Contents
1. Introduction
1. Introduction Reasons and Methods of creation of the Zweymüller prostheses
2. The Geometric Anchoring
2.1. Presentation of the Geometric Anchoring
2.2. The Principle of Primary Stability
2.3. The Principle of the Conical Junction in the bone
2.4. The Principle of Field of Bone Vitality
2.5. The Principle of Distributed Constraints
2.6. The Principle of Prestressing
2.7. The Principle of Impaction Reserve
2.8. The Principle of Extractibility
2.9. The Principle of Separation of the Roles of the components
3. Original Methods of creation of prostheses
3.1. the Method of the Growth factors
3.2. the Method of the Optimized Sizes
3.3. The Law of Positive Derivates
3.5. Curved Space in Logarithmic Spiral
3.7. The Computing system in preparation
4. Processes Specific to the femoral stems
The Calcar-Polynomial-Deckner
Other Processes
4.7. The Ascending Interlocking
4.9. The Impaction Reserve applied to the Rasps
5. Products and Projects created by my methods
5.1. Stems without cement
5.1.3. Stems Reoperation SLR Plus
5.1.4. Stems Reoperation Modular Plus
5.1.5. Stems ANAtomicGEOmetric, project
5.1.6. Stems Modular SL 2000, project
5.1.7. Stems Real Press Fit, project
5.2. Cemented stems
5.3. Cups
5.3.3. Inlays Bicon Plus Antiluxation
5.3.4. Inlays Bicon Plus Metal-Metal
5.3.5. Inlays Bicon Plus Ceramic-Ceramic, project
5.3.6. Cups SpheriCone screwed, project
5.3.7. Flexible cups without PE, project
5.3.8. Cups ANA.NOVA Hybrid Impacted-Screwed
5.5. Instruments
6. Documents
6.1. Lexicon
6.2. Quoted publications
6.2.1. Bibliography of Orthopedic Publications
6.2.2. Proposal for a Standard on the Conical and modular Junctions
6.2.3. Summary of presentation of the Geometric Anchoring at the Society of Biomechanics
6.3. Deposited Patents
6.3.1. Patent AlloClassic stem
6.3.3. Patent MultiCone Junction
6.3.5. Patent Modular Anchoring
6.3.6. Patent MultiCone junction for Modular
6.4. Legal Documents
6.4.1. Summary Creative License Commons