Verfügbarkeit: Handbook of biodegradable polymers

Handbook of biodegradable polymers: synthesis, characterization and applications

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Weitere Verfasser:	Lendlein, Andreas (HerausgeberIn)
Format:	Buch
Sprache:	English
Veröffentlicht:	Weinheim Wiley-VCH 2011
Schlagworte:	Biologisch abbaubarer Kunststoff
Online-Zugang:	Inhaltstext Inhaltsverzeichnis
Beschreibung:	XX, 405 S. Ill., graph. Darst.
ISBN:	9783527324415 3527324410

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Datensatz im Suchindex

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adam_text	IMAGE 1 CONTENTS PREFACE XV LIST OF CONTRIBUTORS XVII 1 POLYESTERS 1 ADAM L SISSON, MICHAEL SCHROETER, AND ANDREAS LENDLEIN 1.1 HISTORICAL BACKGROUND 1 1.1.1 BIOMEDICAL APPLICATIONS 1 1.1.2 POLY(HYDROXYCARBOXYLIC ACIDS) 2 1.2 PREPARATIVE METHODS 3 1.2.1 POLY(HYDROXYCARBOXYLIC ACID) SYNTHESES 3 1.2.2 METAL-FREE SYNTHETIC PROCESSES 6 1.2.3 POLYANHYDRIDES 6 1.3 PHYSICAL PROPERTIES 7 1.3.1 CRYSTALLINITY AND THERMAL TRANSITION TEMPERATURES 7 1.3.2 IMPROVING ELASTICITY BY PREPARING MULTIBLOCK COPOLYMERS 9 1.3.3 COVALENTLY CROSSLINKED POLYESTERS 11 1.3.4 NETWORKS WITH SHAPE-MEMORY CAPABILITY 11 1.4 DEGRADATION MECHANISMS 12 1.4.1 DETERMINING EROSION KINETICS 12 1.4.2 FACTORS AFFECTING EROSION KINETICS 13 1.5 BEYOND CLASSICAL POLY(HYDROXYCARBOXYLIC ACIDS) 14 1.5.1 ALTERNATE SYSTEMS 14 1.5.2 COMPLEX ARCHITECTURES 35 1.5.3 NANOFABRICATION 26 REFERENCES 17 2 BIOTECHNOLOGICALLY PRODUCED BIODEGRADABLE POLYESTERS 23 JACIANE LUTZ LENCZAK AND CLAUCIA MARIA FALCAO DE ARAGAO 2.1 INTRODUCTION 23 2.2 HISTORY 24 2.3 POLYHYDROXYALKANOATES - GRANULES MORPHOLOGY 26 2.4 BIOSYNTHESIS AND BIODEGRADABILITY OF POLY(3-HYDROXYBURYRATE) AND OTHER POLYHYDROXYALKANOATES 29 BIBLIOGRAFISCHE INFORMATIONEN HTTP://D-NB.INFO/1009639862 DIGITALISIERT DURCH IMAGE 2 VI CONTENTS 2.4.1 POLYHYDROXYALKANOATES BIOSYNTHESIS ON MICROORGANISMS 29 2.4.2 PLANTS AS POLYHYDROXYALKANOATES PRODUCERS 32 2.4.3 MICROBIAL DEGRADATION OF POLYHYDROXYALKANOATES 33 2.5 EXTRACTION AND RECOVERY 34 2.6 PHYSICAL, MECHANICAL, AND THERMAL PROPERTIES OF POLYHYDROXYALKANOATES 36 2.7 FUTURE DIRECTIONS 37 REFERENCES 38 3 POLYANHYDRIDES 45 AVI DOMB,JAY PRAKASH JAIN, AND NEERAJ KUMAR 3.1 INTRODUCTION 45 3.2 TYPES OF POLYANHYDRIDE 46 3.2.1 AROMATIC POLYANHYDRIDES 46 3.2.2 ALIPHATIC-AROMATIC POLYANHYDRIDES 49 3.2.3 POLY(ESTER-ANHYDRIDES) AND POLY(ETHER-ANHYDRIDES) 49 3.2.4 FATTY ACID-BASED POLYANHYDRIDES 49 3.2.5 RA-BASED POLYANHYDRIDES 49 3.2.6 AMINO ACID-BASED POLYANHYDRIDES 52 3.2.7 PHOTOPOLYMERIZABLE