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Tissue engineering for artificial organs : regenerative medicine, smart diagnostics and personalized medicine PDF

766 Pages·2017·16.2 MB·English
by  Hasan
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TissueEngineeringforArtificialOrgans Tissue Engineering for Artificial Organs RegenerativeMedicine,SmartDiagnosticsandPersonalized Medicine EditedbyAnwarulHasan Volume1 Editor AllbookspublishedbyWiley-VCHare carefullyproduced.Nevertheless, Prof.AnwarulHasan authors,editors,andpublisherdonot QatarUniversity warranttheinformationcontainedin CollegeofEngineering thesebooks,includingthisbook,tobe DepartmentofMechanicalandIndustrial freeoferrors.Readersareadvisedto Engineering keepinmindthatstatements,data, NanoMicroTechnologiesandTissue illustrations,proceduraldetailsorother EngineeringLab itemsmayinadvertentlybeinaccurate. P.O.Box2713 Doha LibraryofCongressCardNo.:appliedfor Qatar BritishLibraryCataloguing-in-PublicationData Cover Acataloguerecordforthisbookisavailable Frontcoverimages©fotolia/Olexandirand fromtheBritishLibrary. ©Photodisc/grandeduc. Bibliographicinformationpublishedbythe DeutscheNationalbibliothek TheDeutscheNationalbibliothek liststhispublicationintheDeutsche Nationalbibliografie;detailedbibliographic dataareavailableontheInternetat <http://dnb.d-nb.de>. ©2017WILEY-VCHVerlagGmbH&Co. KGaA,Weinheim Allrightsreserved(includingthoseof translationintootherlanguages).Nopartof thisbookmaybereproducedinanyform—by photoprinting,microfilm,oranyother means—nortransmittedortranslatedintoa machinelanguagewithoutwrittenpermission fromthepublishers.Registerednames, trademarks,etc.usedinthisbook,evenwhen notspecificallymarkedassuch,arenottobe consideredunprotectedbylaw. PrintISBN: 978-3-527-33863-4 ePDFISBN: 978-3-527-68994-1 ePubISBN: 978-3-527-68996-5 MobiISBN: 978-3-527-68995-8 oBookISBN: 978-3-527-68993-4 CoverDesign SchulzGrafik-Design, Fußgönheim,Germany Typesetting SPiGlobalPrivateLimited, Chennai,India PrintingandBinding Printedonacid-freepaper v ContentstoVolume1 ListofContributors xiii Foreword xxiii Preface xxv PartI Fundamentals 1 1 IntroductiontoTissueEngineering 3 RamiMhannaandAnwarulHasan 1.1 Introduction 3 1.2 ClinicalNeedforTissueEngineeringandRegenerative Medicine 4 1.3 HistoryofTissueEngineeringandRegenerative Medicine 5 1.4 FundamentalsofTissueEngineeringandRegenerative Medicine 6 1.4.1 TissueEngineeringversusRegenerativeMedicine 6 1.4.2 TheTriadofTissueEngineering 7 1.4.3 ApproachesinTissueEngineering 8 1.4.4 RecentAdvancesinTissueEngineering 10 1.4.4.1 AdvancesinCellSourcingandCellManipulation 10 1.4.4.2 AdvancesinBiomaterialsandScaffoldProduction 10 1.4.4.3 AdvancesinCellSignalingResearchandBioreactor Development 11 1.4.4.4 EngineeringComplexTissuesandOrgans 13 1.5 ApplicationsofTissueEngineering 14 1.5.1 ImplantableTissuesandOrgans 15 1.5.2 InVitroModelsforDiseaseStudies 19 1.5.3 SmartDiagnosisandPersonalizedMedicine 20 1.6 ChallengesinTissueEngineering 21 1.7 TheFutureofTissueEngineering 22 1.8 Conclusions 23 References 24 vi Contents 2 BiomaterialsinTissueEngineering 