
ECS. Trans.
2010,
25,
1-10.
174. Mathieu, J. B.; Martel, S.; Yahia, L.; Soulez, G.; Beaudoin, G. Preliminary Investigation of the
Feasibility of Magnetic Propulsion for Future Microdevices in Blood Vessels.
Biomed. Mater.
Eng.
2002,
15,
367-374.
175. Sajja, H.; East, M.; Mao, H.; Wang, Y.; Nie, S.; Yang, L. Development of Multifunctional
Nanoparticles for Targeted Drug Delivery and Noninvasive Imaging of Therapeutic Effect.
Curr. Drug. Discov. Technol.
2009,
6,
43-51.
176. Sajja, H. K.; East, M. P.; Mao, H.; Wang, A. Y.; Nie, S.; Yang, L. Development of Multifunc-
tional Nanoparticles for Targeted Drug Delivery and Non-Invasive Imaging of Therapeutic
Effect.
Curr. Drug. Discov. Technol.
<http://www.ncbi.nlm.nih.gov/entrez/eutils/elink.fcgi?
177. Xiang, S. D.; Scalzo-Inguanti, K.; Minigo, G.; Park, A.; Hardy, C. L.; Plebanski, M. Promising
Particle-Based Vaccines in Cancer Therapy.
Expert. Rev. Vaccines.
2008,
7,
1103-1119.
178. Akagi, T.; Wang, X.; Uto, T.; Baba, M.; Akashi, M. Protein Direct Delivery to Dendritic Cells
Using Nanoparticles based on Amphiphilic Poly(Amino Acid) Derivatives.
Biomaterials
2007,
28,
3427-3436.
179. Ueno, Y.; Futagawa, H.; Takagi, Y.; Ueno, A.; Mizuzshima, Y. Drug-Incorporating Calcium
Carbonate Nanoparticles for a New Delivery System.
J. Controlled Release
2005,
103,
93-98.
180. Fifis, T.; Gamvrellis, A.; Crimeen-Irwin, B.; Pietersz, G. A.; Li, J.; Mottram, P. L., et al. Size-
Dependent Immunogenicity: Therapeutic and Protective Properties of Nano-Vaccines against
Tumors.
J. Immunol.
2004,
173,
3148-3154.
181. Mingo, G.; Scholzen, A.; Tang, C. K.; Hanley, J. C.; Kalkainidis, M.; Pietersz, G. A., et al.
Poly-L-lysine-Coated Nanoparticles: A Potent Delivery System to Enhance DNA Vaccine
Efficacy.
Vaccine
2007,
25,
1316-1327.
182. Mottram, P. L.; Leong, D.; Crimeen-Irwin, B.; Gloster, S.; Xiang, S. D.; Meanger, J., et al.
Type 1 and 2 Immunity following Vaccination is Influenced by Nanoparticle Size: Formula-
tion of a Model Vaccine for Respiratory Syncytial Virus.
Mol. Pharm.
2007,
4,
73-84.
183. Cherukuri, P.; Bachilo, S. M.; Litovsky, S. H.; Weisman, R. B. Weisman, Near-Infrared Fluo-
rescence Microscopy of Single-Walled Carbon Nanotubes in Phagocytic Cells.
J. Am. Chem.
Soc.
2004,
126,
15638-15639.
184. Kreyling, W. G.; Möller, W.; Semmler-Behnke, M.; Oberdörster, G. In
Particle Toxicology
;
Born, D. K., Ed.; CRC Press: Boca Raton, 2007.
185. Moghimi, S. M.; Hunter, A. C.; Murray, J. C. Nanomedicine: Current Status and Future Pros-
pects.
FASEB
2005,
19,
311-330.
186. Gourley, P. L. Brief Overview of BioMicroNano Technologies.
Biotechnol. Prog.
2005,
21,
2-10.
187. Nakamura, T.; Sakaeda, T.; Takahashi, M.; Hashimoto, K.; Gemma, N.; Moriya, Y., et al.
Simultaneous Determination of Single Nucleotide Polymorphisms of MDR1 Genes by Elec-
trochemical DNA Chip.
Drug. Metab. Pharmacokinet.
2005,
20,
219-225.