Biomedical Engineering Reference
In-Depth Information
Kubota, Y., Shuin, T., Kawasaki, C., Hosaka, M., Kitamura, H., Cai, R., Sakai, H., Hashimoto, K.
& Fujishima, A. (1994) Photokilling of T-24 human bladder cancer cells with titanium dioxide.
British Journal of Cancer , 70, 1107-1111.
Kuo, W. S., Chang, C. N., Chang, Y. T., Yang, M. H., Chien, Y. H., Chen, S. J. & Yeh, C. S. (2010)
Gold Nanorods in Photodynamic Therapy, as Hyperthermia Agents, and in Near-Infrared
Optical Imaging. Angew. Chem. Int. Ed. , 49, 2711-2715.
Kuo, W. S., Chang, C. N., Chang, Y. T. & Yeh, C. S. (2009) Antimicrobial gold nanorods with
dual-modality photodynamic inactivation and hyperthermia. Chem. Commun. , 4853-4855.
Kurwa, H. A. & Barlow, R. J. (1999) The role of photodynamic therapy in dermatology. Clinical
and Experimental Dermatology , 24, 143-148.
Labanauskiene, J., Gehl, J. & Didziapetriene, J. (2007) Evaluation of cytotoxic effect of photody-
namic therapy in combination with electroporation in vitro. Bioelectrochemistry , 70, 78-82.
Lai, C.-W., Wang, Y.-H., Lai, C.-H., Yang, M.-J., Chen, C.-Y., Chou, P.-T., Chan, C.-S., Chi, Y.,
Chen, Y.-C. & Hsiao, J.-K. (2008) Iridium-complex-functionalized Fe3O4/SiO2 core/shell
nanoparticles: a facile three-in-one system in magnetic resonance imaging, luminescence
imaging, and photodynamic therapy. Small , 4, 218-224.
Lambreva, M., Glück, B., Radeva, M. & Berg, H. (2004) Electroporation of cell membranes sup-
porting penetration of photodynamic active macromolecular chromophore dextrans.
Bioelectrochemistry , 62, 95-98.
Lei, W., Zhou, Q., Li, Z., Wang, X. & Zhang, B. (2009) Photodynamic activity of ascorbic acid-
modified TiO 2 nanoparticles upon visible illumination (>550 nm) Chemistry Letters , 38,
1138-1139.
Li, J., Guo, D., Wang, X., Wang, H., Jiang, H. & Chen, B. (2010a) The photodynamic effect of
different size ZnO nanoparticles on cancer cell proliferation in vitro. Nanoscale Research
Letters , 5, 1063-1071.
Li, Z. B., Wang, J. G., Chen, J. R., Lei, W. H., Wang, X. S. & Zhang, B. W. (2010b) pH-responsive
silica nanoparticles for controllable O-1(2) generation. Nanotechnology , 21.
Liang, G., Wang, L., Yang, Z., Koon, H., Mak, N., Chang, C. K. & Xu, B. (2006) Using enzymatic
reactions to enhance the photodynamic therapy effect of porphyrin dityrosine phosphates.
Chemical Communications , 5021-5023.
Lin, K. F., Cheng, H. M., Hsu, H. C., Lin, L. J. & Hsieh, W. F. (2005) Band gap variation of size-
controlled ZnO quantum dots synthesized by sol-gel method. Chemical Physics Letters , 409,
208-211.
Liu, F., Zhou, X., Chen, Z., Huang, P., Wang, X. & Zhou, Y. (2008a) Preparation of purpurin-18
loaded magnetic nanocarriers in cottonseed oil for photodynamic therapy. Mater. Lett. , 62,
2844-2847.
Liu, Y., Zhang, Y., Wang, S., Pope, C. & Chen, W. (2008b) Optical behaviors of ZnO-porphyrin
conjugates and their potential applications for cancer treatment. Applied Physics Letters , 92,
Article number 143901.
Liu, Z., Davis, C., Cai, W. B., He, L., Chen, X. Y. & Dai, H. J. (2008c) Circulation and long-term
fate of functionalized, biocompatible single-walled carbon nanotubes in mice probed by
Raman spectroscopy. Proc. Natl. Acad. Sci. U.S.A. , 105, 1410-1415.
Liu, F., Zhou, X., Ni, S., Wang, X., Y., Z. & Chen, Z. (2009) Preparation and properties of
Photosensitizer Loaded Magnetic Nanocarriers. Current Nanoscience , 5, 293-296.
Lopez-Goerne, T. M. (2007) Sol-gel nanostructured titania reservoirs for use in the controlled
release of drugs in the central nervous system WO2007141590.
Lopez, T., Bosch, P., Moran, M. & Gomez, R. (1993) Pt/SiO 2 sol-gel catalysts: Effects of pH and
platinum precursor. Journal of Physical Chemistry , 97, 1671-1677.
López, T., Gómez, R., Pecci, G., Reyes, P., Bokhimi, X. & Novaro, O. (1999) Effect of pH on the
incorporation of platinum into the lattice of sol-gel titania phases. Materials Letters , 40, 59-65.
Lopez, T., Figueras, F., Manjarrez, J., Bustos, J., Alvarez, M., Silvestre-Albero, J., Rodríguez-Reinoso,
F., Martínez-Ferre, A. & Martínez, E. (2010a) Catalytic nanomedicine: A new field in antitumor
treatment using supported platinum nanoparticles. In vitro DNA degradation and in vivo tests with
C6 animal model on Wistar rats. European Journal of Medicinal Chemistry, 45, 1982-1990.
Search WWH ::




Custom Search