35 SamadAhadian,RahafRahal,JavierRamón-Azcón,RaquelObregón,and AnwarulHasan 2.1 Introduction 35 2.2 Biomaterial–TissueInteractions 37 2.3 PropertiesofBiomaterials 40 2.4 ScaffoldRequirementsforSpecificTissues 44 2.5 ClassificationofBiomaterials 45 2.5.1 NaturalBiomaterials 45 2.5.1.1 Collagen 45 2.5.1.2 HyaluronicAcid 47 2.5.1.3 AlginicAcid(Alginate) 50 2.5.1.4 Chitosan 51 2.5.1.5 Gelatin 52 2.5.1.6 Fibrin 53 2.5.1.7 Silk 53 2.5.1.8 Peptides 54 2.5.1.9 Elastin 55 2.5.2 SyntheticBiomaterials 55 2.5.2.1 Poly(N-isopropylacrylamide) 55 2.5.2.2 Poly(lacticacid) 57 2.5.2.3 Poly(lacticacid-co-glycolicacid) 57 2.5.2.4 Poly(𝜀-caprolactone) 58 2.5.2.5 Poly(ethyleneglycol) 60 2.5.2.6 Poly(vinylalcohol) 61 2.6 FabricationMethodsofBiomaterials 61 2.6.1 ConventionalFabricationMethods 61 2.6.2 AdvancedFabricationMethods 61 2.6.2.1 Electrospinning 63 2.6.2.2 RapidPrototyping 64 2.7 TestingofBiomaterials 64 2.8 ChallengesforBiomaterialsinTissueEngineering 65 2.9 ConclusionsandFutureDirections 67 Acknowledgment 69 Abbreviations 69 References 70 3 HarnessingthePotentialofStemCellsfromDifferent SourcesforTissueEngineering 85 DivyaMurali,KunalG.Kshirsagar,AnwarulHasan,and ArghyaPaul 3.1 Introduction 85 3.2 StemCellsinTissueEngineering 86 3.3 UniqueProperties 86 3.4 TypesofStemCells 87 3.4.1 EmbryonicStemCells 87 3.4.2 InducedPluripotentStemCells 89 Contents vii 3.4.3 AdultStemCells 90 3.4.3.1 MesenchymalStemCell 91 3.4.3.2 HematopoieticStemCells 91 3.4.3.3 Wharton’sJellyStemCells 92 3.5 ApplicationofStemCellsinTissueEngineering 92 3.5.1 BoneTissueEngineering 92 3.5.2 CartilageTissueEngineering 96 3.5.3 CardiacTissueEngineering 97 3.5.4 NeuralTissueEngineering 97 3.5.5 TissueEngineeringforOtherTissuesIncludingSkin,Liver,Lungs, Bladder,andPancreas 99 3.6 ChallengesandFutureDirections 101 3.7 Conclusion 102 Acknowledgments 102 References 102 4 InducedPluripotentStemCellsinScaffold-BasedTissue Engineering 111 DeeptiRana,MinalThacker,MariaLeena,andMuruganRamalingam 4.1 Introduction 111 4.2 BasicsofInducedPluripotentStemCells 112 4.3 ConceptofScaffold-BasedTissueEngineering 116 4.4 Cell–ScaffoldInteractions 118 4.5 ApplicationofInducedPluripotentStemCells 121 4.5.1 BoneTissueEngineering 121 4.5.2 CartilageTissueEngineering 125 4.5.3 CardiacTissueEngineering 127 4.5.4 SkinTissueEngineering 131 4.5.5 NeuralTissueEngineering 132 4.6 ConcludingRemarks 134 Acknowledgments 134 References 134 5 BiosensorsforOptimalTissueEngineering:Recent DevelopmentsandShapingtheFuture 143 JihaneAbouzeid,GhinwaDarwish,andPierreKaram 5.1 Introduction 143 5.2 FundamentalsofBiosensors 143 5.3 BiosensingTechniques 145 5.3.1 SpectroscopicTools 145 5.3.1.1 ColorimetryUsingGoldNanoparticles 145 5.3.1.2 FluorescenceSpectroscopy 146 5.3.2 ElectrochemicalMethods 146 5.4 Real-TimeSensinginTissueEngineeringandCell Growth 147 5.4.1 Metabolites 147 viii Contents 5.4.2 OxygenMonitoringDuringCellGrowth 148 5.4.3 ReactiveOxygenSpecies 149 5.4.4 CellAdhesion 150 5.4.5 NanowireField-EffectTransistors 150 5.4.5.1 IntroductiontoField-EffectTransistors 150 5.4.5.2 Field-EffectTransistorsforIntracellularMonitoring 151 