Biomedical Engineering Reference
In-Depth Information
Patents in the applications of NMs in medicine are vital to realize its promising
potential and to move beyond academic research.
REFERENCES
1. Shang, L.; Dong, S. Sensitive Detection of Cysteine Based Fluorescent Silver Clusters.
Biosens. Bioelectron.
2009,
24,
1569-1573.
2. Aguilar, Z.; Xu, H.; Jones, B.; Dixon, J.; Wang, A. Semi Conductor Quantum Dots for Cell
Imaging.
Mater. Res. Soc. Symp. Proc.
2010,
1237
, 1237-TT1206-1201.
3. Aqil, A.; Qiu, H.; Greish, J.; Jerome, R.; De Pauw, E.; Jerome, C. Coating of Gold Nanoparti-
cles by Thermosensitive Poly (
N
-isopropylacrylamide) End-capped by Biotin.
Polymer
2008,
49,
1145-1153.
4. Arnedo, A.; Irache, J. M.; Merodio, M.; Espuelas, M.; Millan, S. Albumin Nanoparticles
Improved the Stability, Nuclear Accumulation and Anticytomegaloviral Activity of a Phos-
phodiester Oligonucleotide.
J. Control. Release
2004,
94,
217-227.
5. Bharali, D.; Khalil, M.; Gurbuz, M.; Simone, T.; Mousa, S. Nanoparticles and cancer therapy:
a concise review with emphasis on dendrimers.
Int. J. Nanomedicine
2009,
4,
1-7.
6. Brigger, I.; Dubernet, C.; Couvreur, P. Nanoparticles in Cancer Therapy and Diagnosis.
Adv.
Drug Deliv. Rev.
2002,
54,
631-651.
7. Li, J.; Zhao, X.; Zhao, Y.; Gu, Z. Quantum-Dot-Coated Encoded Silica Colloidal Crystals
Beads for Multiplex Coding.
Chem. Commun.
2009,
2329-2331.
8. Moghimi, S. M.; Hunter, A. C.; Murray, J. C. Nanomedicine: Current Status and Future Pros-
pects.
FASEB J.
2005,
19,
311-330.
9. Mueller, R. H.; Schwarz, C.; Mehnert, W.; Lucks, J. S. Production of Solid Lipid Nanopar-
ticles (SLN) for Controlled Drug Delivery.
Proc. Int. Symp. Control. Release Bioact. Mater.
1993,
20,
480-481.
10. Akerman, M. E.; Chan, W. C.; Laakkonen, P.; Bhatia, S. N.; Ruoslahti, E. Nanocrystal Target-
ing In Vivo.
Proc. Natl. Acad. Sci. USA
2002,
99,
12617-12621.
11. Ballou, B.; Lagerholm, B. C.; Ernst, L. A.; Bruchez, M. P.; Waggoner, A. S. Noninvasive
Imaging of Quantum Dots in Mice.
Bioconjug. Chem.
2004,
15,
79-86.
12. Bottrill, M.; Green, M. Some Aspects of Quantum Dot Toxicity.
Chem. Commun.
2011,
47,
7039-7050.
13. Byers, R.; Hitchman, E. Quantum Dots Brighten Biological Imaging.
Prog. Histochem.
Cytochem.
2011,
45,
201-237.
14. Parak, W. J.; Pellegrino, T.; Plank, C. Labelling of Cells with Quantum Dots.
Nanotechnology
2005,
16,
R9-R25.
15. Peng, X.; Manna, L.; Yang, W.; Wickham, J.; Scher, E.; Kadavanich, A.; Alivisatos, A. P.
Shape Control of CdSe Nanocrystals.
Nature
2000,
404,
59-61.
16. Resch-Genger, U.; Grabolle, M.; Cavaliere-Jaricot, S.; Nitschke, R.; Nann, T. Quantum Dots
Versus Organic Dyes as Fluorescent Labels.
Nat. Methods
2008,
5,
763-775.
17. Smith, A. M.; Gao, X.; Nie, S. Quantum Dot Nanocrystals for
in vivo
Molecular and Cellular
Imaging.
Photochem. Photobiol.
2004,
80,
377-385.
18. Su, Y.; Hu, M.; Fan, C.; He, Y.; Li, Q.; Li, W., et al. The Cytotoxicity of CdTe Quantum Dots
and the Relative Contributions from Released Cadmium Ions and Nanoparticle Properties.
Biomaterials
2010,
31,
4829-4834.
19. Willard, D.; Carillo, L.; Jung, J.; van Orden, A. CdSe-ZnS Quantum Dots as Resonance
Energy Transfer Donors in A Model Protein-Protein Binding Assay.
Nano Lett.
2001,
1
.
