Kooperativer Bibliotheksverbund

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Format: x, 274 Seiten , Illustrationen , 24 cm

ISBN: 9780081002872 , 0081002874

Series Statement: Woodhead Publishing series in biomaterials

Note: Includes bibliographical references and index

Additional Edition: Erscheint auch als Online-Ausgabe ISBN 978-0-08-100-288-9

Language: English

Subjects: Engineering , Medicine

Keywords: Zahnimplantat ; Implantatwerkstoff ; Biokompatibilität ; Knochenstoffwechsel ; Aufsatzsammlung

URL: Inhaltsverzeichnis

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Format: 1 online resource (286 pages) : , color illustrations.

Series Statement: Woodhead Publishing Series in Biomaterials

Note: Front Cover -- Bone Response to Dental Implant Materials -- Related titles -- Bone Response to Dental Implant Materials -- Copyright -- Contents -- List of contributors -- 1 - Introduction to bone response to dental implant materials -- 1.1 Introduction -- 1.1.1 Bone structure in the aspect of functionality -- 1.1.2 Bone remodeling -- 1.1.3 The modern concept of biocompatibility -- 1.2 Biomaterials -- 1.2.1 Autologous bone -- 1.2.2 Porous phycogenic hydroxyapatite -- 1.2.3 Collagenized porcine biomaterial -- 1.2.4 Anorganic bovine bone -- 1.2.5 Biphasic calcium phosphate -- 1.2.6 Calcium carbonate -- 1.3 Challenges and further trends -- 1.3.1 Graphene -- 1.3.2 Biomedical applications -- Acknowledgment -- References -- 2 - Mechanical modification of dental implants to control bone retention -- 2.1 Introduction -- 2.2 The implant as extracellular matrix -- 2.3 Cell attachment -- 2.4 Cell behavior on smooth surfaces -- 2.5 Cell behavior on three-dimensional and roughened surfaces -- 2.6 Mechanisms involved with translation of cell configuration to differentiation -- 2.7 Using controlled surface configuration to control cell function-tissue engineering surfaces -- 2.8 Mechanical basis for bone retention around dental implants -- 2.9 Conclusion -- References -- 3 - Surface modification of dental biomaterials for controlling bone response -- 3.1 Bone responses to implant surfaces -- 3.2 Roughening the surface -- 3.2.1 Surface characteristics -- 3.2.2 The effect of surface topography on bone healing -- 3.3 Application of inorganic elements to implant surfaces -- 3.3.1 Calcium phosphorus -- 3.3.2 Fluoride treatment -- 3.4 Application of organic compounds to implant surfaces -- 3.5 Concluding remarks -- References -- 4 - Bone response to calcium phosphate coatings for dental implants -- 4.1 Introduction -- 4.2 The bone implant interface. , 4.3 Methods of calcium phosphate coating -- 4.3.1 Plasma sprayed coatings -- 4.3.2 Thermal spray coating technique -- 4.3.3 Solgel coating -- 4.3.4 Sputter deposition -- 4.3.5 Pulsed laser deposition -- 4.3.6 Dip-coating technique -- 4.3.7 Ion beam assisted deposition of CaP -- 4.3.8 Electrophoretic deposition -- 4.3.9 Hot isostatic pressing technique -- 4.3.10 Biomimetic precipitation -- 4.4 Surface coating and peri-implant wound healing process -- 4.5 Factors influencing the coated implant bone interface -- 4.5.1 Surface morphology/surface topography -- 4.5.2 The chemical composition and CaP ratio -- 4.5.3 Phase composition and structure -- 4.5.4 Coating dissolution of HA -- 4.6 CaP coating as drug delivery system -- 4.6.1 Silicon -- 4.6.2 Strontium -- 4.6.3 Silver -- 4.6.4 Bisphosphonate -- 4.6.5 Proteins -- 4.7 CaP coating and peri-implantitis -- 4.8 Conclusion -- References -- 5 - Peri-implant biological behavior: clinical and scientific aspects -- 5.1 Introduction -- 5.2 Implant features -- 5.2.1 Surface -- 5.3 Implant anatomy -- 5.3.1 Implant neck design -- 5.3.2 Middle threads configuration -- 5.3.3 Apex -- 5.4 BIC percentage -- References -- 6 - Implant primary stability and occlusion -- 6.1 Introduction -- 6.2 Press-fit primary stability -- 6.3 NGF primary stability -- 6.3.1 Electrophysiological procedure -- 6.3.2 Organic symmetry -- 6.3.3 Functional symmetry -- 6.4 Neuro-evoked centric relation -- 6.5 Case reports -- 6.5.1 Case report in the