POLYANHYDRIDES 52 3.2.8 SALICYLATE-BASED POLYANHYDRIDES 53 3.2.9 SUCCINIC ACID-BASED POLYANHYDRIDES 54 3.2.10 BLENDS 55 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 POE II 79 4.2.1 POLYMER SYNTHESIS 79 4.2.1.1 REARRANGEMENT PROCEDURE USING AN RU(PPH 3 ) 3 CL 2 NA 2 CO 3 CATALYST 80 4.2.1.2 ALTERNATE DIKETENE ACETALS 80 4.2.1.3 TYPICAL POLYMER SYNTHESIS PROCEDURE 80 4.2.2 DRUG DELIVERY 81 4.2.2.1 DEVELOPMENT OF IVERMECTIN CONTAINING STRANDS TO PREVENT HEARTWORM INFESTATION IN DOGS 82 4.2.2.2 EXPERIMENTAL PROCEDURE 82 IMAGE 3 CONTENTS VII 4.2.2.3 RESULTS 82 4.3 POE IV 82 4.3.1 POLYMER SYNTHESIS 82 4.3.1.1 TYPICAL POLYMER SYNTHESIS PROCEDURE 82 4.3.1.2 LATENT ACID 83 4.3.1.3 EXPERIMENTAL PROCEDURE 83 4.3.2 MECHANICAL PROPERTIES 83 4.4 SOLID POLYMERS 86 4.4.1 FABRICATION 86 4.4.2 POLYMER STORAGE STABILITY 87 4.4.3 POLYMER STERILIZATION 87 4.4.4 POLYMER HYDROLYSIS 88 4.4.5 DRUG DELIVERY 91 4.4.5.1 RELEASE OF BOVINE SERUM ALBUMIN FROM EXTRUDED STRANDS 91 4.4.5.2 EXPERIMENTAL PROCEDURE 93 4.4.6 DELIVERY OF DNA PLASMID 93 4.4.6.1 DNA PLASMID STABILITY 94 4.4.6.2 MICROENCAPSULATION PROCEDURE 94 4.4.7 DELIVERY OF 5-FLUOROURACIL 95 4.5 GEL-LIKE MATERIALS 96 4.5.1 POLYMER MOLECULAR WEIGHT CONTROL 96 4.5.2 POLYMER STABILITY 98 4.5.3 DRUG DELIVERY 99 4.5.3.1 DEVELOPMENT OF APF 112 MEPIVACAINE DELIVERY SYSTEM 99 4.5.3.2 FORMULATION USED 99 4.5.4 PRECLINICAL TOXICOLOGY 200 4.5.4.1 POLYMER HYDROLYSATE 200 4.5.4.2 WOUND INSTILLATION 200 4.5.5 PHASE II CLINICAL TRIAL 200 4.5.6 DEVELOPMENT OF APF 530 GRANISETRON DELIVERY SYSTEM 200 4.5.6.1 PRECLINICAL TOXICOLOGY 200 4.5.6.2 RAT STUDY 101 4.5.6.3 DOG STUDY 202 4.5.6.4 PHASE II AND PHASE III CLINICAL TRIALS 202 4.6 POLYMERS BASED ON AN ALTERNATE DIKETENE ACETAL 202 4.7 CONCLUSIONS 204 REFERENCES 204 5 BIODEGRADABLE POLYMERS COMPOSED OF NATURALLY OCCURRING A-AMINO ACIDS 207 RAMAZ KATSARAVA AND ZAZA GOMURASHVILI 5.1 INTRODUCTION 207 5.2 AMINO ACID-BASED BIODEGRADABLE POLYMERS (AABBPS) 209 5.2.1 MONOMERS FOR SYNTHESIZING AABBPS 209 5.2.1.1 KEY BIS-NUCLEOPHILIC MONOMERS 209 5.2.1.2 BIS-ELECTROPHILES 222 IMAGE 4 VIII I CONTENTS 5.2.2 AABBPS'SYNTHESIS METHODS 222 5.2.3 AABBPS: SYNTHESIS, STRUCTURE, AND TRANSFORMATIONS 225 5.2.3.1 POLY(ESTER AMIDE)S 225 5.2.3.2 POLY(ESTER URETHANE)S 229 5.2.3.3 POLY(ESTER UREA)S 229 5.2.3.4 TRANSFORMATION OF AABBPS 229 5.2.4 PROPERTIES OF AABBPS 222 5.2.4.1 MWS, THERMAL, MECHANICAL PROPERTIES, AND SOLUBILITY 222 5.2.4.2 BIODEGRADATION OF AABBPS 222 5.2.4.3 BIOCOMPATIBILITY OF AABBPS 223 5.2.5 SOME APPLICATIONS OF AABBPS 224 5.2.6 AABBPS VERSUS BIODEGRADABLE