Bioceramics and their clinical applications:
Gespeichert in:
| Format: | Buch |
|---|---|
| Sprache: | English |
| Veröffentlicht: |
Boca Raton [u.a.]
CRC Press [u.a.]
2008
|
| Schriftenreihe: | Woodhead publishing in materials
|
| Schlagworte: | |
| Online-Zugang: | Inhaltsverzeichnis |
| Beschreibung: | XXIV, 760 S. Ill., graph. Darst. |
| ISBN: | 9781420072075 9781845692049 |
Internformat
MARC
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| 300 | |a XXIV, 760 S. |b Ill., graph. Darst. | ||
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| 650 | 4 | |a Biomedical Engineering | |
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| 650 | 4 | |a Ceramics in medicine | |
| 650 | 4 | |a Biocompatible Materials | |
| 650 | 4 | |a Biomedical Engineering | |
| 650 | 4 | |a Biomedical Technology | |
| 650 | 4 | |a Ceramics | |
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Datensatz im Suchindex
| _version_ | 1804138817834188800 |
|---|---|
| adam_text | Contents
Contributor contact details xv
Preface xxiii
Part I Fundamentals of bioceramics 1
1 The structure and mechanical properties of bone 3
J Currey, University of York, UK
1.1 Introduction 3
1.2 Structure 3
1.3 Mechanical properties 9
1.4 Some clinical matters 21
1.5 Future trends 23
1.6 Sources of further information and advice 23
1.7 References 24
2 Fabrication processes for bioceramics 28
Y Tanaka and K Yamashita, Tokyo Medical and
Dental University, Japan
2.1 Introduction 28
2.2 Conventional processing of ceramics 30
2.3 Conventional and chemical processing of glasses and
glass-ceramics 41
2.4 Coatings 45
2.5 Recent advances 50
2.6 Summary 51
2.7 Bibliography 51
3 The microstructure of bioceramics and its analysis 53
S Hayakawa, K Tsuru and A Osaka, Okayama
University, Japan
3.1 Introduction 53
3.2 Effects of processing ceramics on their microstructures 53
v
vi Contents
3.3 Imaging techniques for ceramics 57
3.4 Summary 71
3.5 References 72
4 Mechanical properties of bioceramics 78
M V Swain and L-H He, University of Sydney, Australia
4.1 Introduction of basic definitions 78
4.2 Reinforcement of bioceramics and its significance 89
4.3 The effects of flaws and environment on mechanical
properties 92
4.4 Lifetime prediction and proof test 100
4.5 Summary 102
4.6 References 102
5 The design of ceramics for joint replacement 106
I C Clarke, Loma Linda University Medical Center,
USA and A Gustafson, Gustafson Orthopedics, USA
5.1 Introduction 106
5.2 Developmental period of alumina bearings 107
5.3 Introduction to zirconia THR 118
5.4 Introduction to alumina matrix composite (AMC)
ceramics 121
5.5 Summary 125
5.6 Conclusions 126
5.7 Acknowledgements 127
5.8 References and further reading 127
6 Cellular response to bioactive ceramics 133
C Knabe, Charite Medical University, Germany and
Thomas Jefferson University, USA and P Ducheyne,
University of Pennsylvania, USA
6.1 Introduction - clinical significance 133
6.2 Mechanisms of bioactivity 137
6.3 Mechanisms of biodegradation of bioceramics 154
I 6.4 Summary 155
6.5 Acknowledgements 156
6.6 References 156
7 In vitro evaluation of bone bioactivity 165
H Takadama and T Kokubo, Chubu University, Japan
7.1 Introduction 165
7.2 Ion concentrations of SBF 166
7.3 Correlation of in vivo bone-bonding ability and in vitro
apatite-forming ability in SBF 167
Contents vii
7.4 What types of material form apatite? 169
7.5 Mechanisms of apatite formation 172
7.6 Summary 173
7.7 Appendix: protocol for preparing SBF 174
7.8 References 179
8 Osteoconduction and its evaluation 183
T Nakamura and M Takemoto, Kyoto University, Japan
8.1 Introduction 183
8.2 The mechanism of osteoconduction 184
8.3 Monitoring osteoconduction 185
8.4 Approaches to encourage osteoconduction 185
8.5 Evaluation of bonding strength by pushout test and
tensile test 189
8.6 Summary 193
8.7 References 195
9 Osteoinduction and its evaluation 199
