 | Nanotech 2008 Vol. 2
Nanotechnology 2008: Life Sciences, Medicine & Bio Materials - Technical Proceedings of the 2008 NSTI Nanotechnology Conference and Trade Show, Volume 2
Chapter 1: Cancer Diagnostics, Imaging & Treatment |
| - | Nanomedicine: Engineering of a Tri-Imageable Nanoparticle for Cancer Diagnostics |
| | A. Bumb, PJ. Dobson, L. Fugger, P. Choyke, MW. Brechbiel |
| | National Cancer Institute/University of Oxford, US |
| - | Gold Nano-Probes as Targeted CT Contrast Agents for In-vivo cancer Imaging |
| | R. Popovtzer, A. Agrawal, M. Shlomi, A. Popovtzer, J. Balter, T.E. Carey, R. Kopelman |
| | University of Michigan, US |
| - | Strategies for enhanced brain tumor accumulation of magnetic nanoparticles for potential drug delivery |
| | B. Chertok, A.E. David, V.C. Yang |
| | University of Michigan, US |
| - | 5-aminolevulinic Acid Conjugated Gold Nanoparticles for Cancer Treatment |
| | M.K. Khaing Oo, X. Yang, H. Wang, H. Du |
| | Stevens Institute of Technology, US |
| - | Multiwalled Carbon Nanotube-Doxorubicin Supramolecular Complexes for Cancer Therapeutics |
| | H. Ali-Boucetta, K.T. Al-Jamal, K. Kostarelos |
| | The School of Pharmacy, University of London, UK |
| - | Genomics and Proteomics: Information-Theoretic Analysis in Frequency Domain |
| | S.E. Lyshevski, F. Krueger |
| | Rochester Institute of Technology, US |
| - | Colorectal Cancer Cell Detection by Chitosan Nanoparticle Conjugated with Folic Acid |
| | S-J Yang, J-W Chen, M-J Shieh |
| | Institute of Biomedical Engineering, TW |
| - | Chitosan Nanoparticle Combined with Ultrasound for Cervical Cancer Detection |
| | K-C Tsai, M-J Shieh, S-J Yang, W-L Lin, W-S Chen |
| | Institute of Biomedical Engineering, TW |
| - | Biochip-Based Test System for Cancer Diagnostics. Simultaneous Quantitation of Total and Free Forms of Prostate-Specific Antigen |
| | T. Osipova, Z. Sokolova, T. Ryabykh, V. Karaseva, M. Modorsky, V. Matveev, A. Baryshnikov |
| | N.N. Blokhin Cancer Research Center, RAMS, RU |
| - | Specific device for cells sampling |
| | M.L. Cosnier, F. Martin, D. Ratel, F. Berger, P. Caillat |
| | Commissariat à l’énergie atomique, FR |
| - | New efficient nanostructural near-IR photosensitizer for photodynamic therapy of malignancies based on micellar dispersion of zinc octa-4,5-decylthio-3,6-chloro-phthalocyanine |
| | I.G. Meerovich, G.A. Meerovich, E.A. Lukyanets, V.M. Negrimovsky, S.V. Barkanova, A.A. Zorin, L.V. Umnova, N.A. Oborotova, V.B. Loschenov, G.N. Vorozhtsov, A.Yu. Baryshnikov |
| | N.N.Blokhin Russian Cancer Research Center of RAMS, RU |
| - | Influence of liposome size on accumulation in tumor and therapeutic efficiency of liposomal near-IR photosensitizer for PDT based on aluminum hydroxide tetra-3-phenylthiophthalocyanine |
| | G.A. Meerovich, I.G. Meerovich, V.G. Pevgov, E.A. Lukyanets, N.A. Oborotova, D.G. Gurevich, A.A. Zorin, V.M. Derkacheva, Z.S. Smirnova, V.B. Loschenov, G.N. Vorozhtsov, A.Yu. Baryshnikov |
| | A.M. Prokhorov General Physics Institute of RAS, RU |