POLYESTERS 225 5.3 CONCLUSION AND PERSPECTIVES 226 REFERENCES 227 6 BIODEGRADABLE POLYURETHANES AND POLY(ESTER AMIDE)S 233 ALFONSO RODRIGUEZ-GALAN, LOURDES FRANCO, ANDJORDI PUIGGALL ABBREVIATIONS 233 6.1 CHEMISTRY AND PROPERTIES OF BIODEGRADABLE POLYURETHANES 234 6.2 BIODEGRADATION MECHANISMS OF POLYURETHANES 240 6.3 APPLICATIONS OF BIODEGRADABLE POLYURETHANES 242 6.3.1 SCAFFOLDS 242 6.3.1.1 CARDIOVASCULAR APPLICATIONS 243 6.3.1.2 MUSCULOSKELETAL APPLICATIONS 243 6.3.1.3 NEUROLOGICAL APPLICATIONS 144 6.3.2 DRUG DELIVERY SYSTEMS 244 6.3.3 OTHER BIOMEDICAL APPLICATIONS 245 6.4 NEW POLYMERIZATION TRENDS TO OBTAIN DEGRADABLE POLYURETHANES 145 6.4.1 POLYURETHANES OBTAINED WITHOUT USING DIISOCYNATES 245 6.4.2 ENZYMATIC SYNTHESIS OF POLYURETHANES 246 6.4.3 POLYURETHANES FROM VEGETABLE OILS 247 6.4.4 POLYURETHANES FROM SUGARS 247 6.5 ALIPHATIC POLY(ESTER AMIDE)S: A FAMILY OF BIODEGRADABLE THERMOPLASTICS WITH INTEREST AS NEW BIOMATERIALS 249 ACKNOWLEDGMENTS 252 REFERENCES 252 7 CARBOHYDRATES 255 GERALD DRAEGER, ANDREAS KRAUSE, LENA MOELLER, AND SEVERIAN DUMITRIU 7.1 INTRODUCTION 255 7.2 ALGINATE 256 7.3 CARRAGEENAN 160 7.4 CELLULOSE AND ITS DERIVATIVES 262 7.5 MICROBIAL CELLULOSE 264 7.6 CHITIN AND CHITOSAN 265 IMAGE 5 CONTENTS IX 7.7 7.8 7.9 7.10 7.11 7.12 7.13 7.14 DEXTRAN 269 GELLAN 272 GUAR GUM 274 HYALURONIC ACID (HYALURONAN) PULLULAN 280 SDEROGLUCAN 282 XANTHAN 284 SUMMARY 286 ACKNOWLEDGMENTS 287 IN MEMORIAM 287 REFERENCES 287 276 8 BIODEGRADABLE SHAPE-MEMORY POLYMERS 295 MARC BEHL, JOERG ZOTZMANN, MICHAEL SCHROETER, AND ANDREAS LENDLEIN 8.1 INTRODUCTION 295 8.2 GENERAL CONCEPT OF SMPS 297 8.3 CLASSES OF DEGRADABLE SMPS 202 8.3.1 COVALENT NETWORKS WITH CRYSTALLIZABLE SWITCHING DOMAINS, T AANS =T M 202 8.3.2 COVALENT NETWORKS WITH AMORPHOUS SWITCHING DOMAINS, T UELNS =T S 204 8.3.3 PHYSICAL NETWORKS WITH CRYSTALLIZABLE SWITCHING DOMAINS, T T A N S = R M 205 8.3.4 PHYSICAL NETWORKS WITH AMORPHOUS SWITCHING DOMAINS, T TANS = T G 208 8.4 APPLICATIONS OF BIODEGRADABLE SMPS 209 8.4.1 SURGERY AND MEDICAL DEVICES 209 8.4.2 DRUG RELEASE SYSTEMS 220 REFERENCES 222 9 BIODEGRADABLE ELASTIC HYDROGELS FOR TISSUE EXPANDER APPLICATION 227 THANH HUYEN TRAN, JOHN GARNER, YOURONG FU, KINAM PARK, AND KANG MOO HUH 9.1 INTRODUCTION 227 9.1.1 HYDROGELS 227 9.1.2 ELASTIC HYDROGELS 227 9.1.3 HISTORY OF ELASTIC HYDROGELS AS BIOMATERIALS 228 9.1.4 ELASTICITY OF HYDROGEL FOR TISSUE APPLICATION 229 9.2 SYNTHESIS OF ELASTIC HYDROGELS 220 9.2.1 CHEMICAL ELASTIC HYDROGELS 220 9.2.1.1 POLYMERIZATION OF WATER-SOLUBLE MONOMERS IN THE PRESENCE OF CROSSLINKING AGENTS 