Biomedical Engineering Reference
In-Depth Information
124. Raynal, I.; Prigent, P.; Peyramaure, S.; Najid, A.; Rebuzzi, C.; Corot, C. Macrophage Endocy-
tosis of Superparamagnetic Iron Oxide Nanoparticles: Mechanisms and Comparison of Feru-
moxides and Ferumoxtran-10.
Invest. Radiol.
2004,
39,
56-63.
125. Zhao, X.; Harris, J. M. Novel Degradable poly(ethylene glycol) Hydrogels for Controlled
Release of Protein.
J. Pharm. Sci.
1998,
87,
1450-1458.
126. Jiang, W.; Mardyani, S.; Fischer, H.; Chan, W. C. W. Design and Characterization of
Lysine Crosslinked Mercaptoacid Biocompatible Quantum Dots.
Chem. Mater.
2006,
18,
872-878.
127. Aldana, J.; Wang, Y. A.; Peng, X. G. Photochemical Instability of CdSe Nanocrystals Coated
by Hydrophilic Thiols.
J. Am. Chem. Soc.
2001,
123,
8844-8850.
128. Guo, W. Z.; Li, J. J.; Wang, Y. A.; Peng, X. G. Conjugation Chemistry and Bioapplications of
Semiconductor Box Nanocrystals Prepared via Dendrimer Bridging.
Chem. Mater.
2003,
15,
3125-3133.
129. Liz-Marzán, L. M. Tailoring Surface Plasmons through the Morphology and Assembly of
Metal Nanoparticles.
Langmuir
2006,
22,
32-41.
130. Larson, D. R.; Zipfel, W. R.; Williams, R. M.; Clark, S. W.; Bruchez, M. P.; Wise, F. W., et al.
Watersoluble Quantum Dots for Multiphoton Fluorescence Imaging in vivo.
Science
2003,
300,
1434-1436.
131. Wuister, S. F.; Swart, I.; van Driel, F.; Hickey, S. G.; Donega, C. D. Highly Luminescent Water
Soluble CdTe Quantum Dots.
Nano Lett.
2003,
3,
503-507.
132. Surendiran, A.; Sandhiya, S.; Pradhan, S. C.; Adithan, C. Novel Applications of Nanotechnol-
ogy in Medicine.
Indian J. Med. Res.
2009,
130,
689-701.
133. McCormack, B.; Gregoriadis, G. Drugs-in-Cyclodextrins-Inliposomes—A Novel concept in
Drug-delivery.
Int. J. Pharm.
1994,
112,
249-258.
134. Illum, L.; Davis, S. S. The Organ Uptake of Intravenously Administered Colloidal Par-
ticles can be Altered Using a nonionic Surfactant (Poloxamer 338).
FEBS Lett.
1984,
167,
79-82.
135. Senior, J.; Delgado, C.; Fisher, D.; Tilcock, C.; Gregoriadis, G. Influence of Surface Hydro-
philicity of Liposomes on their Interaction with Plasma-Protein and Clearance from the Cir-
culation—Studies with poly (ethylene glycol)-coated Vesicles.
Biochim. Biophys. Acta
1991,
1062,
77-82.
136. Kirby, C.; Gregoriadis, G. The effEct of Lipid Composition of Small Unilamellar Liposomes
Containing Melphalan and Vincristine on Drug Clearance After Injection in Mice.
Biochem.
Pharmacol.
1983,
32,
609-615.
137. Torchilin, V. P.; Shtilman, M. I.; Trubetskoy, V. S.; Whiteman, K.; Milstein, A. M. Amphiphilic
Vinyl Polymers Effectively Prolong Liposome Circulation Time
in vivo
.
Biochim. Biophys.
Acta
1994,
1195,
181-184.
138. Forssen, E. A.; Coulter, D. M.; Profitt, R. T. Selective
in vivo
Localization of Daunorubicin
Small Unilamellar Vesicles in Solid Tumors.
Cancer Res.
1992,
52,
3255-3261.
139. Szoka, J. F.; Papahadjopoulos, D. Procedure for Preparation of Liposomes with Large Internal
Aqueous Space and High Capture by Reverse-phase Evaporation.
Proc. Natl. Acad. Sci. U S A
1978,
75,
4194-4198.
140. Papahadjopoulos, D.; Jacobson, K.; Nir, S.; Isac, T. Phase Transitions in Phospholipid Ves-
icles. Fluorescence Polarization and Permeability Measurements Concerning the Effect of
Temperature and Cholesterol.
Biochim. Biophys. Acta
1973,
311,
330-348.
141. Papahadjopoulos, D.; Jacobson, K.; Poste, G.; Shepherd, G. Phase Transitions in Phospholipid
Vesicles. Fluorescence Polarization and Permeability Measurements Concerning the Effect of
Temperature and Cholesterol.
Biochim. Biophys. Acta
1974,
394,
504-519.
