 | 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 4: Drug & Gene Delivery Systems |
| - | Amphoteric liposomes are a platform for multi-organ delivery of oligonucleotides |
| | C. Reinsch, U. Rauchhaus, S. Panzner |
| | novosom AG, DE |
| - | Oral Delivery of Map4K4 siRNA to Macrophages Inhibits TNF alpha Production and Protects against a LPS-Galactosamine Challenge in Mice |
| | M. Aouadi, G. Tesz, E. Soto, M. Wang, S. Nicoloro, G. Ostroff, M. Czech |
| | University of Massachusetts Medical School, US |
| - | Systemic Delivery of Targeted, siRNA-Containing Nanoparticles for the Treatment of Solid Tumors: Concept to Clinic |
| | J.D. Heidel, J.Y-C. Liu, R.K. Zeidan, Y. Liang, S. Rele, M.E. Davis |
| | Calando Pharmaceuticals, US |
| - | Efficient siRNA Delivery by Secondary and Tertiary Amine Modified Polysaccharides |
| | B. Ghosn, A. Singh, K. Roy |
| | The University of Texas at Austin, US |
| - | Labile Catalytic Packaging and Delivering of Short Interference RNA to Cancer Cells: Control of Gold Nanoparticles “out” of RNA Complexes |
| | A.M. Chen, O. Taratula, D. Wei, T. Minko, H. He |
| | Rutgers, The State of New Jersey, US |
| - | Toward in vivo Targeting Delivery of siRNA for Efficient Cancer Therapy |
| | O. Taratula, P. Kirkpatrick, R. Salva, I. Pandya, T. Minko, H. He |
| | Rutgers-Newark University, US |
| - | SiRNA for Therapeutic Immuno-modulation: Simultaneous Delivery of Cytokine-targeted SiRNA and DNA Antigens to Dendritic Cells using Polymer Microcarriers |
| | A. Singh, H. Nie, B. Ghosn, K. Roy |
| | The University of Texas at Austin, US |
| - | Multilayered ABCD Nanoparticles for siRNA delivery |
| | M. Thanou, A. Miller |
| | Imperial College London, UK |
| - | Delivery systems for enhanced siRNA delivery |
| | A-L. Bolcato-Bellemin, M-E. Bonnet, J-P. Behr, P. Erbacher |
| | Polyplus-transfection, FR |
| - | Cell-mediated, heat-based therapy for combating HIV infection |
| | H.T. Denver, C.M. de Noronha, D.-A. Borca-Tasciuc |
| | Rensselaer Polytechnic Institute, US |
| - | Gene Delivery and Transfection Studies with Lipopolyplexes in Human Endothelial and Smooth Muscle Cells |
| | L. Brito, S. Little, R. Langer, M. Amiji |
| | Northeastern University, US |
| - | Development of Peptide Nucleic Acid Assemblies for Application in Drug Delivery and Molecular Sensing |
| | F.N. Butler, O. Elibol, B.D. Hines, B. Reddy Jr., R. Bashir, D.E. Bergstrom |
| | Purdue University, US |
| - | Utility of Customized Targeted PEG Linkers for the delivery of oligonucleotides without the use of transfection reagents |
| | H. Zhao, P. Reddy, J. Xia, M. Wang, P. Sapra, R. Bandaru, M. Belen Rubio, D. Wu, P. Zhu, D. Filpula, L.M. Greenberger, I.D. Horak |
| | Enzon Pharmaceuticals, Inc., US |
| - | Nanoparticles of the Thermo-mechanically Activated Zeolite in the Design and Synthesis of New Drugs Generation |
| | S. Ivkovic, D. Brezak |
| | MEGAMIN GmbH, DE |
| - | Invention of Polysaccharide-base Nanoparticles for Enhancing Drug Permeability across the Blood Brain Barrier |
| | E.S. Gil, T.L. Lowe |
| | Pennsylvania State University, US |
| - | Molecular Imaging by Nanoparticle Bacterial delivery Systems: |
| | R. Sharma |
| | University of North Carolina, Greensboro, US |
| - | Influence of water-soluble polymers and surfactants, on mebendazole solubilization by _- and permethyl-_-cyclodextrins |
| | O-M. Ba, M. Lahiani-Skiba, S. Joudieh, F. Bounoure, M. Skiba |
| | Université de Rouen, FR |
| - | Synthesis of magnetic nanoparticles and its applications in drug delivery systems |
| | N. Wright Bolden, V. Rangari, S. Jeelani |
| | Tuskegee University, US |
| - | Organisation of peptide ligands on the surface of gene vectors |
