Verfügbarkeit: Biomaterials surface science

Biomaterials surface science:

Gespeichert in:

Bibliographische Detailangaben
Weitere Verfasser:	Taubert, Andreas 1972- (HerausgeberIn)
Format:	Buch
Sprache:	English
Veröffentlicht:	Weinheim Wiley-VCH 2013
Schlagworte:	Dünne Schicht Physikalische Eigenschaft Grenzfläche Oberflächenchemie Biomaterial
Online-Zugang:	Inhaltstext Inhaltsverzeichnis
Beschreibung:	XXXII, 581 S. Ill., graph. Darst.
ISBN:	3527330313 9783527330317 9783527649600

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Datensatz im Suchindex

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adam_text	IMAGE 1 CONTENTS PREFACE XVII LIST OF CONTRIBUTORS XXI PART I POLYMER SURFACES 1 1 PROTEINS FOR SURFACE STRUCTURING 3 ALEXANDER SCHULZ, STEPHANIE HILTL, PATRICK VAN RIJN, AND ALEXANDER BOKER 1.1 INTRODUCTION 3 1.2 STRUCTURING AND MODIFICATION OF INTERFACES BY SELF-ASSEMBLING PROTEINS 3 1.2.1 FORMATION AND MODIFICATION OF PROTEIN STRUCTURES AT LIQUID INTERFACES 4 1.2.1.1 SILAFFINS 4 1.2.1.2 HYDROPHOBINS 5 1.2.2 FORMATION AND MODIFICATION OF PROTEIN STRUCTURES AT SOLID INTERFACES 8 1.2.2.1 SILICATEINS 8 1.3 STRUCTURING AND MODIFICATION OF SOLID SURFACES VIA PRINTING OF BIOMOLECULES 11 1.3.1 INTAGLIO PRINTING USING NANOSTRUCTURED WRINKLE SUBSTRATES 11 1.3.1.1 WRINKLING: NANOSTRUCTURED TEMPLATES 11 1.3.1.2 ASSEMBLY OF BIONANOPARTICLES ON WRINKLES 12 1.3.1.3 INTAGLIO PRINTING OF TOBACCO MOSAIC VIRUS 14 1.3.2 MICROCONTACT PRINTING FOR BIOINSPIRED SURFACE MODIFICATION 16 1.3.2.1 MICROCONTACT PRINTING ONTO SELF-ASSEMBLED MONOLAYERS 16 1.3.2.2 MICROCONTACT PRINTING WITH WRINKLE STAMPS 16 1.3.2.3 MICROCONTACT PRINTING WITH POROUS STAMPS 18 1.3.2.4 ENHANCED MICROCONTACT PRINTING 20 . 1.4 CONCLUSION AND OUTLOOK 22 REFERENCES 22 HTTP://D-NB.INFO/1033099759 IMAGE 2 VI \| CONTENTS 2 SURFACE-GRAFTED POLYMER BRUSHES 27 SZCZEPAN ZAPOTOCZNY 2.1 INTRODUCTION 27 2.2 SYNTHESIS OF POLYMER BRUSHES 28 2.3 STIMULI-RESPONSIVE POLYMER BRUSHES 30 2.4 POLYELECTROLYTE BRUSHES 33 2.5 BIO-FUNCTIONALIZED POLYMER BRUSHES 35 ACKNOWLEDGMENT 3 7 REFERENCES 37 3 INHIBITING NONSPECIFIC PROTEIN ADSORPTION: MECHANISMS, METHODS, AND MATERIALS 45 MOJTABA BINAZADEH, HONGBO ZENG, AND LARRY D. UNSWORTH 3.1 INTRODUCTION 45 3.2 UNDERLYING FORCES RESPONSIBLE FOR NONSPECIFIC PROTEIN ADSORPTION 46 3.2.1 PROTEIN STRUCTURE EFFECTS ON ADSORPTION AND ADSORBED FILM PROPERTIES 47 3.3 POLY(ETHYLENE GLYCOL) 48 3.4 SURFACE FORCES APPARATUS (SFA) 50 3.5 APPLICATIONS OF POLY(ETHYLENE GLYCOL) 53 SUMMARY 55 REFERENCES 55 4 STIMULI-RESPONSIVE SURFACES FOR BIOMEDICAL APPLICATIONS 63 RUI R. COSTA, NAT&LIA M. ALVES, J. CARLOS RODRFGUEZ-CABELLO, AND JOAO F. MARIO 4.1 INTRODUCTION 63 4.2 SURFACE MODIFICATION METHODOLOGIES: HOW TO RENDER SUBSTRATES WITH STIMULI