220 9.2.1.2 CROSSLINKING OF WATER-SOLUBLE POLYMERS 221 9.2.2 PHYSICAL ELASTIC HYDROGELS 222 9.2.2.1 FORMATION OF PHYSICAL ELASTIC HYDROGELS VIA HYDROGEN BONDING 222 IMAGE 6 X I CONTENTS 9.2.2.2 FORMATION OF PHYSICAL ELASTIC HYDROGELS VIA HYDROPHOBIE INTERACTION 224 9.3 PHYSICAL PROPERTIES OF ELASTIC HYDROGELS 225 9.3.1 MECHANICAL PROPERTY 225 9.3.2 SWELLING PROPERTY 227 9.3.3 DEGRADATION OF BIODEGRADABLE ELASTIC HYDROGELS 229 9.4 APPLICATIONS OF ELASTIC HYDROGELS 229 9.4.1 TISSUE ENGINEERING APPLICATION 229 9.4.2 APPLICATION OF ELASTIC SHAPE-MEMORY HYDROGELS AS BIODEGRADABLE SUTURES 230 9.5 ELASTIC HYDROGELS FOR TISSUE EXPANDER APPLICATIONS 232 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 10.2.1 IS BIODEGRADATION A CRITICAL MEASURE OF BIOCOMPATIBILITY? 243 10.3 DESIGN OF SELF-IMMOLATIVE BIODEGRADABLE DENDRIMERS 245 10.3.1 CLEVABLE SHELLS-MULTIVALENT PEGYLATED DENDRIMER FOR PROLONGED CIRCULATION 246 10.3.1.1 POLYLYSINE-CORE BIODEGRADABLE DENDRIMER PRODRUG 250 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 11.4.1 NONBIOLOGICAL DEGRADATION OF POLYMERS 266 11.4.2 BIOLOGICAL DEGRADATION OF POLYMERS 267 11.5 MEASURING BIODEGRADATION OF POLYMERS 267 11.5.1 ENZYME ASSAYS 269 11.5.1.1 PRINCIPLE 269 11.5.1.2 APPLICATIONS 269 11.5.1.3 DRAWBACKS 270 11.5.2 PLATE TESTS 270 11.5.2.1 PRINCIPLE 270 11.5.2.2 APPLICATIONS 270 11.5.2.3 DRAWBACKS 270 IMAGE 7 CONTENTS XI 11.5.3 RESPIRATION TESTS 272 11.5.3.1 PRINCIPLE 272 11.5.3.2 APPLICATIONS 272 11.5.3.3 SUITABILITY 272 11.5.4 GAS (CO 2 OR CH 4 ) EVOLUTION TESTS 272 11.5.4.1 PRINCIPLE 272 11.5.4.2 APPLICATIONS 272 11.5.4.3 SUITABILITY 273 11.5.5 RADIOACTIVELY LABELED POLYMERS 273 11.5.5.1 PRINCIPLE AND APPLICATIONS 273 11.5.5.2 DRAWBACKS 273 11.5.6 LABORATORY-S CALE SIMULATED ACCELERATING ENVIRONMENTS 274 11.5.6.1 PRINCIPLE 274 11.5.6.2 APPLICATIONS 274 11.5.6.3 DRAWBACKS 275 11.5.7 NATURAL ENVIRONMENTS, FIELD TRIALS 275 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 12.2.1 MODELING OF EXOGENOUS DEPOLYMERIZATION 284 12.2.2 BIODEGRADATION OF PEG 287 12.3 MATERIALS AND METHODS 287 12.3.1 CHEMICALS 287 12.3.2 MICROORGANISMS AND CULTIVATION 287 12.3.3 HPLC ANALYSIS 288 12.3.4 NUMERICAL STUDY OF EXOGENOUS DEPOLYMERIZATION 288 12.3.5 TIME FACTOR OF DEGRADATION RATE 291 12.3.6 SIMULATION WITH TIME-DEPENDENT DEGRADATION RATE 293 12.4 ANALYSIS OF ENDOGENOUS DEPOLYMERIZATION 295 12.4.1 MODELING OF ENDOGENOUS DEPOLYMERIZATION 295 12.4.2 ANALYSIS OF ENZYMATIC PLA DEPOLYMERIZATION 300 12.4.3 SIMULATION OF AN ENDOGENOUS DEPOLYMERIZATION PROCESS OF PLA 302 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 