| - | Mathematical Model of effect of drug delivery on blood flow in external magnetic field by Magnetic Nanoparticles |
| | S. Mishra, V.K. Katiyar, V. Arora |
| | Indian Institute of Technology Roorkee, IN |
| - | Multifunctional siRNA Delivery System for Cancer Therapy |
| | O. Taratula, R. Salva, I. Pandya, A. Wang, T. Minko, H. He |
| | Rutgers-Newark University, US |
| - | Preparation and investigation of biological activity of thermosensitive liposomes loaded with doxorubicin |
| | E.V. Tazina, A.V. Polozkova, O.L. Orlova, E.V. Ignatieva, V.V. Mescherikova, A. Wainson, S.P. Yarmonenko, N.A. Oborotova |
| | N.N. Blokhin Russian Cancer Research Center of RAMS, RU |
| - | Multi- Walled Carbon Nanotubes Increase the Efficiency of Hyperthermic Chemotherapy |
| | N.H. Levi-Polyachenko, E. Merkel, B.T. Jones, W.D. Wagner, D.L. Carroll, J.H. Stewart IV |
| | Wake Forest University Health Sciences, US |
| - | Bacterial Drug Delivery Systems and nanoparticles |
| | R. Sharma, Y. Haik |
| | UNCG, US |
| - | Pharmacokinetic study of PEGylated plasmon resonant gold nanoparticles in tumor-bearing mice |
| | B.Ya. Kogan, N.V. Andronova, N.G. Khlebtsov, B.N. Khlebtsov, V.M. Rudoy, O.V. Dement’eva, E.M. Sedykh, L.N. Bannykh |
| | FGUP “GNC “NIOPIK”, RU |
| - | Upconverting nanoparticles for photodynamic therapy |
| | D.K. Chatterjee, Y. Zhang |
| | National University of Singapore, SG |
| - | Spatio-temporal Tumor Model for Analysis and Mechanism of action of Intracellular Drug Accumulation |
| | S. Mishra, V.K. Katiyar, V. Arora |
| | Haridwar, IN |
| - | Nanomedicine: Engineering of a Tri-Imageable Nanoparticle for Cancer Diagnostics |
| | A. Bumb, PJ. Dobson, L. Fugger, P. Choyke, MW. Brechbiel |
| | National Cancer Institute/University of Oxford, US |
| - | Gold Nano-Probes as Targeted CT Contrast Agents for In-vivo cancer Imaging |
| | R. Popovtzer, A. Agrawal, M. Shlomi, A. Popovtzer, J. Balter, T.E. Carey, R. Kopelman |
| | University of Michigan, US |
| - | Strategies for enhanced brain tumor accumulation of magnetic nanoparticles for potential drug delivery |
| | B. Chertok, A.E. David, V.C. Yang |
| | University of Michigan, US |
| - | 5-aminolevulinic Acid Conjugated Gold Nanoparticles for Cancer Treatment |
| | M.K. Khaing Oo, X. Yang, H. Wang, H. Du |
| | Stevens Institute of Technology, US |
| - | Multiwalled Carbon Nanotube-Doxorubicin Supramolecular Complexes for Cancer Therapeutics |
| | H. Ali-Boucetta, K.T. Al-Jamal, K. Kostarelos |
| | The School of Pharmacy, University of London, UK |
| - | Genomics and Proteomics: Information-Theoretic Analysis in Frequency Domain |
| | S.E. Lyshevski, F. Krueger |
| | Rochester Institute of Technology, US |
| - | Colorectal Cancer Cell Detection by Chitosan Nanoparticle Conjugated with Folic Acid |
| | S-J Yang, J-W Chen, M-J Shieh |
| | Institute of Biomedical Engineering, TW |
| - | Chitosan Nanoparticle Combined with Ultrasound for Cervical Cancer Detection |
| | K-C Tsai, M-J Shieh, S-J Yang, W-L Lin, W-S Chen |
| | Institute of Biomedical Engineering, TW |