RESPONSIVENESS 64 4.2.1 SELF-ASSEMBLED MONOLAYERS 64 4.2.2 THIN POLYMER NETWORK FILMS 65 4.2.3 GRAFTING 66 4.2.4 LAYER-BY-LAYER 68 4.3 EXPLOITABLE STIMULI AND MODEL SMART BIOMATERIALS 69 4.3.1 PHYSICAL STIMULI 69 4.3.1.1 TEMPERATURE 69 4.3.1.2 LIGHT 71 4.3.2 CHEMICAL STIMULI 72 4.3.2.1 PH 72 4.3.2.2 IONIC STRENGTH 73 4.3.3 BIOCHEMICAL STIMULI 73 4.3.3.1 ANTIGENS 73 4.3.3.2 ENZYMES 73 4.3.3.3 GLUCOSE 74 4.3.4 MULTIPLE-RESPONSIVE SURFACES 74 IMAGE 3 CONTENTS IVII 4.4 BIOMEDICAL APPLICATIONS OF SMART SURFACES 75 4.4.1 SMART COATINGS FOR TISSUE ENGINEERING, REGENERATIVE MEDICINE, AND DRUG DELIVERY APPLICATIONS 75 4.4.2 SMART BIOMINERALIZATION 77 4.4.3 CELL SHEET ENGINEERING 78 4.5 CONCLUSIONS 79 ACKNOWLEDGMENTS 79 REFERENCES 80 5 SURFACE MODIFICATION OF POLYMERIC BIOMATERIALS 89 AYSUN GUNEY, FILIZ KARA, OZGE OZGEN, EDA AYSE AKSOY, VASIF HASIRCI, AND NESRIN HASIRCI 5.1 INTRODUCTION 89 5.2 EFFECT OF MATERIAL SURFACES ON INTERACTIONS WITH BIOLOGICAL ENTITIES 90 5.2.1 FUNDAMENTAL ASPECTS OF BIOLOGICAL RESPONSES TO BIOMATERIALS 90 5.2.2 SURFACE PROPERTIES OF POLYMERIC BIOMATERIALS 92 5.3 SURFACE MORPHOLOGY OF POLYMERIC BIOMATERIALS 96 5.3.1 PHYSICAL METHODS 97 5.3.1.1 PHYSICAL ADSORPTION 97 5.3.1.2 SURFACE MICRO- AND NANOPATTERNING 99 5.3.1.3 LANGMUIR-BLODGETT (LB) FILM DEPOSITION 100 5.3.2 CHEMICAL METHODS 102 5.3.2.1 OZONE TREATMENT 102 5.3.2.2 SILANIZATION 103 5.3.2.3 FLUORINATION 104 5.3.2.4 WET TREATMENTS 104 5.3.2.5 FLAME TREATMENT 105 5.3.2.6 INCORPORATION OF FUNCTIONAL GROUPS 105 5.3.3 BIOLOGICAL METHODS 106 5.3.3.1 PROTEIN-ENZYME IMMOBILIZATION 107 5.3.4 RADIATION METHODS 109 5.3.4.1 PLASMA RADIATION 110 5.3.4.2 MICROWAVE AND CORONA DISCHARGE 113 5.3.4.3 PHOTOACTIVATION BY UV 114 5.3.4.4 LASER 115 5.3.4.5 ION BEAM 115 5.3.4.6 GAMMA IRRADIATION 115 5.3.5 IMPROVEMENT OF HYDROPHILICITY 115 5.4 SURFACE MODIFICATIONS TO IMPROVE BIOCOMPATIBILITY OF BIOMATERIALS 118 5.4.1 ADSORPTION OF PROTEINS 118 5.4.1.1 PATTERNING OF THE SURFACES 120 5.5. SURFACE MODIFICATIONS TO IMPROVE HEMOCOMPATIBILITY OF BIOMATERIALS 126 5.5.1 BLOOD-MATERIAL INTERACTION 126 5.5.2 FACTORS INFLUENCING HEMOCOMPATIBILITY 129 IMAGE 4 VIII \| CONTENTS 5.5.3 MODIFICATION TECHNIQUES FOR HEMOCOMPATIBLE SURFACES 131 5.6 SURFACE MODIFICATIONS TO IMPROVE ANTIBACTERIAL PROPERTIES OF BIOMATERIALS 134 5.6.1 BACTERIAL INFECTIONS ASSOCIATED WITH BIOMATERIALS 134 5.6.2 BACTERIA AND MATERIAL INTERACTION 135 5.6.3 MODIFICATION TECHNIQUES FOR OBTAINING ANTIBACTERIAL SURFACES 137 5.6.3.1 SURFACE COATINGS WITH ANTIBIOTICS 138 5.6.3.2 SURFACE COATINGS WITH SILVER 139 5.6.3.3 SURFACE MODIFICATIONS WITH ANTIBACTERIAL AGENTS 140 5.7 NANOPARTICLES 142 REFERENCES 143 6 POLYMER VESICLES ON SURFACES 159 AGNIESZKA JAGODA, JUSTYNA KOWAL, MIHAELA DELCEA, CORNELIA G. PALIVAN, AND