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Bioceramics and Alternative Bearings in Joint Arthroplasty 10th BIOLOX Symposium Washington D C June 10 11 2005 Proceedings Ceramics in Orthopaedics 1st Edition by James A DAntonio, Martin Dietrich ISBN 3798515409 9783798515406

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Bioceramics and Alternative Bearings in Joint Arthroplasty 10th BIOLOX Symposium Washington D C June 10 11 2005 Proceedings Ceramics in Orthopaedics 1st Edition James A. D’Antonio Digital Instant Download

Author(s): James A. D’Antonio, Martin Dietrich
ISBN(s): 9783798515406, 3798515409
Edition: 1
File Details: PDF, 4.45 MB
Year: 2005
Language: english
SKU: EB-1905852 Category: Tags: ,

Bioceramics and Alternative Bearings in Joint Arthroplasty 10th BIOLOX Symposium Washington D C June 10 11 2005 Proceedings Ceramics in Orthopaedics 1st Edition by James A DAntonio, Martin Dietrich – Ebook PDF Instant Download/Delivery: 3798515409, 9783798515406
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Product details:

ISBN 10: 3798515409
ISBN 13: 9783798515406
Author: James A DAntonio, Martin Dietrich

Dear Colleague and Participant in Bioceramics and Alternative Bearings In Joint Arthroplasty: 10*” International BIOLOX® Symposium We are once again very proud that we are able to present to you the proceedings of the Symposiunn as part of your registration materials. This group accomplishment has been made possible by the superb cooperation received from the speakers in sending us their manuscripts on a timely basis as well as by the supporting staff at both CeramTec and at the Publishing House in executing all of the details needed. We specially extend our most heartfelt thanks to the Scientific Committee for their assistance in evaluating and selecting the submissions as well as developing the Symposium program. We are more convinced than ever that the proceedings of this Symposium are a continuation of CeramTec’s tradition of providing all members of the orthopedic surgical community with a valuable addition to your reference libraries. We hope that this book will present you with the latest and most up to date source of scientific and clinical information regarding the use of ceramics and other alternative bearings in joint replacement surgery.

Bioceramics and Alternative Bearings in Joint Arthroplasty 10th BIOLOX Symposium Washington D C June 10 11 2005 Proceedings Ceramics in Orthopaedics 1st Table of contents:

Chapter 1: Introduction to Bioceramics in Orthopaedics

1.1 The Role of Bioceramics in Joint Arthroplasty
1.2 Properties of Ceramic Materials: Biocompatibility, Durability, and Wear Resistance
1.3 Historical Development of Ceramic Bearings in Orthopaedic Implants
1.4 The Evolution of Ceramic Materials for Joint Prostheses
1.5 Case Study: Early Use of Bioceramics in Hip Replacements

Chapter 2: Advances in Ceramic Bearings for Joint Arthroplasty

2.1 Types of Ceramic Bearings: Alumina, Zirconia, and Composite Materials
2.2 The Science of Wear and Friction: Comparing Ceramic Bearings to Metal-on-Metal and Polyethylene Bearings
2.3 Long-Term Performance of Ceramic Bearings in Hip and Knee Arthroplasty
2.4 Wear Resistance and Longevity of Ceramic-on-Ceramic Bearings
2.5 Clinical Outcomes: Revision Rates and Complications with Ceramic Bearings

Chapter 3: Alternative Bearing Materials in Joint Arthroplasty

3.1 The Shift from Metal-on-Metal to Ceramic Bearings: Motivations and Results
3.2 Polyethylene Alternatives: Cross-Linked Polyethylene and Its Role in Reducing Wear
3.3 Hybrid Bearings: Ceramic-on-Polyethylene and Their Clinical Benefits
3.4 Emerging Materials: New High-Performance Materials in Joint Replacement
3.5 Case Study: Comparison of Ceramic Bearings vs. Polyethylene Bearings in Total Knee Replacement

Chapter 4: Biomechanics of Ceramic Bearings in Hip and Knee Replacements

4.1 Biomechanical Properties of Ceramic Materials
4.2 The Effect of Bearing Materials on Joint Kinematics and Load Distribution
4.3 Finite Element Modeling: Predicting the Behavior of Ceramic Bearings Under Load
4.4 Implications of Bearing Choice on Joint Stability and Patient Mobility
4.5 Case Study: Biomechanical Testing of Ceramic Bearings in Total Hip Arthroplasty

Chapter 5: Clinical Trials and Studies on Ceramic Bearings

5.1 Review of Global Clinical Studies on Ceramic Bearings
5.2 Comparative Analysis of Ceramic and Traditional Bearings in Terms of Wear, Function, and Patient Outcomes
5.3 Long-Term Follow-Up: Clinical Data on Ceramic-on-Ceramic and Ceramic-on-Polyethylene Bearings
5.4 Potential Complications: Ceramic Fracture, Edge Loading, and Osteolysis
5.5 Case Study: 10-Year Clinical Results of Ceramic Bearings in Total Hip Replacement

Chapter 6: Risk Factors and Complications in Ceramic Bearings

6.1 Wear Debris and Its Impact on the Surrounding Tissue
6.2 Ceramic Fracture: Causes, Prevention, and Clinical Management
6.3 The Role of Patient-Specific Factors: Age, Activity Level, and Bone Quality
6.4 Infection and Inflammatory Response to Ceramic Bearings
6.5 Case Study: Handling Ceramic Bearing Failures in Revision Surgery

Chapter 7: The Future of Bioceramics and Bearing Materials in Joint Arthroplasty

7.1 Ongoing Research and Innovations in Ceramic Materials
7.2 The Role of Nanotechnology in Enhancing Ceramic Bearings
7.3 Integration of Advanced Manufacturing Techniques for Custom Bearings
7.4 Future Trends: The Development of Bioactive Ceramic Coatings and Smart Implants
7.5 The Next Decade in Joint Arthroplasty: Trends, Challenges, and Opportunities

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Tags: James A DAntonio, Martin Dietrich, Bioceramics, Arthroplasty