J D de Bruijn, Progentix BV, The Netherlands and
Queen Mary University of London, UK; K Shankar,
Queen Mary University of London, UK; H Yuan,
Progentix BV and University of Twente, The Netherlands
and P Habibovic, University of Twente, The Netherlands
9.1 Introduction 199
9.2 Osteoinduction 199
9.3 Ceramics to promote osteoinduction 203
9.4 Evaluation of osteoinduction 207
9.5 Mechanism of material-induced bone formation 209
9.6 Summary and future trends 213
9.7 References 214
Part II Types of bioceramics 221
10 Alumina ceramics 223
B Ben-Nissan, A H Choi and R Cordingley,
University of Technology, Australia
10.1 Introduction 223
10.2 Physical properties of alumina 225
10.3 Mechanical properties of alumina 227
10.4 Bioinert ceramics in articulation 227
10.5 Medical-grade alumina 230
10.6 Current alumina bioceramics 231
viii Contents
10.7 Current manufacturers of alumina bioceramics 234
10.8 New-generation alumina bioceramics 235
10.9 Summary 240
10.10 References and further reading 241
11 Zirconia ceramics 243
J Chevalier and L Gremillard, INSA-Lyon, France
11.1 Introduction 243
11.2 Crystallography and phase transformation in zirconia 244
11.3 Processing of zirconia ceramics: from powder to implants 248
11.4 Mechanical properties of zirconia: taking benefit from
phase transformation toughening 251
11.5 Ageing of zirconia: a negative consequence of phase
transformation 255
11.6 Current biomedical applications of zirconia: from
orthopaedic to dental applications 258
11.7 On the future of zirconia 260
11.8 Sources of further information 263
11.9 References 263
12 Bioactive glass 266
J R Jones, Imperial College London, UK
12.1 Introduction - the discovery of Bioglass® 266
12.2 The bone-bonding mechanism 267
12.3 Making Bioglass® 268
12.4 Bioactive glass compositions 268
12.5 Soft tissue interactions 270
12.6 Mechanisms of bioactivity 270
12.7 Sol-gel-derived bioactive glasses 271
12.8 Clinical products 277
12.9 Summary 279
12.10 References 279
13 Bioactive glass-ceramics 284
T Kokubo, Chubu University, Japan
13.1 Introduction 284
13.2 Fabrication process 284
13.3 Mechanical properties 287
13.4 Biological properties 290
13.5 Bone-bonding mechanism of glass-ceramic A-W 292
13.6 Apatite-forming mechanism of glass-ceramic A-W 295
13.7 Summary 298
13.8 References 298
Contents ix
14 Calcium sulfate 302
J L Ricci and M J Weiner, New York University
College of Dentistry, USA and S Mamidwar and
H Alexander, Orthogen Corporation, USA
14.1 Introduction 302
14.2 Fabrication, microstructure, physical properties, and
mechanical properties 303
14.3 Biological properties of CS as a bone repair material 311
14.4 Recent developments: timed release CS 321
14.5 Conclusion 322
14.6 References 322
15 Tricalcium phosphate-based ceramics 326
C Rey, C Combes and C Drouet, CIRIMAT,
France and S Somrani, IPEIT, Tunisia
15.1 Introduction 326
15.2 Overview of tricalcium phosphates 327
15.3 Synthesis, structure and physicochemical properties of
the different TCP phases 329
15.4 Applications and uses of TCP-based bioceramics 338
15.5 Processing and mechanical properties of TCP-based
biomaterials 341
15.6 Biological properties of TCP 349
15.7 Recent developments 353
15.8 Conclusion 354
15.9 Acknowledgement 355
15.10 References 355
16 Hydroxyapatite 367
R Z LeGeros and J P LeGeros, New York University
College of Dentistry, USA
16.1 Introduction 367
16.2 Fabrication 371
16.3 Microstructure 377
16.4 Chemical, physical and mechanical properties 379
16.5 Biological properties 381
16.6 Applications 383
16.7 Recent developments 386
16.8 Summary 386
16.9 Acknowledgments 386
16.10 References 387
x Contents
17 Tricalcium phosphate/hydroxyapatite biphasic
ceramics 395
G Daculsi, INSERM, Nantes University and Bordeaux
Hospital, France and R Z LeGeros, New York
University College of Dentistry, USA
17.1 Introduction 395
17.2 Fabrication and properties 397
