Handbook of biodegradable polymers: synthesis, characterization and applications / ed. by A.Lendlein, A.Sisson. - Weinheim: Wiley VCH, 2011. - xx, 405 p.: ill. - Incl. bibl. ref. - Ind.: p.399-405. - ISBN 978-3-527-32441-5  Место хранения:   063 | Библиотека по химическим аспектам охраны окружающей среды при Институте органической химии им. Н.Н.Ворожцова. | Новосибирск

Оглавление / Contents

Preface ........................................................ XV List of Contributors ......................................... XVII 1 Polyesters ................................................... 1 Adam L. Sisson, Michael Schroeter, and Andreas Lendlein 1.1 Historical Background ................................... 1 1.2 Preparative Methods ..................................... 3 1.3 Physical Properties ..................................... 7 1.4 Degradation Mechanisms ................................. 12 1.5 Beyond Classical Poly(Hydroxycarboxylic Acids) ......... 14 References .................................................. 17 2 Biotechnologically Produced Biodegradable Polyesters ........ 23 Jaciane Lutz Ienczak and Gláucia Maria Falcão de Aragão 2.1 Introduction ........................................... 23 2.2 History ................................................ 24 2.3 Polyhydroxyalkanoates - Granules Morphology ............ 26 2.4 Biosynthesis and Biodegradability of Poly (3-Hydroxybutyrate) and Other Polyhydroxyalkanoates .... 29 2.1 Polyhydroxyalkanoates Biosynthesis on Microorganisms ... 29 2.5 Extraction and Recovery ................................ 34 2.6 Physical, Mechanical, and Thermal Properties of Polyhydroxyalkanoates .................................. 36 2.7 Future Directions ...................................... 37 References .................................................. 38 3 Polyan hydrides ............................................. 45 Avi Domb, Jay Prakash Jain, and Neeraj Kumar 3.1 Introduction ........................................... 45 3.2 Types of Polyanhydride ................................. 46 3.3 Synthesis .............................................. 55 3.4 Properties ............................................. 58 3.5 In Vitro Degradation and Erosion of Polyanhydrides ..... 63 3.6 In Vivo Degradation and Elimination of Polyanhydrides ......................................... 64 3.7 Toxicological Aspects of Polyanhydrides ................ 65 3.8 Fabrication of Delivery Systems ........................ 67 3.9 Production and World Market ............................ 68 3.10 Biomedical Applications ................................ 68 References .................................................. 71 4 Poly(Ortho Esters) .......................................... 77 Jorge Heller 4.1 Introduction ........................................... 77 4.2 РОЕ II ................................................. 79 4.3 РОЕ IV ................................................. 82 4.4 Solid Polymers ......................................... 86 4.5 Gel-Like Materials ..................................... 96 4.6 Polymers Based on an Alternate Diketene Acetal ........ 102 4.7 Conclusions ........................................... 104 References ................................................. 104 5 Biodegradable Polymers Composed of Naturally Occurring α-Amino Acids .............................................. 107 Ramaz Katsarava and Zaza Gomurashvili 5.1 Introduction .......................................... 107 5.2 Amino Acid-Based Biodegradable Polymers (AABBPs) ...... 109 5.3 Conclusion and Perspectives ........................... 126 References ................................................. 127 6 Biodegradable Polyurethanes and Poly (ester amide)s ........ 133 Alfonso Rodríguez-Galán, Lourdes Franco, and Jordi Puiggalí Abbreviations ......................................... 133 6.1 Chemistry and Properties of Biodegradable Polyurethanes ......................................... 134 6.2 Biodegradation Mechanisms of Polyurethanes ............ 140 6.3 Applications of Biodegradable Polyurethanes ........... 142 6.4 New Polymerization Trends to Obtain Degradable Polyurethanes ......................................... 145 6.5 Aliphatic Poly(ester amide)s: A Family of Biodegradable Thermoplastics with Interest as New Biomaterials .......................................... 149 Acknowledgments ............................................ 152 References ................................................. 152 7 Carbohydrates .............................................. 155 Gerald Dräger, Andreas Krause, Lena Möller, and Severian Dumitriu 7.1 Introduction .......................................... 155 7.2 Alginate .............................................. 156 7.3 Carrageenan ........................................... 160 7.4 Cellulose and Its Derivatives ......................... 162 7.5 Microbial Cellulose ................................... 164 7.6 Chitin and Chitosan ................................... 165 7.7 Dextran ............................................... 169 7.8 Gellan ................................................ 171 7.9 Guar Gum .............................................. 174 7.10 Hyaluronic Acid (Hyaluronan) .......................... 176 7.11 Pullulan .............................................. 180 7.12 Scleroglucan .......................................... 182 7.13 Xanthan ............................................... 184 7.14 Summary ............................................... 186 Acknowledgments ............................................ 187 In Memoriam ................................................ 187 References ................................................. 