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生物材料导论
作者:(美)时东陆主编
出版社:清华大学出版社
出版时间:2005-12-01
ISBN:9787302108078
定价:¥42.00
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内容简介
本书重点讲述生物材料和生物学的基本概念和目前的进展,并提供了生物材料和生物技术领域最新的信息。全书共分三部分。第一部分主要讲述生物陶瓷材料。阐述了生物材料的定义、概念和生物陶瓷的结构、性质、化学成分以及常规的制备方法。第二部分主要讲述高分子生物材料及其在生物环境下的分解、腐蚀和化学变化。第i部分主要讲述生物组织T程,包括生物结构、硬组织弥补、电脑模拟、新材料性能确定技术等内容。 本书各章节分别由几位生物材料、生物组织工程和医药学领域的专家撰写。第一、第二部分为生物材料的基础部分,可作为材料科学系、生物工程系以及医学相关领域的本科生生物材料课的教材。第二三部分可以作为研究生和科研人员研究组织_[程相关课颗的参考书.
作者简介
暂缺《生物材料导论》作者简介
目录
PartIBioactiveCeramicsandMetals
1IntroductiontoBioceramics3
1.1BioactiveMaterials3
1.1.1Definitions3
1.1.2CommonBiomaterials4
1.1.3BioactiveCeramics5
1.1.4BiologicalApatites5
1.1.5BasicRequirementsforBoneImplants6
1.1.6CoatingofHydroxyapatiteonPorousCeramics8
1.1.7BiomaterialsinTissueAttachment11
1.2References12
2BioactiveCeramics:Structure,Synthesis,andMechanicalProperties13
2.1StructureofHydroxyapatite14
2.1.1GeneralStructureandChemistryofHydroxyapatite14
2.1.2StructuralCharacteristicsofHydroxyapatite15
2.1.3SubstitutedApatite16
2.2SynthesisofHydroxyapatitePowder19
2.2.1DryChemicalMethods19
2.2.2WetChemicalMethods20
2.3MechanicalPropertiesofHydroxyapatite23
2.4OtherBioceramics25
2.4.1TricalciumPhosphate25
2.4.2BioactiveGlasses25
2.5References26
2.6Problems28
3BioceramicProcessing29
3.1FabricationandMechanicalPropertiesofPorousBioceramics30
3.1.1HighTemperatureRoutes30
3.1.2LowTemperatureRoutes32
3.1.3RapidPrototypingTechniques33
3.1.4MechanicalPropertiesofPorousBioceramics34
3.2CoatingofBioceramicThickFilmsonBio-InertPorousSubstrates34
3.2.1SlipCasting35
3.2.2ElectrophoreticDeposition35
3.2.3Bioceramic-GlassSlurryMethod36
3.2.4ThermalDeposition37
3.2.5Sol-GelSynthesis37
3.2.6BiomimeticGrowth39
3.3CoatingonDenseSubstrates39
3.3.1Enameling39
3.3.2Plasma-SprayedCoatings40
3.3.3Sputtering41
3.4HydroxyapatiteCoatingsforNon-HardTissueApplications42
3.5Composites43
3.5.1Bioceramic-PolymerComposite43
3.5.2ReinforcedHydroxyapatite44
3.5.3HydroxyapatiteandTricalciumPhosphateComposite44
3.6Summary45
3.7References45
3.8Problems46
4CoatingofHydroxyapatiteontoInnerPoreSurfacesoftheReticulatedAlumina47
4.1HydroxyapatiteCoatingMethodsandCharacterization47
4.1.1CoatingofHydroxyapatitebytheHydroxyapatite-GlassSlurryMethod47
4.1.2CoatingofHydroxyapatitebyaThermalDepositionMethod53
4.1.3CharacterizationofHydroxyapatiteFilm53
4.1.4CoatingofHydroxyapatiteUsingSol-GelSynthesis57
4.2AdhesionofHydroxyapatiteFilmonAluminaSubstrate58
4.3References59
4.4Problems60
5PropertiesandCharacterizationofBiomaterials61
5.1CharacterizationofCeramics61
5.2BioactivePropertiesandHardTissueProsthetics62
5.2.1BoneBiology62
5.2.2CriticalIssuesonInterfacesBetweentheHardTissueandBiomaterials63
5.2.3FactorsthatInfluenceBioreactivity64
5.2.4BoneImplant64