HIEBT, ROSEMARIE FUHRMANN, FRIEDRICH JUNG, ANDREAS LENDLEIN, AND RALF-PETER FRANKE IMAGE 8 XII CONTENTS 13.1 INTRODUCTION 309 13.1.1 HISTORY OF IMPLANT MATERIALS 309 13.1.2 REGENERATIVE MEDICINE 309 13.1.3 FUNCTIONALIZED IMPLANT MATERIALS 310 13.1.4 STERILIZATION OF POLYMER-BASED DEGRADABLE IMPLANT MATERIALS 320 13.2 REGENERATIVE MEDICINE FOR THE RECONSTRUCTION OF THE UPPER AERODIGESTIVE TRACT 322 13.2.1 APPLICATIONS OF DIFFERENT IMPLANT MATERIALS IN TRACHEAL SURGERY 322 13.2.2 NEW METHODS AND APPROACHES FOR TRACHEAL RECONSTRUCTION 323 13.2.2.1 EPITHELIALIZATION OF TRACHEAL SCAFFOLDS 327 13.2.2.2 VASCULAR SUPPLY OF TRACHEAL CONSTRUCTS 329 13.2.3 REGENERATIVE MEDICINE FOR RECONSTRUCTION OF PHARYNGEAL DEFECTS 320 13.3 METHODS AND NOVEL THERAPEUTICAL OPTIONS IN HEAD AND NECK SURGERY 322 13.3.1 PRIMARY CELL CULTURES OF THE UPPER AERODIGESTIVE TRACT 322 13.3.2 ASSESSMENT AND REGULATION OF MATRIX METALLOPROTEASES AND WOUND HEALING 321 13.3.3 INFLUENCE OF IMPLANT TOPOGRAPHY 322 13.3.4 APPLICATION OF NEW IMPLANT MATERIALS IN ANIMAL MODELS 324 13.4 VASCULARIZATION OF TISSUE-ENGINEERED CONSTRUCTS 328 13.5 APPLICATION OF STEM CELLS IN REGENERATIVE MEDICINE 329 13.6 CONCLUSION 332 REFERENCES 332 14 BIODEGRADABLE POLYMERS AS SCAFFOLDS FOR TISSUE ENGINEERING 342 YOSHITO IKADA ABBREVIATIONS 342 14.1 INTRODUCTION 342 14.2 SHORT OVERVIEW OF REGENERATIVE BIOLOGY 342 14.2.1 LIMB REGENERATION OF URODELES 342 14.2.2 WOUND REPAIR AND MORPHOGENESIS IN THE EMBRYO 343 14.2.3 REGENERATION IN HUMAN FINGERTIPS 344 14.2.4 THE DEVELOPMENT OF BONES: OSTEOGENESIS 345 14.2.5 REGENERATION IN LIVER: COMPENSATORY REGENERATION 347 14.3 MINIMUM REQUIREMENTS FOR TISSUE ENGINEERING 348 14.3.1 CELLS AND GROWTH FACTORS 348 14.3.2 FAVORABLE ENVIRONMENTS FOR TISSUE REGENERATION 349 14.3.3 NEED FOR SCAFFOLDS 350 14 A STRUCTURE OF SCAFFOLDS 352 14A.I SURFACE STRUCTURE 352 14.4.2 POROUS STRUCTURE 353 IMAGE 9 CONTENTS XIII 14.4.3 ARCHITECTURE OF SCAFFOLD 353 14.4.4 BARRIER AND GUIDANCE STRUCTURE 354 14.5 BIODEGRADABLE POLYMERS FOR TISSUE ENGINEERING 354 14.5.1 SYNTHETIC POLYMERS 355 14.5.2 BIOPOLYMERS 356 14.5.3 CALCIUM PHOSPHATES 357 14.6 SOME EXAMPLES FOR CLINICAL APPLICATION OF SCAFFOLD 357 14.6.1 SKIN 357 14.6.2 ARTICULAR CARTILAGE 357 14.6.3 MANDIBLE 358 14.6.4 VASCULAR TISSUE 359 14.7 CONCLUSIONS 362 REFERENCES 362 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(OC-HYDROXYL ACIDS) 365 15.3.1 CONTROLLING DEGRADATION RATE 366 15.4 POLYANHYDRIDES 368 15.5 MANUFACTURING ROUTES 370 15.6 EXAMPLES OF BIODEGRADABLE POLYMER DRUG DELIVERY SYSTEMS