WOLFGANG MEIER 6.1 INTRODUCTION 159 6.2 POLYMER VESICLES 160 6.2.1 POLYMER VESICLES IN SOLUTION 160 6.2.1.1 SELF-ASSEMBLY 160 6.2.1.2 AMPHIPHILIC COPOLYMERS 161 6.2.1.3 PREPARATION OF POLYMER VESICLES 161 6.2.1.4 PROPERTIES OF POLYMER VESICLES 162 6.2.2 POLYMER VESICLES TETHERED TO SURFACES 164 6.2.2.1 SURFACE PREPARATION 165 6.2.2.2 IMMOBILIZATION PROCEDURES 166 6.2.3 CHARACTERIZATION OF VESICLES, SURFACES, AND VESICLES ON SURFACES 168 6.2.4 CHARACTERIZATION OF VESICLES IN SOLUTION 169 6.2.4.1 SCATTERING METHODS 169 6.2.4.2 MICROSCOPIC TECHNIQUES 173 6.2.5 SOLID SUPPORT CHARACTERIZATION 176 6.2.6 VESICLES ON SURFACES 177 6.3 APPLICATIONS OF POLYMER MEMBRANES AND VESICLES AS SMART AND ACTIVE SURFACES 180 6.3.1 SURFACE FUNCTIONALIZATION OF POLYMERIC MEMBRANES AND VESICLES 182 6.3.1.1 INSERTION OF MEMBRANE PROTEINS IN POLYMERIC VESICLES 182 6.3.1.2 FUNCTIONALIZATION OF POLYMERIC MEMBRANES AND VESICLES WITH ANTIBODIES, PEPTIDES, AND OTHER LIGANDS 183 6.3.2 POLYMER MEMBRANES AND VESICLES AS (BIO)SENSORS 184 6.3.3 POLYMER VESICLES AS NANOREACTORS FOR DIAGNOSTICS AND THERAPY 185 6.3.3.1 ENCAPSULATION OF FLUORESCENT MOLECULES 186 6.3.3.2 ENCAPSULATION OF NANOPARTICLES 186 6.3.3.3 POLYMER VESICLES AS NANOREACTORS 186 6.4 CURRENT LIMITATIONS OF POLYMER VESICLES AND EMERGING TRENDS 187 6.4.1 REPRODUCIBILITY AND STABILITY OF POLYMER VESICLES 187 6.4.2 LOADING EFFICIENCY OF POLYMER VESICLES 188 IMAGE 5 CONTENTS I I X 6.4.3 CYTOTOXICITY OF POLYMER VESICLES 188 6.4.4 NEXT GENERATION OF POLYMER VESICLES 189 6.5 CONCLUSIONS 190 ABBREVIATIONS AND SYMBOLS 191 REFERENCES 193 PART II HYDROGEL SURFACES 205 7 PROTEIN-ENGINEERED HYDROGELS 207 JORDAN RAPHEL, ANDREINA PARISI-AMON, AND SARAH C. HEILSHORN 7.1 INTRODUCTION TO PROTEIN ENGINEERING FOR MATERIALS DESIGN 207 7.2 HISTORY AND DEVELOPMENT OF PROTEIN-ENGINEERED MATERIALS 207 7.3 MODULAR DESIGN AND RECOMBINANT SYNTHESIS STRATEGY 210 7.3.1 MODULE DESIGN 210 7.3.2 LINKER DESIGN 212 7.3.3 RECOMBINANT PROTEIN EXPRESSION 214 7.4 PROCESSING PROTEIN-ENGINEERED MATERIALS 216 7.4.1 CROSS-LINKING MECHANISMS 216 7.4.1.1 EFFECTS OF CROSS-LINK DENSITY 217 7.4.1.2 CHEMICAL HYDROGELS 219 7.4.1.3 PHYSICAL HYDROGELS 220 7.4.1.4 SELF-ASSEMBLING HYDROGEL TRIGGERS 222 7.4.2 PROTEIN-ENGINEERED HYDROGEL PROCESSING TECHNIQUES 222 7.4.2.1 THIN FILM TECHNIQUES 223 7.4.2.2 BULK PROTEIN TECHNIQUES 224 7.4.2.3 SURFACE PATTERNING TECHNIQUES 226 7.5 CONCLUSION 228 REFERENCES 229 8 BIOACTIVE AND SMART HYDROGEL SURFACES 239 J. CARLOS RODRIGUEZ-CABELLO, A. FEMDNDEZ-COLINO, M.J. PITTA, M. ALONSO, M. SANTOS, AND A.M. TESTERA 8.1 INTRODUCTION 239 8.2 MIMICKING THE EXTRACELLULAR MATRIX 240 8.2.1 IMPORTANCE OF MIMICKING ECM STRUCTURE: FROM 2D TO 3D CULTURE 240 8.2.2 PATTERNED SURFACES 242 8.2.2.1 LITHOGRAPHY 242 8.2.2.2 MICROMOLDING 243 8.2.2.3 NANO-MICROFLUIDICS 243 8.2.2.4 BIOPATTERNING 243 8.2.2.5 RESPONSE OF CELLS TO PATTERNED SURFACES 244 8.3 HYDROGELS: WHY ARE THEY SO SPECIAL? 