delayed loading procedures -- 6.5.2 Case report in the immediate loading procedures -- 6.6 Conclusions -- References -- 7 - Clinical bone response to dental implant materials -- 7.1 Bone response to dental implants -- References -- 8 - The effect of loading on peri-implant bone: a critical review of the literature -- 8.1 Introduction -- 8.2 Implant loading prior to osseointegration. , 8.2.1 Clinical research -- 8.2.2 Animal experimental research -- 8.3 Implant loading after osseointegration -- 8.3.1 Clinical research -- 8.3.2 Animal experimental research -- 8.4 Concluding remarks -- Acknowledgment -- References -- 9 - Bone response to decontamination treatments for dental biomaterials -- 9.1 Introduction -- 9.1.1 Dental implant materials -- 9.1.1.1 Brief history -- 9.1.1.2 Classification -- 9.1.2 Endosseous dental implants and osseointegration -- 9.1.3 Peri-implantitis and re-osseointegration -- 9.2 Decontamination methods: description and applications -- 9.2.1 Methods -- 9.2.1.1 Mechanical means (dental curettes, ultrasonic scalers, air-powder abrasive) -- 9.2.1.2 Antiseptic and air-abrasive treatment -- 9.2.1.3 Physicochemical methods -- 9.2.1.4 Ultrasound -- 9.2.1.5 Laser application -- 9.2.1.6 Photodynamic therapy -- 9.2.1.7 Biochemical methods -- 9.3 Implant surfaces and bone response after decontamination -- 9.3.1 Introduction to surface features -- 9.3.2 Microscopy techniques for analysis of surface roughness -- 9.4 Summary and conclusions -- References -- 10 - Anti-resorptive treatment in osteoporosis and their deleterious effects on maxillary bone metabolism in clinical dentistry -- 10.1 Introduction -- 10.2 Concept, diagnosis and classification of BP-associated ONJ -- 10.2.1 Background -- 10.2.2 Prevalence and incidence -- 10.2.2.1 BPs for the treatment of osteoporosis -- 10.2.2.2 Oral BPs -- 10.2.2.3 Intravenous BPs for the treatment of cancer -- 10.2.3 Concept and diagnosis -- 10.2.3.1 Diagnosis of ONJ in the absence of exposed bone -- 10.2.3.2 Need for radiological or imaging confirmation of the diagnosis -- 10.2.4 Classification -- 10.2.4.1 Other classification proposals -- 10.2.4.2 Actual classification and staging system proposed by the AAOMS -- 10.3 BPs, osteonecrosis, and implant dentistry. , 10.3.1 Etiopathogenesis -- 10.3.2 Risk factors -- 10.3.3 Diagnosis and treatment -- 10.3.4 Prevention -- References -- 11 - Biocompatibility and cellular response to dental implant materials -- 11.1 Introduction -- 11.2 Cell lines -- 11.3 Determination of cytotoxicity -- 11.3.1 Qualitative evaluation -- 11.3.2 Quantitative evaluation -- 11.4 Colony formation cytotoxicity test -- 11.5 MTT cytotoxicity test -- 11.6 XTT cytotoxicity test -- 11.7 Ames test -- 11.8 Hemolysis assay -- 11.9 Karyotype analysis -- 11.10 Alternatives in animal testing -- 11.11 The 4h human patch test-protocol -- 11.12 Alternative method for dental implant osteointegration -- 11.13 Benefits of non-animal testing -- References -- 12 - Analysis of bone response to dental bone grafts by advanced physical techniques -- 12.1 Introduction: bone response to dental grafts and the problem of conventional investigating techniques -- 12.2 Synchrotron radiation and advanced physical techniques: a new approach -- 12.3 X-ray microdiffraction -- 12.4 X-ray microtomography -- 12.5 From micro-CT to HT: the new trends -- Acknowledgment -- References -- 13 - Acoustic emission and ultrasound for monitoring the bone-implant interface -- 13.1 Introduction: physical principles of mechanical monitoring of the bone-implant interface -- vibration, ultrasound and acousti ... -- 13.2 Vibrational techniques -- 13.3 Conventional ultrasonics -- 13.4 Active and passive acoustic emission -- 13.5 Summary of current state-of-the-art -- dental and nondental implants -- References -- 14 - A new approach for modeling bone response to dental implant materials -- 14.1 Introduction -- 14.2 The method -- References -- Index -- A -- B -- C -- D -- E -- F -- G -- H -- I -- J -- K -- L -- M -- N -- O -- P -- R -- S -- T -- U -- V -- W -- X -- Y -- Z -- Back Cover.