5.4.6 Microfluidics-BasedBiosensors 153 5.4.6.1 MicrofluidicChips 154 5.4.6.2 Microfluidics-IntegratedTissueScaffold 155 5.5 InVivoImplementationsandtheChallengesFaced 155 5.5.1 AntifoulingCoatings 156 5.5.2 NitricOxide 157 5.5.3 TemplatedPorousScaffolds 157 5.6 ConclusionandFutureDirections 158 References 159 6 BioreactorsinTissueEngineering 169 RaquelObregón,JavierRamón-Azcón,andSamadAhadian 6.1 Introduction 169 6.2 Bioreactors 170 6.2.1 SpinnerFlasks 171 6.2.2 Rotating-WallVesselBioreactors 172 6.2.3 WaveBioreactors 173 6.2.4 PerfusionBioreactors 173 6.2.4.1 Parallel-PlateBioreactors 173 6.2.4.2 Hollow-FiberBioreactors 173 6.2.4.3 Fixed(Packed)andFluidized-BedBioreactors 174 6.2.5 MicrofluidicBioreactors 174 6.3 ApplicationsofBioreactorsinTissueEngineering 175 6.3.1 BioreactorsforLiverTissueEngineering 176 6.3.1.1 SpinnerFlasks 176 6.3.1.2 Rotating-WallVesselBioreactors 176 6.3.1.3 PerfusionBioreactors 177 6.3.2 BioreactorsforMusculoskeletalTissueEngineering 179 6.3.2.1 Rotating-WallVesselBioreactors 179 6.3.2.2 SpinnerFlasks 182 6.3.2.3 PerfusionBioreactors 183 6.3.3 BioreactorsforNeuralTissueEngineering 185 6.3.4 BioreactorsforCardiovascularTissueEngineering 187 6.3.5 BioreactorsforBladder,Uterine,andCorneaTissue Engineering 189 6.4 SummaryandFuturePerspectives 191 Acknowledgment 191 Abbreviations 191 References 192 Contents ix PartII Applications 215 7 Tissue-EngineeredHumanSkinEquivalentsandTheir ApplicationsinWoundHealing 217 LaraYildirimer,DiviaHobson,ZhiYuan(William)Lin,WenguoCui,and XinZhao 7.1 Introduction 217 7.2 DevelopmentofTissue-EngineeredHumanSkinEquivalents 220 7.2.1 EpidermalModels 220 7.2.2 DermalModels 221 7.2.3 BilayeredModels 221 7.2.4 MultifunctionalSkinModels 223 7.3 ApplicationofTESsinWoundHealing 226 7.3.1 ClinicalWound-HealingApplications 226 7.3.1.1 EpidermalSkinRegeneration 226 7.3.1.2 DermalSubstitutes 227 7.3.1.3 Dermo-EpidermalSkinSubstitutes 228 7.3.2 InvivoWound-HealingApplications 230 7.3.3 InvitroWound-HealingModels 231 7.4 ConclusionsandFutureDirections 233 Acknowledgments 234 References 234 8 ArticularCartilageTissueEngineering 243 JiayinFu,PengfeiHe,andDong-AnWang 8.1 Introduction 243 8.1.1 ArticularCartilageCompositionandStructure 243 8.1.2 ArticularCartilageFunction 244 8.2 ArticularCartilageLesionsandRepair 245 8.2.1 ArticularCartilageLesions 245 8.2.2 CurrentTreatmentsinArticularCartilageRepair 246 8.2.2.1 Bone-Marrow-Simulation-BasedTechniques 246 8.2.2.2 OsteochondralTransplantationTechniques 246 8.2.2.3 Cell-BasedTechniques 247 8.2.2.4 TissueEngineering 247 8.3 BasicsofArticularCartilageTissueEngineering 248 8.3.1 Cells 248 8.3.1.1 Chondrocytes 249 8.3.1.2 MesenchymalStemCells 249 8.3.1.3 PluripotentStemCells 251 8.3.2 Scaffold 253 8.3.2.1 DesiredPropertiesforScaffolds 253 8.3.2.2 Classification 254 8.3.3 BiochemicalStimuli 262 8.3.3.1 GrowthFactors 262 8.3.3.2 OtherBioactiveReagents 263 8.3.4 MechanicalStimuli 264 x Contents 8.4 StrategiesinCurrentCartilageTissueEngineering 265 8.4.1 ControlledDeliveryofBiochemicalFactors 265 8.4.2 CombinationTissueEngineeringwithGeneTherapy 266 8.4.3 