245 8.3.1 CHEMICAL VERSUS PHYSICAL HYDROGELS 247 8.3.1.1 CHEMICAL CROSS-LINKING 247 8.3.1.2 BIOINSPIRED PEPTIDIC MOTIFS FOR PHYSICAL CROSS-LINKING 250 IMAGE 6 X \| CONTENTS 8.3.2 INJECTABLE HYDROGELS 251 8.3.3 NATURAL VERSUS ARTIFICIAL POLYMERS 251 8.3.3.1 NATURAL POLYMERS 251 8.3.3.2 ARTIFICIAL POLYMERS 254 8.4 ELASTIN-LIKE RECOMBINAMERS AS BIOINSPIRED PROTEINS 255 8.4.1 ELR CHEMICAL HYDROGELS 258 8.4.2 ELR PHYSICAL HYDROGELS 259 8.4.3 ADDING BIOFUNCTIONALITY 260 8.4.4 COMPOSITES 260 8.5 PERSPECTIVES 261 ACKNOWLEDGMENTS 261 REFERENCES 261 9 BIORESPONSIVE SURFACES AND STEM CELL NICHES 269 MIGUEL ANGEL MATEOS-TIMONEDA, MELBA NAVARRO, AND JOSEP ANTON PLANELL 9.1 GENERAL INTRODUCTION 269 9.2 STEM CELL NICHES 271 9.2.1 HEMATOPOIETIC STEM CELL NICHE 271 9.2.2 EPITHELIAL STEM CELL NICHE 271 9.2.3 NEURAL STEM CELL NICHE 272 9.3 SURFACES AS STEM CELL NICHES 274 9.3.1 TOPOGRAPHY EFFECT ON STEM CELL BEHAVIOR 275 9.3.2 IMPORTANCE OF MECHANICAL PROPERTIES ON STEM CELLS 276 9.3.3 ENGINEERING CHEMICAL MICROENVIRONMENTS FOR STEM CELLS 277 9.4 CONCLUSIONS 279 REFERENCES 279 PART III HYBRID & INORGANIC SURFACES 285 10 MICRO- AND NANOPATTERNING OF BIOMATERIAL SURFACES 287 DANIEL BRODOCEANU AND TOBIAS KRAUS 10.1 INTRODUCTION 287 10.2 PHOTOLITHOGRAPHY 287 10.3 ELECTRON BEAM LITHOGRAPHY 290 10.4 FOCUSED ION BEAM 292 10.5 SOFT LITHOGRAPHY 292 10.6 DIP-PEN NANOLITHOGRAPHY 294 10.7 NANOIMPRINT LITHOGRAPHY 295 10.8 SANDBLASTING AND ACID ETCHING 298 10.9 LASER-INDUCED SURFACE PATTERNING 298 10.10 COLLOIDAL LITHOGRAPHY 301 10.11 CONCLUSIONS AND PERSPECTIVES 303 ACKNOWLEDGMENTS 305 REFERENCES 306 IMAGE 7 CONTENTS I XI 11 ORGANIC/INORGANIC HYBRID SURFACES 311 TOBIAS MAI, KATRIN BLEEK, AND ANDREAS TAUBERT 11.1 INTRODUCTION 311 11.2 CALCIUM CARBONATE SURFACES AND INTERFACES 314 11.3 CALCIUM PHOSPHATE SURFACES AND INTERFACES 319 11.4 SILICA SURFACES AND INTERFACES 326 11.5 CONCLUSION AND OUTLOOK 327 ACKNOWLEDGMENTS 328 REFERENCES 328 12 BIOACTIVE CERAMIC AND METALLIC SURFACES FOR BONE ENGINEERING 337 CARLOS MAS-MORUNO, MONTSERRAT ESPANOL, EDGAR B. MONTUFAR, GEMMA MESTRES, CONRADO APARICIO, FRANCISCO JAVIER GIL, AND MARIA-PAU. GINEBRA 12.1 INTRODUCTION 337 12.2 CERAMICS FOR BONE REPLACEMENT AND REGENERATION 338 12.2.1 THE CONCEPT OF BIOACTIVITY IN CERAMICS: GENESIS AND EVOLUTION 339 12.2.2 BIOACTIVITY AS A SURFACE PROPERTY: SURFACE REACTIONS IN GLASSES AND CERAMICS 340 12.2.3 IN VITRO EVALUATION OF BIOACTIVITY 344 12.2.4 BIOACTIVITY VIA FUNCTIONALIZATION OF SURFACES 345 12.3 METALLIC SURFACES FOR BONE REPLACEMENT AND REGENERATION 346 12.3.1 PHYSICAL SURFACE MODIFICATIONS