17.3 Clinical applications 404
17.4 Recent developments 410
17.5 Summary 415
17.6 Acknowledgments 415
17.7 References 416
18 Si-substituted hydroxyapatite 424
E S Thian and S M Best, University of
Cambridge, UK
18.1 Introduction 424
18.2 Fabrication 424
18.3 Microstructure 426
18.4 Physical properties 427
18.5 Mechanical properties 430
18.6 Biological properties 431
18.7 Applications 433
18.8 Recent developments 433
18.9 Summary 434
18.10 References and further reading 434
19 Calcium phosphate cement 438
K Ishikawa, Kyushu University, Japan
19.1 Introduction 438
19.2 Fabrication of calcium phosphate cement 439
19.3 Hardening mechanisms 443
19.4 Anti-washout property of the apatite cement 448
19.5 Injectability 450
19.6 Tissue response and osteoconductivity of apatite
cement 452
19.7 Tissue response to brushite cement 455
19.8 Replacement of apatite cement with bone 456
19.9 Clinical results 459
19.10 Summary 460
19.11 References 460
Contents xi
20 Calcium phosphate coatings 464
S C G Leeuwenburgh, J G C Wolke and J A Jansen,
Radboud University Nijmegen Medical Center,
The Netherlands and K de Groot, University of Twente,
The Netherlands
20.1 Introduction 464
20.2 Bioactive materials 464
20.3 Fabrication: calcium phosphate coating techniques 467
20.4 Mechanical properties 475
20.5 Biological properties 477
20.6 Clinical applications 478
20.7 Summary 479
20.8 References 479
21 Titania-based materials 485
T Kokubo, H Takadama and T Matsushita,
Chubu University, Japan
21.1 Introduction 485
21.2 Formation of titania-based materials on metals 486
21.3 Physical and chemical properties of the titania-based
layer on metals 489
21.4 Mechanism of apatite formation on titania-based
materials 490
21.5 Biological properties of a titania-based layer on metals 491
21.6 Some titania-based composites 496
21.7 Summary 496
21.8 References 498
22 Ceramic-polymer composites 501
C Ohtsuki, Nagoya University, Japan
22.1 Introduction 501
22.2 Hydroxyapatite-polyethylene composites 503
22.3 Hydroxyapatite-poly-L-lactide (PLLA) composites 505
22.4 Calcium phosphate-collagen composites 510
22.5 Recent trends for development of bioactive composites 512
22.6 Summary 514
22.7 References 514
23 Dental ceramics 518
V P Thompson and E D Rekow, New York
University, USA
23.1 Introduction 518
23.2 Types of dental ceramics 518
xii Contents
23.3 Monolithic crown ceramics 522
23.4 Structural ceramic applications in dentistry 526
23.5 Mechanical properties and clinical performance of
dental ceramic restorations 528
23.6 Additional dental restorative applications of ceramics 539
23.7 Future trends 540
23.8 Summary 541
23.9 References 541
24 Dental glass-ceramics 548
W Holand and V Rheinberger, Ivoclar Vivadent AG,
Liechtenstein
24.1 Introduction 548
24.2 Fabrication 549
24.3 Microstructure 553
24.4 Properties of the glass-ceramics 557
24.5 Application 561
24.6 Summary 565
24.7 References 566
Part III Clinical applications of bioceramics 569
25 Clinical application of bioactive glasses 571
H O Ylanen, Abo Akademi University and University
of Turku, Finland
25.1 Introduction 571
25.2 Applications of bioactive glasses 572
25.3 Future trends 579
25.4 Concluding remarks 580
25.5 References 581
26 Clinical application of bioactive glass-ceramics 583
T Yamamuro, Kyoto University, Japan
26.1 Introduction 583
26.2 Why glass-ceramic? 583
26.3 Application of AW-GC to the spine 587
26.4 The iliac crest prosthesis made of AW-GC 597
26.5 AW-GC to replace large bone tumours 598
26.6 AW-GC coating on hip prosthesis 600
26.7 Summary 603
26.8 References 604
Contents xiii
27 Clinical application of hydroxyapatite 606
H Oonishi, H Oonishi, Jr., and S C Kim,
Tominga Hospital, Japan; L L Hench and J Wilson,
University of Florida, USA; E Tsuji, Osaka
Prefectural Industrial Engineering Research Institute,
Japan; H Fujita, Kyoto Katsura Hospital, Japan;
H Oohashi, Osaka Nakatsu Saiseikai Hospital,