Additional Edition: ISBN 0-08-100287-4

Additional Edition: ISBN 0-08-100288-2

Language: English

UID:

Format: 1 online resource (286 pages) : , color illustrations.

Series Statement: Woodhead Publishing Series in Biomaterials

Note: Front Cover -- Bone Response to Dental Implant Materials -- Related titles -- Bone Response to Dental Implant Materials -- Copyright -- Contents -- List of contributors -- 1 - Introduction to bone response to dental implant materials -- 1.1 Introduction -- 1.1.1 Bone structure in the aspect of functionality -- 1.1.2 Bone remodeling -- 1.1.3 The modern concept of biocompatibility -- 1.2 Biomaterials -- 1.2.1 Autologous bone -- 1.2.2 Porous phycogenic hydroxyapatite -- 1.2.3 Collagenized porcine biomaterial -- 1.2.4 Anorganic bovine bone -- 1.2.5 Biphasic calcium phosphate -- 1.2.6 Calcium carbonate -- 1.3 Challenges and further trends -- 1.3.1 Graphene -- 1.3.2 Biomedical applications -- Acknowledgment -- References -- 2 - Mechanical modification of dental implants to control bone retention -- 2.1 Introduction -- 2.2 The implant as extracellular matrix -- 2.3 Cell attachment -- 2.4 Cell behavior on smooth surfaces -- 2.5 Cell behavior on three-dimensional and roughened surfaces -- 2.6 Mechanisms involved with translation of cell configuration to differentiation -- 2.7 Using controlled surface configuration to control cell function-tissue engineering surfaces -- 2.8 Mechanical basis for bone retention around dental implants -- 2.9 Conclusion -- References -- 3 - Surface modification of dental biomaterials for controlling bone response -- 3.1 Bone responses to implant surfaces -- 3.2 Roughening the surface -- 3.2.1 Surface characteristics -- 3.2.2 The effect of surface topography on bone healing -- 3.3 Application of inorganic elements to implant surfaces -- 3.3.1 Calcium phosphorus -- 3.3.2 Fluoride treatment -- 3.4 Application of organic compounds to implant surfaces -- 3.5 Concluding remarks -- References -- 4 - Bone response to calcium phosphate coatings for dental implants -- 4.1 Introduction -- 4.2 The bone implant interface. , 4.3 Methods of calcium phosphate coating -- 4.3.1 Plasma sprayed coatings -- 4.3.2 Thermal spray coating technique -- 4.3.3 Solgel coating -- 4.3.4 Sputter deposition -- 4.3.5 Pulsed laser deposition -- 4.3.6 Dip-coating technique -- 4.3.7 Ion beam assisted deposition of CaP -- 4.3.8 Electrophoretic deposition -- 4.3.9 Hot isostatic pressing technique -- 4.3.10 Biomimetic precipitation -- 4.4 Surface coating and peri-implant wound healing process -- 4.5 Factors influencing the coated implant bone interface -- 4.5.1 Surface morphology/surface topography -- 4.5.2 The chemical composition and CaP ratio -- 4.5.3 Phase composition and structure -- 4.5.4 Coating dissolution of HA -- 4.6 CaP coating as drug delivery system -- 4.6.1 Silicon -- 4.6.2 Strontium -- 4.6.3 Silver -- 4.6.4 Bisphosphonate -- 4.6.5 Proteins -- 4.7 CaP coating and peri-implantitis -- 4.8 Conclusion -- References -- 5 - Peri-implant biological behavior: clinical and scientific aspects -- 5.1 Introduction -- 5.2 Implant features -- 5.2.1 Surface -- 5.3 Implant anatomy -- 5.3.1 Implant neck design -- 5.3.2 Middle threads configuration -- 5.3.3 Apex -- 5.4 BIC percentage -- References -- 6 - Implant primary stability and occlusion -- 6.1 Introduction -- 6.2 Press-fit primary stability -- 6.3 NGF primary stability -- 6.3.1 Electrophysiological procedure -- 6.3.2 Organic symmetry -- 6.3.3 Functional symmetry -- 6.4 Neuro-evoked centric relation -- 6.5 Case reports -- 6.5.1 Case report in the delayed loading procedures -- 6.5.2 Case report in the immediate loading procedures -- 6.6 Conclusions -- References -- 7 - Clinical bone response to dental implant materials -- 7.1 Bone response to dental implants -- References -- 8 - The effect of