TO CONFER FUNCTIONALITY TO METALLIC IMPLANTS 348 12.3.1.1 MICROROUGH AND NANOROUGH SURFACES 348 12.3.1.2 SUPERHYDROPHILIC SURFACES 349 12.3.2 INORGANIC AND HYBRID BIOACTIVE COATINGS TO IMPROVE BONE - IMPLANT INTERACTIONS 350 12.3.2.1 BIOMIMETIC CALCIUM PHOSPHATE COATINGS 351 12.3.2.2 OTHER INORGANIC SURFACE MODIFICATIONS 352 12.3.2.3 HYBRID COATINGS 352 12.3.3 FUNCTIONALIZATION OF METALLIC MATERIALS WITH BIOMOLECULES 353 12.3.3.1 COATING WITH FULL-LENGTH PROTEINS OR LINEAR PEPTIDES 354 12.3.3.2 COATING WITH PEPTIDE MIXTURES AND MULTIPLE PEPTIDE MOTIFS 358 12.3.3.3 COATING WITH ENGINEERED PROTEIN FRAGMENTS 360 12.3.3.4 COATING WITH CYCLIC PEPTIDES 360 12.3.3.5 COATING WITH PEPTIDOMIMETICS 361 12.3.4 DESIGN OF A COATING MOLECULE AND IMMOBILIZATION METHODS 362 12.3.4.1 THE COATING SYSTEM 362 12.3.4.2 IMMOBILIZATION METHODS 363 12.4 CONCLUSIONS 364 REFERENCES 365 IMAGE 8 CONTENTS 13 PLASMA-ASSISTED SURFACE TREATMENTS AND MODIFICATIONS FOR BIOMEDICAL APPLICATIONS 375 SANJAY MATHUR, TRILOK SINGH, MAHBOUBEH MALEKI, AND THOMAS FISCHER 13.1 INTRODUCTION 375 13.2 SURFACE REQUISITES FOR BIOMEDICAL APPLICATIONS 377 13.2.1 TECHNIQUES OF SURFACE MODIFICATION 378 13.2.2 PLASMA-ASSISTED MODIFICATION OF BIOMATERIALS 379 13.3 SURFACE FUNCTIONALIZATION OF INORGANIC SURFACES BY PLASMA TECHNIQUES 383 13.3.1 PLASMA-ENHANCED CHEMICAL VAPOR DEPOSITION (PECVD) 384 13.3.2 PLASMA-ASSISTED ETCHING (PAE) 385 13.3.3 PLASMA-ASSISTED MODIFICATIONS (PAM) 385 13.4 APPLICATIONS OF PLASMA-MODIFIED SURFACES IN BIOLOGY AND BIOMEDICINE 386 13.4.1 SURFACE MODIFICATION FOR IMPROVED BLOOD COMPATIBILITY 386 13.4.2 SURFACE MODIFICATION FOR PROMOTING CELL ADHESION AND GROWTH 389 13.4.3 SURFACE MODIFICATION FOR IMPROVING WEAR AND CORROSION RESISTANCE 395 13.4.4 SURFACE MODIFICATION FOR TARGETED DRUG DELIVERY 399 13.5 CONCLUSIONS AND OUTLOOK 401 ACKNOWLEDGMENTS 402 REFERENCES 402 14 BIOLOGICAL AND BIOINSPIRED MICRO- AND NANOSTRUCTURED ADHESIVES 409 LONGJIAN XUE, MARTIN STEINHART, AND STANISLAV N. GORB 14.1 INTRODUCTION: ADHESION IN BIOLOGICAL SYSTEMS 409 14.2 FIBRILLAR CONTACT ELEMENTS 410 14.2.1 ORIGIN 410 14.2.2 HIERARCHY 411 14.2.3 SLANTED FIBRILS 412 14.2.4 TIP SHAPE OF FIBRILS 413 14.3 BASIC PHYSICAL FORCES CONTRIBUTING TO ADHESION 414 14.4 CONTACT MECHANICS 415 14.5 LARGER ANIMALS RELY ON FINER FIBERS 416 14.6 PEELING THEORY 416 14.7 ARTIFICIAL ADHESIVE SYSTEMS 419 14.7.1 ARRAYS OF MICRO- AND NANO-FIBRILS 419 14.7.2 TIP SHAPE 424 14.7.3 SLANTED ANGLE 430 14.7.4 HIERARCHY 432 14.7.5 COMBINATION OF SEVERAL FEATURES 436 14.8 TOWARD SMART ADHESIVES 436 ACKNOWLEDGMENT 436 REFERENCES 437 IMAGE 9 CONTENTS I XIII PART IV CELL-SURFACE INTERACTIONS 441 15 GENERIC METHODS OF SURFACE MODIFICATION TO CONTROL ADHESION OF CELLS AND BEYOND 443 MARCUS NIEPEL, ALEXANDER