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| Preface | ||
| 1 | Intravitreal Treatment of Cytomegalovirus Retinitis and the Need for Controlled Release Systems | 2 |
| 2 | Key Features and Future Perspectives in the Development of Intravaginal Drug Delivery Systems | 23 |
| 3 | Cationic Hydrogels for Controlled Release of Proteins and Other Macromolecules | 56 |
| 4 | Water-Soluble Polyanions as Oral Drug Carriers: Poly(sulfopropyl methacrylate potassium-co-alkyl methacrylate) | 67 |
| 5 | Polymeric Prodrugs: Novel Polymers with Bioactive Components | 83 |
| 6 | Synthesis of Thioester End-Functionalized Poly([epsilon]-carprolactone) and Its Application in Chemoselective Ligation | 92 |
| 7 | The Reactive Polymeric Micelle, Convenient Tool for Targeting Drug Delivery System | 105 |
| 8 | Branched Polymeric Micelles: Synthesis and Encapsulation | 117 |
| 9 | Injectable Absorbable Gel-Formers for the Controlled Release of Bioactive Agents-Drugs | 125 |
| 10 | Novel Ionogenic Acrylate Copolymer Networks for Sustained Solute Delivery | 129 |
| 11 | Direct Synthesis of Polyester Microspheres, Potential Carriers of Bioactive Compounds | 143 |
| 12 | Novel Bioadhesive Complexation Networks for Oral Protein Drug Delivery | 156 |
| 13 | Shell Cross-Linked Knedels: Amphiphilic Core-Shell Nanospheres with Unique Potential for Controlled Release Applications | 165 |
| 14 | Multilayered Semicrystalline Polymeric Controlled Release Systems | 176 |
| 15 | Electroconductive Gels for Controlled Electrorelease of Bioactive Peptides | 185 |
| 16 | Thermally Triggered Gelation of Alginate for Controlled Release | 203 |
| 17 | Effect of Surfactants on the Release of Griseofulvin from Polyvinylpyrrolidone Dispersions | 212 |
| 18 | Self-Diffusion of Solvents and Solute Probes in Polymer Solutions and Gels: The Use of a New Physical Model of Diffusion | 223 |
| 19 | Biodegradation of Lactic-Glycolic Acid Oligomers | 242 |
| 20 | Lactic-Glycolic Acid Oligomeric Microgranules for Aspirin Delivery and Stabilization | 254 |
| 21 | Antitumor Drug Delivery by Dextran Derivatives Immobilizing Platinum Complex (II) Through Coordination Bond | 266 |
| 22 | Potential Role of Controlled Drug Delivery in Tissue Engineering | 279 |
| 23 | Direct Measurement of Multiphase Flow Using Controlled Release of Polymers Soluble in Single Phase | 285 |
| 24 | Structural Characterization and Effects of Gibberellic Acid-Containing Organotin Polymers on Sawgrass and Cattail Germination and Seedling Growth for Everglades Restoration | 295 |
| Author Index | 311 | |
| Subject Index | 313 |
| Price | Condition | Delivery | Seller | Action |
| $230.40 | Digital |
| WonderClub |
William Sandberg
reviewed Tailored Polymeric Materials for Controlled Delivery Systems on July 13, 2013 Tailored Polymeric Materials for Controlled Delivery Systems
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Add Tailored Polymeric Materials for Controlled Delivery Systems, The molecular engineering design and application of polymeric materials for use in delivery systems has evolved into one of the most promising advanced technology areas of polymer science as well as contemporary medical, pharmaceutical, and agricultu, Tailored Polymeric Materials for Controlled Delivery Systems to the inventory that you are selling on WonderClubX
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Add Tailored Polymeric Materials for Controlled Delivery Systems, The molecular engineering design and application of polymeric materials for use in delivery systems has evolved into one of the most promising advanced technology areas of polymer science as well as contemporary medical, pharmaceutical, and agricultu, Tailored Polymeric Materials for Controlled Delivery Systems to your collection on WonderClub |