loading on peri-implant bone: a critical review of the literature -- 8.1 Introduction -- 8.2 Implant loading prior to osseointegration. , 8.2.1 Clinical research -- 8.2.2 Animal experimental research -- 8.3 Implant loading after osseointegration -- 8.3.1 Clinical research -- 8.3.2 Animal experimental research -- 8.4 Concluding remarks -- Acknowledgment -- References -- 9 - Bone response to decontamination treatments for dental biomaterials -- 9.1 Introduction -- 9.1.1 Dental implant materials -- 9.1.1.1 Brief history -- 9.1.1.2 Classification -- 9.1.2 Endosseous dental implants and osseointegration -- 9.1.3 Peri-implantitis and re-osseointegration -- 9.2 Decontamination methods: description and applications -- 9.2.1 Methods -- 9.2.1.1 Mechanical means (dental curettes, ultrasonic scalers, air-powder abrasive) -- 9.2.1.2 Antiseptic and air-abrasive treatment -- 9.2.1.3 Physicochemical methods -- 9.2.1.4 Ultrasound -- 9.2.1.5 Laser application -- 9.2.1.6 Photodynamic therapy -- 9.2.1.7 Biochemical methods -- 9.3 Implant surfaces and bone response after decontamination -- 9.3.1 Introduction to surface features -- 9.3.2 Microscopy techniques for analysis of surface roughness -- 9.4 Summary and conclusions -- References -- 10 - Anti-resorptive treatment in osteoporosis and their deleterious effects on maxillary bone metabolism in clinical dentistry -- 10.1 Introduction -- 10.2 Concept, diagnosis and classification of BP-associated ONJ -- 10.2.1 Background -- 10.2.2 Prevalence and incidence -- 10.2.2.1 BPs for the treatment of osteoporosis -- 10.2.2.2 Oral BPs -- 10.2.2.3 Intravenous BPs for the treatment of cancer -- 10.2.3 Concept and diagnosis -- 10.2.3.1 Diagnosis of ONJ in the absence of exposed bone -- 10.2.3.2 Need for radiological or imaging confirmation of the diagnosis -- 10.2.4 Classification -- 10.2.4.1 Other classification proposals -- 10.2.4.2 Actual classification and staging system proposed by the AAOMS -- 10.3 BPs, osteonecrosis, and implant dentistry. , 10.3.1 Etiopathogenesis -- 10.3.2 Risk factors -- 10.3.3 Diagnosis and treatment -- 10.3.4 Prevention -- References -- 11 - Biocompatibility and cellular response to dental implant materials -- 11.1 Introduction -- 11.2 Cell lines -- 11.3 Determination of cytotoxicity -- 11.3.1 Qualitative evaluation -- 11.3.2 Quantitative evaluation -- 11.4 Colony formation cytotoxicity test -- 11.5 MTT cytotoxicity test -- 11.6 XTT cytotoxicity test -- 11.7 Ames test -- 11.8 Hemolysis assay -- 11.9 Karyotype analysis -- 11.10 Alternatives in animal testing -- 11.11 The 4h human patch test-protocol -- 11.12 Alternative method for dental implant osteointegration -- 11.13 Benefits of non-animal testing -- References -- 12 - Analysis of bone response to dental bone grafts by advanced physical techniques -- 12.1 Introduction: bone response to dental grafts and the problem of conventional investigating techniques -- 12.2 Synchrotron radiation and advanced physical techniques: a new approach -- 12.3 X-ray microdiffraction -- 12.4 X-ray microtomography -- 12.5 From micro-CT to HT: the new trends -- Acknowledgment -- References -- 13 - Acoustic emission and ultrasound for monitoring the bone-implant interface -- 13.1 Introduction: physical principles of mechanical monitoring of the bone-implant interface -- vibration, ultrasound and acousti ... -- 13.2 Vibrational techniques -- 13.3 Conventional ultrasonics -- 13.4 Active and passive acoustic emission -- 13.5 Summary of current state-of-the-art -- dental and nondental implants -- References -- 14 - A new approach for modeling bone response to dental implant materials -- 14.1 Introduction -- 14.2 The method -- References -- Index -- A -- B -- C -- D -- E -- F -- G -- H -- I -- J -- K -- L -- M -- N -- O -- P -- R -- S -- T -- U -- V -- W -- X -- Y -- Z -- Back Cover.