KDWITSCH, YUAN YANG, NING MA, NEHA AGGARWAL, DEEPAK GUDURU, AND THOMAS GROTH 15.1 GENERAL INTRODUCTION 443 15.2 SURVEY ON GENERIC METHODS TO MODIFY MATERIAL SURFACES 444 15.2.1 METHODS FOR PREPARATION OF NANOSTRUCTURED SURFACES 444 15.2.2 LAYER-BY-LAYER TECHNIQUE 445 15.2.3 SELF-ASSEMBLED MONOLAYERS 446 15.2.4 COVALENT MODIFICATION BY WET CHEMICAL METHODS 448 15.3 RESULTS AND DISCUSSION 44 9 15.3.1 CELL ADHESION ON NANOSTRUCTURED SURFACES 449 15.3.2 CELL ADHESION ON PEM-MODIFIED SURFACES 451 15.3.3 CELL ADHESION ON SAMS 454 15.3.4 CHEMICAL MODIFICATION WITH GLYCANS 457 15.4 SUMMARY AND CONCLUSIONS 461 ACKNOWLEDGMENTS 462 REFERENCES 462 16 SEVERE DEFORMATIONS OF MALIGNANT BONE AND SKIN CELLS, AS WELL AS AGED CELLS, ON MICROPATTERNED SURFACES 469 PATRICIA M. DAVIDSON, TOKUKO HARAGUCHI, TAKAKO KOUJIN, THORSTEN STEINBERG, PASCAL TOMAKIDI, YASUSHI HIRAOKA, KARINE ANSELME, AND GIINTER REITER 16.1 INTRODUCTION 469 16.2 EXPERIMENTAL METHODS 470 16.2.1 SUBSTRATE PREPARATION 470 16.2.1.1 SILICON TEMPLATES 470 16.2.1.2 PDMS REPLICAS 471 16.2.1.3 HOT EMBOSSING 471 16.2.2 CELL CULTURE 471 16.2.2.1 BONE CELLS 471 16.2.2.2 KERATINOCYTES 472 16.2.2.3 TIG-1 CELLS 472 16.2.2.4 SAMPLE PREPARATION FOR CELL SEEDING 472 16.2.2.5 IMMUNOHISTOCHEMICAL STAINING AND IMAGING 472 16.3 THE INTERACTION OF BONE CELLS WITH MICROPILLARS 473 16.3.1 THE BEHAVIOR OF CANCEROUS CELLS ON MICROPATTERNED SURFACES 474 16.3.2 THE DEFORMATION OF BONE CELLS AS A FUNCTION OF THEIR MALIGNANCY 477 16.4 THE DEFORMATION OF SKIN CELLS AS A FUNCTION OF THEIR MALIGNANCY 480 16.5 THE DEFORMATION OF FIBROBLASTS OF DIFFERENT CELLULAR AGES 481 16.6 DISCUSSION 484 16.6.1 COMPARISON OF BONE CELLS AND SKIN CELLS 485 IMAGE 10 XIV \| CONTENTS 16.6.2 COMPARISON WITH AGING CELLS 485 16.7 CONCLUSIONS 48 6 ACKNOWLEDGMENTS 487 REFERENCES 487 17 THERMORESPONSIVE CELL CULTURE SURFACES DESIGNED FOR CELL-SHEET-BASED TISSUE ENGINEERING AND REGENERATIVE MEDICINE 491 JUN KOBAYASHI AND TERUO OKANO 17.1 INTRODUCTION 491 17.2 CHARACTERISTICS OF PIPAAM-GRAFTED CELL CULTURE SURFACES 493 17.3 MECHANISMS OF CELL DETACHMENT FROM THE THERMORESPONSIVE CELL CULTURE DISH 495 17.4 CELL-SHEET-BASED TISSUE ENGINEERING AND ITS CLINICAL APPLICATIONS 495 17.5 NEXT-GENERATION THERMORESPONSIVE CELL CULTURE DISHES 498 17.5.1 FUNCTIONAL THERMORESPONSIVE CELL CULTURE DISHES 499 17.5.2 AFFINITY REGULATION BETWEEN CELLS AND SURFACE-IMMOBILIZED LIGANDS ON THERMORESPONSIVE CELL CULTURE DISHES 500 17.5.3 COCULTURED CELL SHEETS USING MICROPATTERNED THERMORESPONSIVE SURFACES 501 17.5.4 PREVASCULARIZED CELL SHEETS 502 17.5.5 THERMORESPONSIVE MICROCARRIERS FOR LARGE-SCALE CULTIVATION 502 17.6 CONCLUSIONS 503 REFERENCES 504 18 CELL MECHANICS ON SURFACES 511 JESSICA H. WEN, HERMES TAYLOR-WEINER, ALEXANDER FUHRMANN, AND ADAM J. ENGLER 18.1 INTRODUCTION 511 18.2 WHAT IS ELASTICITY AND STIFFNESS? 