| - | Biochip-Based Test System for Cancer Diagnostics. Simultaneous Quantitation of Total and Free Forms of Prostate-Specific Antigen |
| | T. Osipova, Z. Sokolova, T. Ryabykh, V. Karaseva, M. Modorsky, V. Matveev, A. Baryshnikov |
| | N.N. Blokhin Cancer Research Center, RAMS, RU |
| - | Specific device for cells sampling |
| | M.L. Cosnier, F. Martin, D. Ratel, F. Berger, P. Caillat |
| | Commissariat à l’énergie atomique, FR |
| - | New efficient nanostructural near-IR photosensitizer for photodynamic therapy of malignancies based on micellar dispersion of zinc octa-4,5-decylthio-3,6-chloro-phthalocyanine |
| | I.G. Meerovich, G.A. Meerovich, E.A. Lukyanets, V.M. Negrimovsky, S.V. Barkanova, A.A. Zorin, L.V. Umnova, N.A. Oborotova, V.B. Loschenov, G.N. Vorozhtsov, A.Yu. Baryshnikov |
| | N.N.Blokhin Russian Cancer Research Center of RAMS, RU |
| - | Influence of liposome size on accumulation in tumor and therapeutic efficiency of liposomal near-IR photosensitizer for PDT based on aluminum hydroxide tetra-3-phenylthiophthalocyanine |
| | G.A. Meerovich, I.G. Meerovich, V.G. Pevgov, E.A. Lukyanets, N.A. Oborotova, D.G. Gurevich, A.A. Zorin, V.M. Derkacheva, Z.S. Smirnova, V.B. Loschenov, G.N. Vorozhtsov, A.Yu. Baryshnikov |
| | A.M. Prokhorov General Physics Institute of RAS, RU |
| - | Mathematical Model of effect of drug delivery on blood flow in external magnetic field by Magnetic Nanoparticles |
| | S. Mishra, V.K. Katiyar, V. Arora |
| | Indian Institute of Technology Roorkee, IN |
| - | Multifunctional siRNA Delivery System for Cancer Therapy |
| | O. Taratula, R. Salva, I. Pandya, A. Wang, T. Minko, H. He |
| | Rutgers-Newark University, US |
| - | Preparation and investigation of biological activity of thermosensitive liposomes loaded with doxorubicin |
| | E.V. Tazina, A.V. Polozkova, O.L. Orlova, E.V. Ignatieva, V.V. Mescherikova, A. Wainson, S.P. Yarmonenko, N.A. Oborotova |
| | N.N. Blokhin Russian Cancer Research Center of RAMS, RU |
| - | Multi- Walled Carbon Nanotubes Increase the Efficiency of Hyperthermic Chemotherapy |
| | N.H. Levi-Polyachenko, E. Merkel, B.T. Jones, W.D. Wagner, D.L. Carroll, J.H. Stewart IV |
| | Wake Forest University Health Sciences, US |
| - | Bacterial Drug Delivery Systems and nanoparticles |
| | R. Sharma, Y. Haik |
| | UNCG, US |
| - | Pharmacokinetic study of PEGylated plasmon resonant gold nanoparticles in tumor-bearing mice |
| | B.Ya. Kogan, N.V. Andronova, N.G. Khlebtsov, B.N. Khlebtsov, V.M. Rudoy, O.V. Dement’eva, E.M. Sedykh, L.N. Bannykh |
| | FGUP “GNC “NIOPIK”, RU |
| - | Upconverting nanoparticles for photodynamic therapy |
| | D.K. Chatterjee, Y. Zhang |
| | National University of Singapore, SG |
| - | Spatio-temporal Tumor Model for Analysis and Mechanism of action of Intracellular Drug Accumulation |
| | S. Mishra, V.K. Katiyar, V. Arora |
| | Haridwar, IN |
| ISBN: | 978-1-4200-8504-4 |
| Pages: | 808 |
| Hardcopy: | $199.99 |
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| Order: | Mail/Fax Form |
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