5.2.5BondingMechanisms65
5.2.6InvitroBehaviorofHydroxyapatite66
5.3MeasurementsofGrowthandDissolutionofHydroxyapatiteCeramics68
5.4InvitroTestConductedinThisReasearch68
5.5MechanicalProperties70
5.6References71
5.7Problems73
6BioactivityofHydroxyapatite74
6.1GeneralAspects74
6.2InvitroTestingMaterialsandPreparation74
6.3CharacterizationofImmersionSolution75
6.4MorphologyoftheReactedSurfaces79
6.5References84
6.6Problems84
7HydroxyapatiteDepositionMechanisms85
7.1MaterialSynthesisandHydroxyapatiteCoating85
7.1.1GeneralAspectsonChemistry,Structure,andThermalBehaviorofHydroxyapatite85
7.1.2MaterialSynthesisandHydroxyapatiteCoating86
7.1.3CoatingofHydroxyapatiteontoInnerSurfacesofPoresinReticulatedAlumina87
7.1.4Hydroxyapatite-GlassSlurryMethod87
7.1.5ThermalDepositionandSol-GelMethods90
7.2MechanismsofBioactivity92
7.2.1InvitroBiochemistryBehaviorofHydroxyapatite92
7.2.2Growth—DissolutionMechanism94
7.2.3KineticsModelsforCrystallizationandDissolution96
7.2.4ExperimentalDeterminationofReactionMechanisms99
7.2.5EffectofHeatTreatmentonHydroxyapatite100
7.2.6StructuralEffectonBioactivity102
7.2.7TemperatureEffectonBioactivity103
7.2.8FactorsContributingtoReactivityofHydroxyapatite105
7.3References108
7.4Problems108
8BiomedicalMetallicMaterials110
8.1MicrostructuresandProcessing110
8.2CorrosionResistanceofMetals115
8.3BiologicalToleranceofMetal117
8.4StainlessSteel118
8.5Cobalt-BasedAlloys123
8.6TitaniumandItsAlloys127
8.7TiNiShapeMemoryAlloy131
8.8Summary135
8.9References137
8.10Problems138
PartⅡPolymericBiomaterials
9PolymerBasics143
9.1ClassificationofPolymers143
9.1.1Source143
9.1.2PolymerChainStructure144
9.1.3PolymerThermalBehavior146
9.1.4PolymerStability146
9.2CharacteristicsofPolymer147
9.2.1DegreeofPolymerization147
9.2.2PolymerCrystals148
9.2.3TheGlassTransitionTemperatureandMeltingTemperature148
9.3SynthesisofPolymers149
9.3.1FreeRadicalPolymerization149
9.3.2CondensationPolymerization153
9.3.3OtherTypesofPolymerization154
9.4References156
9.5Problems157
10NaturallyOccurringPolymerBiomaterials158
10.1GeneralIntroductiontoProteins158
10.2Collagen159
10.2.1Cross-LinkingofCollagen162
10.3Alginate166
10.4ChitinandChitosan167
10.5References168
10.6Problems171
11SyntheticNonBiodegradablePolymers172
11.1Polyethylene172
11.1.1HighDensityPolyethylene173
11.1.2UltrahighMolecularWeightPolyethylene174
11.2Poly(methylmethacrylate)175
11.3Polyester177
11.4Polycarbonate178
11.5Polyamides179
11.6Polyurethane180
11.7Polysulfones184
11.8Poly(etheretherketone)184
11.9References185
11.10Problems186
12SyntheticBiodegradablePolymers187
12.1AliphaticPolyester187
12.1.1Poly(glycolide)189
12.1.2Poly(lactide)189
12.1.3Poly(lactide-co-glycolide)191
12.1.4Poly(ε-caprolactone)192
12.1.5Poly(para-dioxanone)192
12.2Poly(propylenefumarate)193
12.3PolyaminoAcid194