187 8 Biodegradable Shape-Memory Polymers ........................ 195 Marc Behl, Jörg Zotzmann, Michael Schroeter, and Andreas Lendlein 8.1 Introduction .......................................... 195 8.2 General Concept of SMPs ............................... 197 8.3 Classes of Degradable SMPs ............................ 201 8.4 Applications of Biodegradable SMPs .................... 209 9 Biodegradable Elastic Hydrogels for Tissue Expander Application ................................................ 217 Thanh Huyen Tran, John Garner, Yourong Fu, Kinam Park, and Kang Moo Huh 9.1 Introduction .......................................... 217 9.2 Synthesis of Elastic Hydrogels ........................ 220 9.3 Physical Properties of Elastic Hydrogels .............. 225 9.4 Applications of Elastic Hydrogels ..................... 229 9.5 Elastic Hydrogels for Tissue Expander Applications .... 231 9.6 Conclusion ............................................ 233 References ................................................. 234 10 Biodegradable Dendrimers and Dendritic Polymers ............ 237 Jayant Khandare and Sanjay Kumar 10.1 Introduction ...........................237 10.2 Challenges for Designing Biodegradable Dendrimers ..... 240 10.3 Design of Self-Immolative Biodegradable Dendrimers .... 245 10.4 Biological Implications of Biodegradable Dendrimers ... 256 10.5 Future Perspectives of Biodegradable Dendrimers ....... 259 10.6 Concluding Remarks .................................... 259 References ................................................. 260 11 Analytical Methods for Monitoring Biodegradation Processes of Environmentally Degradable Polymers ........... 263 Maarten van der Zee 11.1 Introduction .......................................... 263 11.2 Some Background ....................................... 263 11.3 Defining Biodegradability ............................. 265 11.4 Mechanisms of Polymer Degradation ..................... 266 11.5 Measuring Biodegradation of Polymers .................. 267 11.6 Conclusions ........................................... 275 References ................................................. 276 12 Modeling and Simulation of Microbial Depolymerization Processes of Xenobiotic Polymers ........................... 283 Masaji Watanabe and Fusako Kawai 12.1 Introduction .......................................... 283 12.2 Analysis of Exogenous Depolymerization ................ 284 12.3 Materials and Methods ................................. 287 12.4 Analysis of Endogenous Depolymerization ............... 295 12.5 Discussion ............................................ 306 Acknowledgments ............................................ 307 References ................................................. 307 13 Regenerative Medicine: Reconstruction of Tracheal and Pharyngeal Mucosal Defects in Head and Neck Surgery ........ 309 Dorothee Rickert, Bernhard Hiebl, Rosemarie Fuhrmann, Friedrich Jung, Andreas Lendlein, and Ralf-Peter Franke 13.1 Introduction .......................................... 309 13.2 Regenerative Medicine for the Reconstruction of the Upper Aerodigestive Tract ............................. 311 13.3 Methods and Novel Therapeutical Options in Head and Neck Surgery .......................................... 321 13.4 Vascularization of Tissue-Engineered Constructs ....... 328 13.5 Application of Stem Cells in Regenerative Medicine .... 329 13.6 Conclusion ............................................ 331 References ................................................. 331 14 Biodegradable Polymers as Scaffolds for Tissue Engineering ................................................ 341 Yoshito Ikada Abbreviations ......................................... 341 14.1 Introduction .......................................... 341 14.2 Short Overview of Regenerative Biology ................ 342 14.3 Minimum Requirements for Tissue Engineering ........... 348 14.4 Structure of Scaffolds ................................ 352 14.5 Biodegradable Polymers for Tissue Engineering ......... 354 14.6 Some Examples for Clinical Application of Scaffold .... 357 14.7 Conclusions ........................................... 361 References ................................................. 361 15 Drug Delivery Systems ...................................... 363 Kevin M. Shakesheff 15.1 Introduction .......................................... 363 15.2 The Clinical Need for Drug Delivery Systems ........... 364 15.3 Poly(a-Hydroxyl Acids) ................................ 365 15.4 Polyanhydrides ........................................ 368 15.5 Manufacturing Routes .................................. 370 15.6 Examples of Biodegradable Polymer Drug Delivery Systems Under Development ............................. 371 15.7 Concluding Remarks .................................... 376 References ................................................. 376 16 Oxo-biodegradable Polymers: Present Status and Future Perspectives ............................................... 379 Emo Chiellini, Andrea Corti, Salvatore D'Antone, and David Mckeen Wiles 16.1 Introduction .......................................... 379 16.2 Controlled-Lifetime Plastics .......................... 380 16.3 The Abiotic Oxidation of Polyolefms ................... 382 16.4 Enhanced Oxo-biodegradation of Polyolefins ............ 387 16.5 Processability and Recovery of Oxo-biodegradable Polyolefins ........................................... 395 16.6 Concluding Remarks .................................... 396 References ................................................. 397 Index ......................................................... 399