BiomimeticHierarchicalCartilageTissueEngineering 268 8.4.4 ApplicationofCartilage-ECM-DerivedScaffolds 269 8.4.5 Scaffold-FreeCartilageTissueEngineering 270 8.4.6 HomingEndogenousCellsforCartilageRegeneration 271 8.5 ConclusionsandFutureDirections 273 ListofAbbreviations 275 References 276 9 LiverTissueEngineering 297 JessicaL.Sparks 9.1 Introduction 297 9.2 LiverBiology 299 9.2.1 Organ-ScaleAnatomy 299 9.2.2 HistologicalStructure 300 9.2.3 CellTypesoftheLiver 302 9.2.4 LiverExtracellularMatrix 303 9.3 LiverBiomechanics 304 9.3.1 LiverBiomechanicalProperties 304 9.3.2 LiverHemodynamics 307 9.4 LiverMechanobiology 308 9.4.1 Cellular-ScaleMechanicalForces 308 9.4.2 CellularMechanotransductionMechanisms 309 9.4.3 MechanosensitivityofLiverCellTypes 310 9.5 BiophysicalStimuliinLiverTissueEngineeringScaffolds 313 9.6 ConclusionandFutureDirections 314 References 314 10 DevelopmentofTissue-EngineeredBloodVessels 325 HaiyanLi 10.1 Introduction 325 10.2 BiologyofBloodVessels 326 10.2.1 StructureandComponentofNativeBloodVessels 326 10.2.2 FunctionsofNativeBloodVessels 326 10.2.3 VasculogenesisandAngiogenesis 329 10.3 TissueEngineeringofBloodVessels 329 10.3.1 TissueEngineeringofMicrovascularNetworks 329 10.3.1.1 Prevascularization-BasedTechniques 329 10.3.1.2 Vasculogenesis-andAngiogenesis-BasedTechniques 332 10.3.2 StrategiesforEngineeringVascularReplacementGrafts 340 10.3.2.1 MaterialSelection 340 10.3.2.2 TubularScaffoldFabrication 342 10.4 ConclusionandPerspective 344 Acknowledgment 345 References 345 Contents xi ContentstoVolume2 Foreword xv Preface xvii 11 EngineeringTracheaandLarynx 363 MartaB.Evangelista,SaitCiftci,PeterMilad,EmmanuelMartinod, AgnesDupret-Bories,ChristianDebry,andNihalE.Vrana 12 PulmonaryTissueEngineering 389 PatrickA.LinkandRebeccaL.Heise 13 CardiacTissueEngineering 413 EunJungLeeandPamelaHitscherich 14 ApproachesandRecentAdvancesinHeartValveTissue Engineering 445 AnnaMallone,BenediktWeber,andSimonP.Hoerstrup 15 MusculoskeletalTissueEngineering:Tendon,Ligament, andSkeletalMuscleReplacementandRepair 465 JorgeA.Uquillas,SettimioPacelli,ShuichiroKobayashi,and SebastiánUquillas 16 BoneTissueEngineering:StateoftheArt,Challenges,and Prospects 525 JanO.Gordeladze,HåvardJ.Haugen,StåleP.Lyngstadaas,and JanneE.Reseland 17 TissueEngineeringofthePancreas 553 MasayukiShimoda 18 TissueEngineeringofRenalTissue(Kidney) 575 RaquelRodrigues-Díez,ValentinaBenedetti,GiuseppeRemuzzi,and ChristodoulosXinaris 19 DesignandEngineeringofNeuralTissues 603 MuhammadN.HasanandUmutA.Gurkan 20 Neural-TissueEngineeringInterventionsforTraumatic BrainInjury 655 TalaElTal,RayanElSibai,StefaniaMondello,andFirasKobeissy 21 BionicsinTissueEngineering 677 ThanhD.NguyenandBrianP.Timko Index 701

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A comprehensive overview of the latest achievements, trends, and the current state of the art of this important and rapidly expanding field. Clearly and logically structured, the first part of the book explores the fundamentals of tissue engineering, providing a separate chapter on each of the basic
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