| | M. Wang, A.D. Miller, M. Thanou |
| | Imperial College London, UK |
| - | Radiolabelled Microspheres As a Delivery System For Targetad Radiotherapy |
| | G.P. Bandopadhyaya, J. Shukla |
| | All India Institute of Medical Sciences, IN |
| - | Lyceum Chinense and Calcium Phosphate Nanoparticles for Ophthalmic Drug Delivery |
| | Q. He, Z. Fang, M. Wang, Q.W. Xu, R. Chen, X.Z. Zhang, W.M. Yaun, D.M. Zhau, Jian Wu |
| | Morehouse School of Medicine, US |
| - | How much advantage do Nanoscale Phenomena afford for Pulmonary Delivery? |
| | N. Walji, M. Thanou, N. Quirke |
| | Imperial College London, UK |
| - | Evaluation of the paromomycin loading characteristics in nanoprecipitated PLGA nanospheres |
| | S. Kalimouttou, M. Lahiani-Skiba, N. Naouli, V.S. LIN, M. Skiba |
| | Université de Rouen, FR |
| - | Preparation And Evaluation Of In Vitro Release Of Amphiphilic _-Cyclodextrin Or Pla Nanospheres Containing A Hydrophobic Drug |
| | S. Lin, M. Lahiani-Skiba, N. Naouli, M. Skiba |
| | Université de Rouen, FR |
| - | Step and Flash Imprint Lithography for the Fabrication of Shape-specific, Enzymatically-triggered, Drug Nanocarriers |
| | M. Caldorera-Moore, L.C. Glangchai, L. Shi, K. Roy |
| | The University of Texas at Austin, US |
| - | DNA-Associated Single-walled Carbon Nanotubes as a Platform for Drug Delivery |
| | B.D. Dolash, R.R. Lahiji, D.Y. Zemlyanov, R. Reifenberger, D.E. Bergstrom |
| | Purdue University, US |
| - | Studies of conformational changes induced in a carrier protein: Bovine serum albumin |
| | N. El Kadi, N. Taulier, W. Urbach, M. Waks |
| | Paris V, FR |
| - | Real-time Detection and Quantitation of siRNAs in vivo |
| | A. Cheng, Y. Liang, A. Vlassov, M. Li, Y. Wang, L. Wong, C. Chen, S. Magdaleno |
| | Ambion Inc., An Applied Biosytems Business, US |
| - | Amphoteric liposomes are a platform for multi-organ delivery of oligonucleotides |
| | C. Reinsch, U. Rauchhaus, S. Panzner |
| | novosom AG, DE |
| - | Oral Delivery of Map4K4 siRNA to Macrophages Inhibits TNF alpha Production and Protects against a LPS-Galactosamine Challenge in Mice |
| | M. Aouadi, G. Tesz, E. Soto, M. Wang, S. Nicoloro, G. Ostroff, M. Czech |
| | University of Massachusetts Medical School, US |
| - | Systemic Delivery of Targeted, siRNA-Containing Nanoparticles for the Treatment of Solid Tumors: Concept to Clinic |
| | J.D. Heidel, J.Y-C. Liu, R.K. Zeidan, Y. Liang, S. Rele, M.E. Davis |
| | Calando Pharmaceuticals, US |
| - | Efficient siRNA Delivery by Secondary and Tertiary Amine Modified Polysaccharides |
| | B. Ghosn, A. Singh, K. Roy |
| | The University of Texas at Austin, US |
| - | Labile Catalytic Packaging and Delivering of Short Interference RNA to Cancer Cells: Control of Gold Nanoparticles “out” of RNA Complexes |
| | A.M. Chen, O. Taratula, D. Wei, T. Minko, H. He |
| | Rutgers, The State of New Jersey, US |
| - | Toward in vivo Targeting Delivery of siRNA for Efficient Cancer Therapy |
| | O. Taratula, P. Kirkpatrick, R. Salva, I. Pandya, T. Minko, H. He |
| | Rutgers-Newark University, US |
| - | SiRNA for Therapeutic Immuno-modulation: Simultaneous Delivery of Cytokine-targeted SiRNA and DNA Antigens to Dendritic Cells using Polymer Microcarriers |
| | A. Singh, H. Nie, B. Ghosn, K. Roy |
| | The University of Texas at Austin, US |
| - | Multilayered ABCD Nanoparticles for siRNA delivery |
| | M. Thanou, A. Miller |
| | Imperial College London, UK |
| - | Delivery systems for enhanced siRNA delivery |
| | A-L. Bolcato-Bellemin, M-E. Bonnet, J-P. Behr, P. Erbacher |
| | Polyplus-transfection, FR |
| - | Cell-mediated, heat-based therapy for combating HIV infection |
| | H.T. Denver, C.M. de Noronha, D.-A. Borca-Tasciuc |