UNDER DEVELOPMENT 372 15.6.1 POLYKETALS 371 15.6.2 SYNTHETIC FIBRIN 372 15.6.3 NANOPARTIDES 372 15.6.4 MICROFABRICATED DEVICES 373 15.6.5 POLYMER-DRUG CONJUGATES 373 15.6.6 RESPONSIVE POLYMERS FOR INJECTABLE DELIVERY 375 15.6.7 PEPTIDE-BASED DRUG DELIVERY SYSTEMS 375 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 POLYOLEFINS 382 16.3.1 MECHANISMS 383 16.3.2 OXIDATION PRODUCTS 384 16.3.3 PRODEGRADANT EFFECTS 386 16.4 ENHANCED OXO-BIODEGRADATION OF POLYOLEFINS 387 16.4.1 BIODEGRADATION OF POLYOLEFIN OXIDATION PRODUCTS 390 IMAGE 10 XIV CONTENTS 16.4.2 STANDARD TESTS 391 16.4.3 BIOMETRIE MEASUREMENTS 393 16.5 PROCESSABILITY AND RECOVERY OF OXO-BIODEGRADABLE POLYOLEFINS 395 16.6 CONCLUDING REMARKS 396 REFERENCES 397 INDEX 399
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discipline	Chemie / Pharmazie Maschinenbau / Maschinenwesen Physik Biologie Chemie Werkstoffwissenschaften / Fertigungstechnik
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illustrated	Illustrated
indexdate	2024-09-06T00:19:01Z
institution	BVB
isbn	9783527324415 3527324410
language	English
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oclc_num	707201108
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physical	XX, 405 S. Ill., graph. Darst.
publishDate	2011
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publisher	Wiley-VCH
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spellingShingle	Handbook of biodegradable polymers synthesis, characterization and applications Biologisch abbaubarer Kunststoff (DE-588)4634464-0 gnd
subject_GND	(DE-588)4634464-0
title	Handbook of biodegradable polymers synthesis, characterization and applications
title_auth	Handbook of biodegradable polymers synthesis, characterization and applications
title_exact_search	Handbook of biodegradable polymers synthesis, characterization and applications
title_full	Handbook of biodegradable polymers synthesis, characterization and applications ed. by Andreas Lendlein ...
title_fullStr	Handbook of biodegradable polymers synthesis, characterization and applications ed. by Andreas Lendlein ...
title_full_unstemmed	Handbook of biodegradable polymers synthesis, characterization and applications ed. by Andreas Lendlein ...
title_short	Handbook of biodegradable polymers
title_sort	handbook of biodegradable polymers synthesis characterization and applications
title_sub	synthesis, characterization and applications
topic	Biologisch abbaubarer Kunststoff (DE-588)4634464-0 gnd
topic_facet	Biologisch abbaubarer Kunststoff
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