12.4References195
12.5Problems196
13PolymerMatrixCompositeBiomaterials197
13.1FiberReinforcedComposites198
13.2FillerReinforcedComposites199
13.3MethodstoImprovetheInterfacialBondingBetweenPhasesinComposites200
13.3.1SelfReinforcementofFiber/PolymerComposites200
13.3.2PlasmaTreatmentofFibers200
13.3.3CouplingAgent201
13.4References203
13.5Problems206PartⅢTissueEngineering:ANewEraofRegenerativeMedicine
14BiomaterialsforTissueEngineering211
14.1GeneralAspectsofBiomaterialsUsedforTissueEngineering211
14.2RepresentativeBiomaterialsUsedforTissueEngineering212
14.2.1Polymers212
14.2.2Bioceramics213
14.3BiomaterialConstructsforTissueEngineering:Scaffolds214
14.3.1DefinitionandRequirementsforScaffoldsUsedinTissueEngineering215
14.3.2PrinciplesofScaffoldDesign215
14.3.3ScaffoldFabricationTechnologies216
14.4References223
14.5Problems226
15CellsandBiomoleculesforTissueEngineering227
15.1CellsforTissueEngineering227
15.2GrowthFactorDeliveryinTissueEngineering230
15.3RegulatoryMatrixProteins232
15.4References234
15.5Problems237
16TransportandVascularizationinTissueEngineering238
16.1TransportinEngineeredTissue238
16.2Vascularization239
16.2.1NewBloodVesselFormation239
16.2.2VascularizationinTissueEngineering240
16.3References240
16.4Problems241
17HostResponsetoTissueEngineeredGrafts243
17.1TheForeignBodyResponsetoSyntheticComponents243
17.2ResponsetoBiologicalComponents244
17.3References246
17.4Problems247
18OtherImportantIssuesandFutureChallengesinTissueEngineering249
18.1OrganReplacementandRegeneration249
18.2OrganotypicandHistiotypicModels250
18.3Mechanotransduction251
18.4FutureChallenges252
18.5References253
18.6Problems253
1IntroductiontoBioceramics3
1.1BioactiveMaterials3
1.1.1Definitions3
1.1.2CommonBiomaterials4
1.1.3BioactiveCeramics5
1.1.4BiologicalApatites5
1.1.5BasicRequirementsforBoneImplants6
1.1.6CoatingofHydroxyapatiteonPorousCeramics8
1.1.7BiomaterialsinTissueAttachment11
1.2References12
2BioactiveCeramics:Structure,Synthesis,andMechanicalProperties13
2.1StructureofHydroxyapatite14
2.1.1GeneralStructureandChemistryofHydroxyapatite14
2.1.2StructuralCharacteristicsofHydroxyapatite15
2.1.3SubstitutedApatite16
2.2SynthesisofHydroxyapatitePowder19
2.2.1DryChemicalMethods19
2.2.2WetChemicalMethods20
2.3MechanicalPropertiesofHydroxyapatite23
2.4OtherBioceramics25
2.4.1TricalciumPhosphate25
2.4.2BioactiveGlasses25
2.5References26
2.6Problems28
3BioceramicProcessing29
3.1FabricationandMechanicalPropertiesofPorousBioceramics30
3.1.1HighTemperatureRoutes30
3.1.2LowTemperatureRoutes32
3.1.3RapidPrototypingTechniques33
3.1.4MechanicalPropertiesofPorousBioceramics34
3.2CoatingofBioceramicThickFilmsonBio-InertPorousSubstrates34
3.2.1SlipCasting35
3.2.2ElectrophoreticDeposition35
3.2.3Bioceramic-GlassSlurryMethod36
3.2.4ThermalDeposition37
