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Autorenporträt
Jean-Yves Lazennec, Paris, France / Martin Dietrich, Plochingen, Germany
Inhaltsangabe
1.1 Ceramic on Ceramic Bearings Used with Proximal Modular Stems in THA.- 1.2 Surface Analysis of Explanted Alumina-Alumina Bearings.- 1.3 A Ten Years Experience with Alumina-Alumina Hip Replacement.- 1.4 Thirty Years Experience with all Ceramic Bearings.- 1.5 Ceramic/Ceramic Total Hip Replacement: The American Experience with Stryker Implants.- 1.6 Results Obtained for 474 Cementless Hip Endoprostheses using Ceramic/Ceramic Components.- 1.7 Alumina Ceramic against Polyethylene: A long term follow up.- 2.1 Long Term Wear of Ceramic on Ceramic Hips.- 2.2 Periarticular Reaction to Wear Debris of Different Ceramic Materials.- 2.3 Two Bearing Ceramic Surfaces with a Self Adjusting Cup: A New Solution to avoid Dislocation and Subluxation in Total Hip Prosthesis.- 2.4 Analysis and Investigation of the Adhesive Strength of Ceramic and Bone Cement in Knee Arthroplasty.- 2.5 Alumina Ceramic-Ceramic Total Hip Arthroplasty using Computer-Assisted Surgical Navigation and a New Minimally Invasive Technique.- 3.1 Phase Transformation in Zirconia Heads after THA Myth or Reality?.- 3.2 Chamley-Kerboull Total Hip Arthroplasty Combining Zirconia on Polyethylene A Minimum 2-Year Follow-Up Prospective Study.- 3.3 Highly Cross-linked Polyethylene - A New Option in Tribology of THA.- 3.4 The Crosslinked Ultra-high Molecular Weight Polyethylene: Risk and Limitation.- 3.5 Reducing Wear Using the Ceramic Surface on Oxidized Zirconium Heads.- 3.6 Is the OXINIUM Technology a Useful Technology in Total Joint Arthroplasty?.- 3.7 Ceramic Coatings in Metal-PE Joints: Where Are We Now?.- 3.8 Metal on Metal in Resurfacing Arthroplasty: Risks or Benefits?.- 3.9 Surface Replacement of the Hip: Contra.- 4.1 The Concept of CeramTec to Offer Ball Heads Dedicated to Hip Revision Demands.- 4.2 Clinical andTechnical Aspects in THA-Revision Surgery: Current Problems, Guidelines for Current, and Future Solutions.- 5.1 Risk Factors for Dislocation after Total Hip Arthroplasty: Results of a Long Term Analysis.- 5.2 Hip-Spine Relationships: A New Concept to Analyse THP Dysfunction and Instability.- 5.3 Design Parameter to Improve Range of Motion (ROM) in Total Hip Arthroplasty.- 5.4 Recommendations for Maximizing Range of Motion.- 5.5 THA Ceramic-Ceramic Coupling: The Evaluation of the Dislocation Rate with Bigger Heads.
1.1 Ceramic on Ceramic Bearings Used with Proximal Modular Stems in THA.- 1.2 Surface Analysis of Explanted Alumina-Alumina Bearings.- 1.3 A Ten Years Experience with Alumina-Alumina Hip Replacement.- 1.4 Thirty Years Experience with all Ceramic Bearings.- 1.5 Ceramic/Ceramic Total Hip Replacement: The American Experience with Stryker Implants.- 1.6 Results Obtained for 474 Cementless Hip Endoprostheses using Ceramic/Ceramic Components.- 1.7 Alumina Ceramic against Polyethylene: A long term follow up.- 2.1 Long Term Wear of Ceramic on Ceramic Hips.- 2.2 Periarticular Reaction to Wear Debris of Different Ceramic Materials.- 2.3 Two Bearing Ceramic Surfaces with a Self Adjusting Cup: A New Solution to avoid Dislocation and Subluxation in Total Hip Prosthesis.- 2.4 Analysis and Investigation of the Adhesive Strength of Ceramic and Bone Cement in Knee Arthroplasty.- 2.5 Alumina Ceramic-Ceramic Total Hip Arthroplasty using Computer-Assisted Surgical Navigation and a New Minimally Invasive Technique.- 3.1 Phase Transformation in Zirconia Heads after THA Myth or Reality?.- 3.2 Chamley-Kerboull Total Hip Arthroplasty Combining Zirconia on Polyethylene A Minimum 2-Year Follow-Up Prospective Study.- 3.3 Highly Cross-linked Polyethylene - A New Option in Tribology of THA.- 3.4 The Crosslinked Ultra-high Molecular Weight Polyethylene: Risk and Limitation.- 3.5 Reducing Wear Using the Ceramic Surface on Oxidized Zirconium Heads.- 3.6 Is the OXINIUM Technology a Useful Technology in Total Joint Arthroplasty?.- 3.7 Ceramic Coatings in Metal-PE Joints: Where Are We Now?.- 3.8 Metal on Metal in Resurfacing Arthroplasty: Risks or Benefits?.- 3.9 Surface Replacement of the Hip: Contra.- 4.1 The Concept of CeramTec to Offer Ball Heads Dedicated to Hip Revision Demands.- 4.2 Clinical andTechnical Aspects in THA-Revision Surgery: Current Problems, Guidelines for Current, and Future Solutions.- 5.1 Risk Factors for Dislocation after Total Hip Arthroplasty: Results of a Long Term Analysis.- 5.2 Hip-Spine Relationships: A New Concept to Analyse THP Dysfunction and Instability.- 5.3 Design Parameter to Improve Range of Motion (ROM) in Total Hip Arthroplasty.- 5.4 Recommendations for Maximizing Range of Motion.- 5.5 THA Ceramic-Ceramic Coupling: The Evaluation of the Dislocation Rate with Bigger Heads.
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