| | Rensselaer Polytechnic Institute, US |
| - | Gene Delivery and Transfection Studies with Lipopolyplexes in Human Endothelial and Smooth Muscle Cells |
| | L. Brito, S. Little, R. Langer, M. Amiji |
| | Northeastern University, US |
| - | Development of Peptide Nucleic Acid Assemblies for Application in Drug Delivery and Molecular Sensing |
| | F.N. Butler, O. Elibol, B.D. Hines, B. Reddy Jr., R. Bashir, D.E. Bergstrom |
| | Purdue University, US |
| - | Utility of Customized Targeted PEG Linkers for the delivery of oligonucleotides without the use of transfection reagents |
| | H. Zhao, P. Reddy, J. Xia, M. Wang, P. Sapra, R. Bandaru, M. Belen Rubio, D. Wu, P. Zhu, D. Filpula, L.M. Greenberger, I.D. Horak |
| | Enzon Pharmaceuticals, Inc., US |
| - | Nanoparticles of the Thermo-mechanically Activated Zeolite in the Design and Synthesis of New Drugs Generation |
| | S. Ivkovic, D. Brezak |
| | MEGAMIN GmbH, DE |
| - | Invention of Polysaccharide-base Nanoparticles for Enhancing Drug Permeability across the Blood Brain Barrier |
| | E.S. Gil, T.L. Lowe |
| | Pennsylvania State University, US |
| - | Molecular Imaging by Nanoparticle Bacterial delivery Systems: |
| | R. Sharma |
| | University of North Carolina, Greensboro, US |
| - | Influence of water-soluble polymers and surfactants, on mebendazole solubilization by _- and permethyl-_-cyclodextrins |
| | O-M. Ba, M. Lahiani-Skiba, S. Joudieh, F. Bounoure, M. Skiba |
| | Université de Rouen, FR |
| - | Synthesis of magnetic nanoparticles and its applications in drug delivery systems |
| | N. Wright Bolden, V. Rangari, S. Jeelani |
| | Tuskegee University, US |
| - | Organisation of peptide ligands on the surface of gene vectors |
| | M. Wang, A.D. Miller, M. Thanou |
| | Imperial College London, UK |
| - | Radiolabelled Microspheres As a Delivery System For Targetad Radiotherapy |
| | G.P. Bandopadhyaya, J. Shukla |
| | All India Institute of Medical Sciences, IN |
| - | Lyceum Chinense and Calcium Phosphate Nanoparticles for Ophthalmic Drug Delivery |
| | Q. He, Z. Fang, M. Wang, Q.W. Xu, R. Chen, X.Z. Zhang, W.M. Yaun, D.M. Zhau, Jian Wu |
| | Morehouse School of Medicine, US |
| - | How much advantage do Nanoscale Phenomena afford for Pulmonary Delivery? |
| | N. Walji, M. Thanou, N. Quirke |
| | Imperial College London, UK |
| - | Evaluation of the paromomycin loading characteristics in nanoprecipitated PLGA nanospheres |
| | S. Kalimouttou, M. Lahiani-Skiba, N. Naouli, V.S. LIN, M. Skiba |
| | Université de Rouen, FR |
| - | Preparation And Evaluation Of In Vitro Release Of Amphiphilic _-Cyclodextrin Or Pla Nanospheres Containing A Hydrophobic Drug |
| | S. Lin, M. Lahiani-Skiba, N. Naouli, M. Skiba |
| | Université de Rouen, FR |
| - | Step and Flash Imprint Lithography for the Fabrication of Shape-specific, Enzymatically-triggered, Drug Nanocarriers |
| | M. Caldorera-Moore, L.C. Glangchai, L. Shi, K. Roy |
| | The University of Texas at Austin, US |
| - | DNA-Associated Single-walled Carbon Nanotubes as a Platform for Drug Delivery |
| | B.D. Dolash, R.R. Lahiji, D.Y. Zemlyanov, R. Reifenberger, D.E. Bergstrom |
| | Purdue University, US |
| - | Studies of conformational changes induced in a carrier protein: Bovine serum albumin |
| | N. El Kadi, N. Taulier, W. Urbach, M. Waks |
| | Paris V, FR |
| - | Real-time Detection and Quantitation of siRNAs in vivo |
| | A. Cheng, Y. Liang, A. Vlassov, M. Li, Y. Wang, L. Wong, C. Chen, S. Magdaleno |
| | Ambion Inc., An Applied Biosytems Business, US |
| ISBN: | 978-1-4200-8504-4 |
| Pages: | 808 |
| Hardcopy: | $199.99 |
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| Order: | Mail/Fax Form |
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