Japan and K. Oomamiuda, Olympus Terumo
Biomaterials Corp, Japan
27.1 Introduction 606
27.2 Comparative bone growth behavior in granules of
HA and other bioceramic materials 607
27.3 Quantitative comparison of bone growth behavior
into HA granule mass with other surface-bioactive
ceramics 634
27.4 Clinical applications: interface bioactive bone
cement (IBBC) 655
27.5 Reconstruction surgery of the acetabular huge bone
deficiency by filling HA granules at revision total
arthroplasty 671
27.6 References 684
28 Clinical applications of ceramic-ceramic
combinations in joint replacement 688
L Sedel, University of Paris 7 and Hopital
Lariboisiere (APHP), France
28.1 Introduction 688
28.2 History 689
28.3 Background on ceramics 690
28.4 Clinical data 691
28.5 Discussion 696
28.6 Conclusion 696
28.7 References and further reading 696
29 Clinical applications of ceramic-polyethylene
combinations in joint replacement 699
H Oonishi, S C Kim and H Oonishi Jr., Tominaga
Hospital, Japan and S Masuda, M Kyomoto and
M Ueno, Japan Medical Materials Corporation, Japan
29.1 Introduction 699
29.2 Hip joint 699
29.3 Knee joint 707
xiv Contents
29.4 Summary 715
29.5 References 715
30 Tissue engineering using bioceramics 718
H Ohgushi, National Institute of Advanced Industrial
Science and Technology, Japan
30.1 Introduction: bioceramics as scaffolds for tissue
engineering 718
30.2 The experimental model for testing scaffold ceramics 719
30.3 Bioactive ceramics (composites of bioactive ceramics
and marrow cells) 719
30.4 Bioinert ceramics (composites of alumina and
marrow cells) 722
30.5 Tissue engineering approach 723
30.6 Clinical application of tissue engineered ceramics 729
30.7 Summary 733
30.8 Acknowledgments 734
30.9 References 734
Index 737
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| id | DE-604.BV035393750 |
| illustrated | Illustrated |
| indexdate | 2024-07-09T21:34:13Z |
| institution | BVB |
| isbn | 9781420072075 9781845692049 |
| language | English |
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| physical | XXIV, 760 S. Ill., graph. Darst. |
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| spelling | Bioceramics and their clinical applications ed. by Tadashi Kokubo Boca Raton [u.a.] CRC Press [u.a.] 2008 XXIV, 760 S. Ill., graph. Darst. txt rdacontent n rdamedia nc rdacarrier Woodhead publishing in materials Ceramics Biocompatible Materials Biomedical Engineering Biomedical Technology Ceramics in medicine Biokeramik (DE-588)4371693-3 gnd rswk-swf Biokeramik (DE-588)4371693-3 s DE-604 Kokubo, Tadashi Sonstige oth Erscheint auch als Online-Ausgabe 978-1-84569-422-7 HBZ Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=017314498&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis |
| spellingShingle | Bioceramics and their clinical applications Ceramics Biocompatible Materials Biomedical Engineering Biomedical Technology Ceramics in medicine Biokeramik (DE-588)4371693-3 gnd |
| subject_GND | (DE-588)4371693-3 |
| title | Bioceramics and their clinical applications |
| title_auth | Bioceramics and their clinical applications |
| title_exact_search | Bioceramics and their clinical applications |
| title_full | Bioceramics and their clinical applications ed. by Tadashi Kokubo |
| title_fullStr | Bioceramics and their clinical applications ed. by Tadashi Kokubo |
| title_full_unstemmed | Bioceramics and their clinical applications ed. by Tadashi Kokubo |
| title_short | Bioceramics and their clinical applications |
| title_sort | bioceramics and their clinical applications |
| topic | Ceramics Biocompatible Materials Biomedical Engineering Biomedical Technology Ceramics in medicine Biokeramik (DE-588)4371693-3 gnd |
| topic_facet | Ceramics Biocompatible Materials Biomedical Engineering Biomedical Technology Ceramics in medicine Biokeramik |
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