3.2.5Sol-GelSynthesis37
3.2.6BiomimeticGrowth39
3.3CoatingonDenseSubstrates39
3.3.1Enameling39
3.3.2Plasma-SprayedCoatings40
3.3.3Sputtering41
3.4HydroxyapatiteCoatingsforNon-HardTissueApplications42
3.5Composites43
3.5.1Bioceramic-PolymerComposite43
3.5.2ReinforcedHydroxyapatite44
3.5.3HydroxyapatiteandTricalciumPhosphateComposite44
3.6Summary45
3.7References45
3.8Problems46
4CoatingofHydroxyapatiteontoInnerPoreSurfacesoftheReticulatedAlumina47
4.1HydroxyapatiteCoatingMethodsandCharacterization47
4.1.1CoatingofHydroxyapatitebytheHydroxyapatite-GlassSlurryMethod47
4.1.2CoatingofHydroxyapatitebyaThermalDepositionMethod53
4.1.3CharacterizationofHydroxyapatiteFilm53
4.1.4CoatingofHydroxyapatiteUsingSol-GelSynthesis57
4.2AdhesionofHydroxyapatiteFilmonAluminaSubstrate58
4.3References59
4.4Problems60
5PropertiesandCharacterizationofBiomaterials61
5.1CharacterizationofCeramics61
5.2BioactivePropertiesandHardTissueProsthetics62
5.2.1BoneBiology62
5.2.2CriticalIssuesonInterfacesBetweentheHardTissueandBiomaterials63
5.2.3FactorsthatInfluenceBioreactivity64
5.2.4BoneImplant64
5.2.5BondingMechanisms65
5.2.6InvitroBehaviorofHydroxyapatite66
5.3MeasurementsofGrowthandDissolutionofHydroxyapatiteCeramics68
5.4InvitroTestConductedinThisReasearch68
5.5MechanicalProperties70
5.6References71
5.7Problems73
6BioactivityofHydroxyapatite74
6.1GeneralAspects74
6.2InvitroTestingMaterialsandPreparation74
6.3CharacterizationofImmersionSolution75
6.4MorphologyoftheReactedSurfaces79
6.5References84
6.6Problems84
7HydroxyapatiteDepositionMechanisms85
7.1MaterialSynthesisandHydroxyapatiteCoating85
7.1.1GeneralAspectsonChemistry,Structure,andThermalBehaviorofHydroxyapatite85
7.1.2MaterialSynthesisandHydroxyapatiteCoating86
7.1.3CoatingofHydroxyapatiteontoInnerSurfacesofPoresinReticulatedAlumina87
7.1.4Hydroxyapatite-GlassSlurryMethod87
7.1.5ThermalDepositionandSol-GelMethods90
7.2MechanismsofBioactivity92
7.2.1InvitroBiochemistryBehaviorofHydroxyapatite92
7.2.2Growth—DissolutionMechanism94
7.2.3KineticsModelsforCrystallizationandDissolution96
7.2.4ExperimentalDeterminationofReactionMechanisms99
7.2.5EffectofHeatTreatmentonHydroxyapatite100
7.2.6StructuralEffectonBioactivity102
7.2.7TemperatureEffectonBioactivity103
7.2.8FactorsContributingtoReactivityofHydroxyapatite105
7.3References108
7.4Problems108
8BiomedicalMetallicMaterials110
8.1MicrostructuresandProcessing110
8.2CorrosionResistanceofMetals115
8.3BiologicalToleranceofMetal117
8.4StainlessSteel118
8.5Cobalt-BasedAlloys123
8.6TitaniumandItsAlloys127
8.7TiNiShapeMemoryAlloy131
8.8Summary135
8.9References137
8.10Problems138
PartⅡPolymericBiomaterials
9PolymerBasics143
9.1ClassificationofPolymers143
9.1.1Source143
9.1.2PolymerChainStructure144
9.1.3PolymerThermalBehavior146
9.1.4PolymerStability146
9.2CharacteristicsofPolymer147