Additional Edition: ISBN 0-08-100287-4

Additional Edition: ISBN 0-08-100288-2

Language: English

UID:

Format: 1 online resource (286 pages) : , color illustrations.

Series Statement: Woodhead Publishing Series in Biomaterials

Note: Front Cover -- Bone Response to Dental Implant Materials -- Related titles -- Bone Response to Dental Implant Materials -- Copyright -- Contents -- List of contributors -- 1 - Introduction to bone response to dental implant materials -- 1.1 Introduction -- 1.1.1 Bone structure in the aspect of functionality -- 1.1.2 Bone remodeling -- 1.1.3 The modern concept of biocompatibility -- 1.2 Biomaterials -- 1.2.1 Autologous bone -- 1.2.2 Porous phycogenic hydroxyapatite -- 1.2.3 Collagenized porcine biomaterial -- 1.2.4 Anorganic bovine bone -- 1.2.5 Biphasic calcium phosphate -- 1.2.6 Calcium carbonate -- 1.3 Challenges and further trends -- 1.3.1 Graphene -- 1.3.2 Biomedical applications -- Acknowledgment -- References -- 2 - Mechanical modification of dental implants to control bone retention -- 2.1 Introduction -- 2.2 The implant as extracellular matrix -- 2.3 Cell attachment -- 2.4 Cell behavior on smooth surfaces -- 2.5 Cell behavior on three-dimensional and roughened surfaces -- 2.6 Mechanisms involved with translation of cell configuration to differentiation -- 2.7 Using controlled surface configuration to control cell function-tissue engineering surfaces -- 2.8 Mechanical basis for bone retention around dental implants -- 2.9 Conclusion -- References -- 3 - Surface modification of dental biomaterials for controlling bone response -- 3.1 Bone responses to implant surfaces -- 3.2 Roughening the surface -- 3.2.1 Surface characteristics -- 3.2.2 The effect of surface topography on bone healing -- 3.3 Application of inorganic elements to implant surfaces -- 3.3.1 Calcium phosphorus -- 3.3.2 Fluoride treatment -- 3.4 Application of organic compounds to implant surfaces -- 3.5 Concluding remarks -- References -- 4 - Bone response to calcium phosphate coatings for dental implants -- 4.1 Introduction -- 4.2 The bone implant interface. , 4.3 Methods of calcium phosphate coating -- 4.3.1 Plasma sprayed coatings -- 4.3.2 Thermal spray coating technique -- 4.3.3 Solgel coating -- 4.3.4 Sputter deposition -- 4.3.5 Pulsed laser deposition -- 4.3.6 Dip-coating technique -- 4.3.7 Ion beam assisted deposition of CaP -- 4.3.8 Electrophoretic deposition -- 4.3.9 Hot isostatic pressing technique -- 4.3.10 Biomimetic precipitation -- 4.4 Surface coating and peri-implant wound healing process -- 4.5 Factors influencing the coated implant bone interface -- 4.5.1 Surface morphology/surface topography -- 4.5.2 The chemical composition and CaP ratio -- 4.5.3 Phase composition and structure -- 4.5.4 Coating dissolution of HA -- 4.6 CaP coating as drug delivery system -- 4.6.1 Silicon -- 4.6.2 Strontium -- 4.6.3 Silver -- 4.6.4 Bisphosphonate -- 4.6.5 Proteins -- 4.7 CaP coating and peri-implantitis -- 4.8 Conclusion -- References -- 5 - Peri-implant biological behavior: clinical and scientific aspects -- 5.1 Introduction -- 5.2 Implant features -- 5.2.1 Surface -- 5.3 Implant anatomy -- 5.3.1 Implant neck design -- 5.3.2 Middle threads configuration -- 5.3.3 Apex -- 5.4 BIC percentage -- References -- 6 - Implant primary stability and occlusion -- 6.1 Introduction -- 6.2 Press-fit primary stability -- 6.3 NGF primary stability -- 6.3.1 Electrophysiological procedure -- 6.3.2 Organic symmetry -- 6.3.3 Functional symmetry -- 6.4 Neuro-evoked centric relation -- 6.5 Case reports -- 6.5.1 Case report in the delayed loading procedures -- 6.5.2 Case report in the immediate loading procedures -- 6.6 Conclusions -- References -- 7 - Clinical bone response to dental implant materials -- 7.1 Bone response to dental implants -- References -- 8 - The effect of loading on peri-implant bone: a critical review