 | Nanotech 2007 Vol. 2
Technical Proceedings of the 2007 NSTI Nanotechnology Conference and Trade Show, Volume 2
Chapter 5: Drug Delivery |
| - | Targeted Nanoparticle-Polypeptide Conjugates for Breast Cancer Treatment |
| | F. Alexis, P. Basto, A. Radovic-Moreno, R. Langer and O.C. Farokhzad |
| | Brigham and Women's Hospital, Harvard Medical School, US |
| - | A Targeted Nanotechnology-based Therapeutic System for the Combined Chemoprevention of Colon Cancer |
| | S. Prabhu and N. Kanthamneni |
| | College of Pharmacy, Western University of Health Sciences, US |
| - | Polymer Nanospheres for Improved Drug Delivery of Protein Therapeutics and Viral Antigens |
| | T.P. Castor |
| | Aphios Corporation, US |
| - | Targeted Aptamer-Nanoparticles to Diminish Drug Resistance of Cancer Cells in vitro Study |
| | P. Basto, F. Alexis, E. Levy-Nissenbaum, R. Langer and O. Farokzhad |
| | Massachusetts Institute of Technology, US |
| - | Specific targeting and delivery of virus envelope-coated nanoparticle cargoes into receptor-bearing cells and subcellular compartments. |
| | A.C. Moore, A.A. Kolokoltsov and R.A. Davey |
| | University of Texas Medical Branch, US |
| - | Self –assembled Nanoparticles of Dextrin Substituted with Hexadecanethiol |
| | C. Gonçalves, J.A. Martins and F.M. Gama |
| | Universidade do Minho, PT |
| - | Oral Macrophage Mediated Gene Delivery System |
| | E. Soto and G. Ostroff |
| | University of Massachusetts Medical School, US |
| - | Galactosidase Gene Expression in Yeast Cells Enhanced by Nanoparticles |
| | S-F Chien, S-H Chen and C-T Lin |
| | Northern Illinois University, US |
| - | Mechanism of Action and Surfactant Influence During Chemotherapy of Brain Tumour Using Doxorubicin-Loaded Poly(Butyl Cyanoacrylate) Nanoparticles |
| | B. Petri, A. Bootz, A. Khalanski, T. Hekmatara, R. Müller, J. Kreuter and S. Gelperina |
| | Moscow Medical Academy, RU |
| - | Biodegradable Nanoparticles Effect on Drug Delivery System |
| | B.G. Kim and I.J. Kang |
| | Kyungwon University, KR |
| - | Spectroscopical and Structural Studies of Sol-gel Reservoirs used as Implants in the Delivery of Dopamine to the Central Nervous System |
| | T. Lopez, D. Esquivel, J. Ascencio, J.A. Odriozola and R.D. Gonzalez |
| | Tulane University, US |
| - | The Effect of Water on Particle Size, porosity, and the Rate of Drug Release from Implanted Titania Resrvoirsia |
| | T. Lopez, A. Hernandez-Ayala, J.A. Odriozola, P. Quintana, R.D. Gonzalez, P.P. Lottici and I. Marino |
| | Tulane University, US |
| - | An implantable Drug Delivery Device based on MEMS |
| | N.M. Elman, H-L Ho Duc and M.J. Cima |
| | Massachusetts Institute of Technology, US |
| - | Synthesis of superparamagnetic magnetite nanoparticles for thermoresponsive drug delivery |
| | C.Y. Lin and K.C. Ho |
| | National Taiwan university, TW |
| - | Synthesis of Biocompatible Nanocomposite hydrogels as a Local Drug Delivery System |
| | J. Bako, M. Szepesi, Z.M. Borbely, C. Hegedus and J. Borbely |
| | University of Debrecen, HU |
| - | Establishing a GMP manufacturing site for nanoparticles |
| | C.A. Sepulveda, J.A. Roth, C. Lu, L. Ji, R. Ramesh, S. O’Connor, T. Sadeghi, F. Flagge, O. Baez, A.C. Shen, E. Mondesir, J. Jenkins, E. Shpall and J.D. McMannis |
| | University Texas MD Anderson Cancer Center, US |
| - | In Vivo Protein Transduction: Penetration of the Biologically Active HIV-1 Tat Mediated Cu,Zn-Superoxide Dismutase Rescues Murine Skin from Oxidative Stress |
| | T-P Liu, Y-P Chen, C-M Chou, Y-C Chang, T-T Chiu and C-T Chen |
| | Taipei Medical University, TW |
| - | New carrier for protein and drug delivery based on injectable Poly(ethylene glycol)-Poly(?- caprolactone)-Poly(?-amino ester) (PAE-PCL-PEG-PCL-PAE) pH/temperature hydrogel |
| | D.S. Lee and D.P. Huynh |
| | SungkyunKwan University, KR |
| - | Hyperhtermia effect of surface-modified magnetite nanoparticles in a microfluid system |
| | C.Y. Lin and K.C. Ho |
| | National Taiwan university, TW |
| - | Hormone Peptide Conjugated Ironoxide Nanoparticles For Detection and Treatment of Metastases |
| | C. Leuschner, C. Kumar, W. Hansel, R.T. Branca, G. Galiana, W. Warren and F. Hormes |
| | Pennington Biomedical Research Center, US |
| - | Development of a Magnetically Triggered Drug Delivery System using Thermoresponsive Grafted Polymer Networks with Magnetic Nanoparticles |
| | I. Ankareddi, M.L. Hampel, M.K. Sewell and D-H Kim |
| | The University of Alabama, US |
| ISBN: | 1-4200-6183-6 |
| Pages: | 838 |
| Hardcopy: | $139.95 |
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