9.2.1DegreeofPolymerization147
9.2.2PolymerCrystals148
9.2.3TheGlassTransitionTemperatureandMeltingTemperature148
9.3SynthesisofPolymers149
9.3.1FreeRadicalPolymerization149
9.3.2CondensationPolymerization153
9.3.3OtherTypesofPolymerization154
9.4References156
9.5Problems157
10NaturallyOccurringPolymerBiomaterials158
10.1GeneralIntroductiontoProteins158
10.2Collagen159
10.2.1Cross-LinkingofCollagen162
10.3Alginate166
10.4ChitinandChitosan167
10.5References168
10.6Problems171
11SyntheticNonBiodegradablePolymers172
11.1Polyethylene172
11.1.1HighDensityPolyethylene173
11.1.2UltrahighMolecularWeightPolyethylene174
11.2Poly(methylmethacrylate)175
11.3Polyester177
11.4Polycarbonate178
11.5Polyamides179
11.6Polyurethane180
11.7Polysulfones184
11.8Poly(etheretherketone)184
11.9References185
11.10Problems186
12SyntheticBiodegradablePolymers187
12.1AliphaticPolyester187
12.1.1Poly(glycolide)189
12.1.2Poly(lactide)189
12.1.3Poly(lactide-co-glycolide)191
12.1.4Poly(ε-caprolactone)192
12.1.5Poly(para-dioxanone)192
12.2Poly(propylenefumarate)193
12.3PolyaminoAcid194
12.4References195
12.5Problems196
13PolymerMatrixCompositeBiomaterials197
13.1FiberReinforcedComposites198
13.2FillerReinforcedComposites199
13.3MethodstoImprovetheInterfacialBondingBetweenPhasesinComposites200
13.3.1SelfReinforcementofFiber/PolymerComposites200
13.3.2PlasmaTreatmentofFibers200
13.3.3CouplingAgent201
13.4References203
13.5Problems206PartⅢTissueEngineering:ANewEraofRegenerativeMedicine
14BiomaterialsforTissueEngineering211
14.1GeneralAspectsofBiomaterialsUsedforTissueEngineering211
14.2RepresentativeBiomaterialsUsedforTissueEngineering212
14.2.1Polymers212
14.2.2Bioceramics213
14.3BiomaterialConstructsforTissueEngineering:Scaffolds214
14.3.1DefinitionandRequirementsforScaffoldsUsedinTissueEngineering215
14.3.2PrinciplesofScaffoldDesign215
14.3.3ScaffoldFabricationTechnologies216
14.4References223
14.5Problems226
15CellsandBiomoleculesforTissueEngineering227
15.1CellsforTissueEngineering227
15.2GrowthFactorDeliveryinTissueEngineering230
15.3RegulatoryMatrixProteins232
15.4References234
15.5Problems237
16TransportandVascularizationinTissueEngineering238
16.1TransportinEngineeredTissue238
16.2Vascularization239
16.2.1NewBloodVesselFormation239
16.2.2VascularizationinTissueEngineering240
16.3References240
16.4Problems241
17HostResponsetoTissueEngineeredGrafts243
17.1TheForeignBodyResponsetoSyntheticComponents243
17.2ResponsetoBiologicalComponents244
17.3References246
17.4Problems247
18OtherImportantIssuesandFutureChallengesinTissueEngineering249
18.1OrganReplacementandRegeneration249
18.2OrganotypicandHistiotypicModels250
18.3Mechanotransduction251
18.4FutureChallenges252
18.5References253
18.6Problems253
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