511 18.3 MEASURING AND QUANTIFYING STIFFNESS 514 18.3.1 MEASURING LINEARLY ELASTIC PROPERTIES 515 18.3.2 MEASURING NONLINEARLY ELASTIC PROPERTIES 518 18.4 CONTROLLING SUBSTRATE STIFFNESS 519 18.4.1 MATERIAL PROPERTIES THAT DETERMINE STIFFNESS 519 18.5 NATURALLY DERIVED SCAFFOLDS 520 18.5.1 COLLAGEN TYPE I 521 18.5.2 HYALURONIC ACID 523 18.5.3 CELL-DERIVED EXTRACELLULAR MATRIX 524 18.6 SYNTHETIC SCAFFOLDS 525 18.6.1 POLYACRYLAMIDE HYDROGELS 525 18.6.2 POLY(ETHYLENE GLYCOL) 527 18.6.3 POLYDIMETHYLSILOXANE 528 18.7 SUBSTRATE STIFFNESS' IMPACT ON CELL BEHAVIOR 528 18.8 WHEN STIFFNESS IN VIVO GOES AWRY: THE IMPACT OF FIBROSIS ON FUNCTION 530 IMAGE 11 CONTENTS I XV 18.9 NOVEL SURFACE FABRICATION TECHNIQUES TO IMPROVE BIOMIMICRY 531 18.10 CONCLUSION 532 ACKNOWLEDGMENT 533 ABBREVIATIONS 533 REFERENCES 533 19 ELECTRODE-NEURAL TISSUE INTERACTIONS: IMMUNE RESPONSES, CURRENT TECHNOLOGIES, AND FUTURE DIRECTIONS 539 GLORIA BORA KIM, POURIA FATTAHI, AND MOHAMMAD REZA ABIDIAN 19.1 INTRODUCTION 539 19.2 IMMUNE RESPONSE TO NEURAL IMPLANTS 540 19.2.1 CELLS INVOLVED IN THE IMMUNE RESPONSE OF CNS 540 19.2.2 ACUTE RESPONSE TO IMPLANTED ELECTRODES 542 19.2.3 CHRONIC RESPONSE TO IMPLANTED ELECTRODES 542 19.3 PAST AND CURRENT NEURAL INTERFACES 543 19.3.1 ELECTRODE TYPES 544 19.3.1.1 MICROWIRES 544 19.3.1.2 SILICON ELECTRODES 544 19.3.2 SHAPE, SIZE, AND TEXTURE OF ELECTRODES 545 19.3.3 MATERIALS USED FOR THE INSULATING LAYER 547 19.3.4 MATERIALS USED AS ELECTRODE CONNECTORS 547 19.4 METHODS FOR IMPROVEMENT OF THE ELECTRODE-TISSUE INTERFACE 548 19.4.1 IMPROVEMENT OF ELECTRICAL AND MECHANICAL PROPERTIES 548 19.4.1.1 CONDUCTING POLYMERS 548 19.4.1.2 CARBON NANOTUBES 549 19.4.1.3 HYDROGELS 552 19.4.2 METHODS OF ANCHORING ELECTRODES 555 19.4.3 ELECTRODE INSERTION AND IMPLANTATION PROCEDURE 555 19.5 CONCLUSIONS AND FUTURE DIRECTIONS 557 REFERENCES 558 INDEX 567
any_adam_object	1
author2	Taubert, Andreas 1972-
author2_role	edt
author2_variant	a t at
author_GND	(DE-588)122449134
author_facet	Taubert, Andreas 1972-
building	Verbundindex
bvnumber	BV041270787
classification_rvk	UP 7500 VE 7000 VX 5650 YI 3200 ZM 7070 ZM 7600
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dewey-full	610.28
dewey-hundreds	600 - Technology (Applied sciences)
dewey-ones	610 - Medicine and health
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dewey-search	610.28
dewey-sort	3610.28
dewey-tens	610 - Medicine and health
discipline	Chemie / Pharmazie Physik Werkstoffwissenschaften / Fertigungstechnik Medizin
format	Book
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illustrated	Illustrated
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isbn	3527330313 9783527330317 9783527649600