of the literature -- 8.1 Introduction -- 8.2 Implant loading prior to osseointegration. , 8.2.1 Clinical research -- 8.2.2 Animal experimental research -- 8.3 Implant loading after osseointegration -- 8.3.1 Clinical research -- 8.3.2 Animal experimental research -- 8.4 Concluding remarks -- Acknowledgment -- References -- 9 - Bone response to decontamination treatments for dental biomaterials -- 9.1 Introduction -- 9.1.1 Dental implant materials -- 9.1.1.1 Brief history -- 9.1.1.2 Classification -- 9.1.2 Endosseous dental implants and osseointegration -- 9.1.3 Peri-implantitis and re-osseointegration -- 9.2 Decontamination methods: description and applications -- 9.2.1 Methods -- 9.2.1.1 Mechanical means (dental curettes, ultrasonic scalers, air-powder abrasive) -- 9.2.1.2 Antiseptic and air-abrasive treatment -- 9.2.1.3 Physicochemical methods -- 9.2.1.4 Ultrasound -- 9.2.1.5 Laser application -- 9.2.1.6 Photodynamic therapy -- 9.2.1.7 Biochemical methods -- 9.3 Implant surfaces and bone response after decontamination -- 9.3.1 Introduction to surface features -- 9.3.2 Microscopy techniques for analysis of surface roughness -- 9.4 Summary and conclusions -- References -- 10 - Anti-resorptive treatment in osteoporosis and their deleterious effects on maxillary bone metabolism in clinical dentistry -- 10.1 Introduction -- 10.2 Concept, diagnosis and classification of BP-associated ONJ -- 10.2.1 Background -- 10.2.2 Prevalence and incidence -- 10.2.2.1 BPs for the treatment of osteoporosis -- 10.2.2.2 Oral BPs -- 10.2.2.3 Intravenous BPs for the treatment of cancer -- 10.2.3 Concept and diagnosis -- 10.2.3.1 Diagnosis of ONJ in the absence of exposed bone -- 10.2.3.2 Need for radiological or imaging confirmation of the diagnosis -- 10.2.4 Classification -- 10.2.4.1 Other classification proposals -- 10.2.4.2 Actual classification and staging system proposed by the AAOMS -- 10.3 BPs, osteonecrosis, and implant dentistry. , 10.3.1 Etiopathogenesis -- 10.3.2 Risk factors -- 10.3.3 Diagnosis and treatment -- 10.3.4 Prevention -- References -- 11 - Biocompatibility and cellular response to dental implant materials -- 11.1 Introduction -- 11.2 Cell lines -- 11.3 Determination of cytotoxicity -- 11.3.1 Qualitative evaluation -- 11.3.2 Quantitative evaluation -- 11.4 Colony formation cytotoxicity test -- 11.5 MTT cytotoxicity test -- 11.6 XTT cytotoxicity test -- 11.7 Ames test -- 11.8 Hemolysis assay -- 11.9 Karyotype analysis -- 11.10 Alternatives in animal testing -- 11.11 The 4h human patch test-protocol -- 11.12 Alternative method for dental implant osteointegration -- 11.13 Benefits of non-animal testing -- References -- 12 - Analysis of bone response to dental bone grafts by advanced physical techniques -- 12.1 Introduction: bone response to dental grafts and the problem of conventional investigating techniques -- 12.2 Synchrotron radiation and advanced physical techniques: a new approach -- 12.3 X-ray microdiffraction -- 12.4 X-ray microtomography -- 12.5 From micro-CT to HT: the new trends -- Acknowledgment -- References -- 13 - Acoustic emission and ultrasound for monitoring the bone-implant interface -- 13.1 Introduction: physical principles of mechanical monitoring of the bone-implant interface -- vibration, ultrasound and acousti ... -- 13.2 Vibrational techniques -- 13.3 Conventional ultrasonics -- 13.4 Active and passive acoustic emission -- 13.5 Summary of current state-of-the-art -- dental and nondental implants -- References -- 14 - A new approach for modeling bone response to dental implant materials -- 14.1 Introduction -- 14.2 The method -- References -- Index -- A -- B -- C -- D -- E -- F -- G -- H -- I -- J -- K -- L -- M -- N -- O -- P -- R -- S -- T -- U -- V -- W -- X -- Y -- Z -- Back Cover.

Additional Edition: ISBN 0-08-100287-4

Additional Edition: ISBN 0-08-100288-2

Language: English