language	English
oai_aleph_id	oai:aleph.bib-bvb.de:BVB01-026244396
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owner	DE-29T DE-11 DE-703 DE-83
owner_facet	DE-29T DE-11 DE-703 DE-83
physical	XXXII, 581 S. Ill., graph. Darst.
publishDate	2013
publishDateSearch	2013
publishDateSort	2013
publisher	Wiley-VCH
record_format	marc
spelling	Biomaterials surface science ed. by Andreas Taubert ... Weinheim Wiley-VCH 2013 XXXII, 581 S. Ill., graph. Darst. txt rdacontent n rdamedia nc rdacarrier Dünne Schicht (DE-588)4136925-7 gnd rswk-swf Physikalische Eigenschaft (DE-588)4134738-9 gnd rswk-swf Grenzfläche (DE-588)4021991-4 gnd rswk-swf Oberflächenchemie (DE-588)4126166-5 gnd rswk-swf Biomaterial (DE-588)4267769-5 gnd rswk-swf Biomaterial (DE-588)4267769-5 s Oberflächenchemie (DE-588)4126166-5 s DE-604 Grenzfläche (DE-588)4021991-4 s Physikalische Eigenschaft (DE-588)4134738-9 s Dünne Schicht (DE-588)4136925-7 s Taubert, Andreas 1972- (DE-588)122449134 edt Erscheint auch als Online-Ausgabe, EPUB 978-3-527-64962-4 Erscheint auch als Online-Ausgabe, MOBI 978-3-527-64961-7 Erscheint auch als Online-Ausgabe, PDF 978-3-527-64963-1 X:MVB text/html http://deposit.dnb.de/cgi-bin/dokserv?id=4289654&prov=M&dok_var=1&dok_ext=htm Inhaltstext DNB Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=026244396&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis
spellingShingle	Biomaterials surface science Dünne Schicht (DE-588)4136925-7 gnd Physikalische Eigenschaft (DE-588)4134738-9 gnd Grenzfläche (DE-588)4021991-4 gnd Oberflächenchemie (DE-588)4126166-5 gnd Biomaterial (DE-588)4267769-5 gnd
subject_GND	(DE-588)4136925-7 (DE-588)4134738-9 (DE-588)4021991-4 (DE-588)4126166-5 (DE-588)4267769-5
title	Biomaterials surface science
title_auth	Biomaterials surface science
title_exact_search	Biomaterials surface science
title_full	Biomaterials surface science ed. by Andreas Taubert ...
title_fullStr	Biomaterials surface science ed. by Andreas Taubert ...
title_full_unstemmed	Biomaterials surface science ed. by Andreas Taubert ...
title_short	Biomaterials surface science
title_sort	biomaterials surface science
topic	Dünne Schicht (DE-588)4136925-7 gnd Physikalische Eigenschaft (DE-588)4134738-9 gnd Grenzfläche (DE-588)4021991-4 gnd Oberflächenchemie (DE-588)4126166-5 gnd Biomaterial (DE-588)4267769-5 gnd
topic_facet	Dünne Schicht Physikalische Eigenschaft Grenzfläche Oberflächenchemie Biomaterial
url	http://deposit.dnb.de/cgi-bin/dokserv?id=4289654&prov=M&dok_var=1&dok_ext=htm http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=026244396&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
work_keys_str_mv	AT taubertandreas biomaterialssurfacescience

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