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Chapter 1 Improvement of Mechanical Properties
1£®1 Biodegradable Metallic Bone Implants
1£®1£®1 Introduction
1£®1£®2 Types of Biodegradable Metals
1£®1£®3 Biodegradability
1£®1£®4 Mechanical Properties
1£®1£®5 Biocompatibility
1£®1£®6 Conclusive Remarks
1£®2 Refined Lamellar Eutectic in Biomedical Zn-A1-Zr Alloys for Mechanical Reinforcement
1£®2£®1 Introduction
1£®2£®2 Experimental Details
1£®2£®3 Results and Discussions
1£®2£®4 Conclusions
1£®3 nMgO-incorporated PLIA Bone Scaffolds£ºEnhanced Crystallinity and Neutralized Acidic Products
1£®3£®1 Introduction
1£®3£®2 Materials and Methods
1£®3£®3 Results and Discussio
1£®3£®4 Conclusions

Chapter 2 Regulation of Degradation Rate
2£®1 3 D Honeycomb Nanostructure-encapsulate Magnesium Alloys with Superior Corrosion Resistance and Mechanical Properties
2£®1£®1 Introduction
2£®1£®2 Materials and Methods
2£®1£®3 Resuhs and Discussion
2£®1£®4 Conclusions
2£®2 Regulating Degradation Behavior by Incorporating Mesoporous Silica for Mg Bone Implants
2£®2£®1 Introduction
2£®2£®2 Materials and Methods
2£®2£®3 Results and Discussion
2£®2£®4 Conclusions
2£®3 Uniform Degradation Mode and Enhanced Degradation Resistance of Mg Alloy via a Long Period Stacking Ordered Phase in the Grain Interior
2£®3£®1 Introduction
2£®3£®2 Experimental Procedures
2£®3£®3 Results and Discussion
2£®3£®4 Conclusions
2£®4 Positive Feedback Effects of Mg on the Hydrolysis of Poly-L-lactic Acid£¨PLLA£© Promoted Degradation of PLLA Scaffolds
2£®4£®1 Introduction
2£®4£®2 Materials and Methods
2£®4£®3 Results and Discussion
2£®4£®4 Conclusions

Chapter 3 Endow of Anti¡¤bacterial Function
3£®1 Antibacterial Polymer Scaffold Based on Mesoporous Bioactive Glass Loaded with in Situ Grown Silver
3£®1£®1 Introduction
3£®1£®3 Results and discussion
3£®1£®4 Conclusions
3£®2 Montmorillonite with Unique Interlayer Space Imparted Polymer Scaffolds with Sustained Release of Ag
3£®2£®1 Introduction
3£®2£®2 Material and Methods
3£®2£®3 Resuhs and Discussion
3£®2£®4 Conclusions
3£®3 Lanthanum-Containing Magnesium Alloy with Antitumor Function Based on Increased Reactive Oxygen Species
3£®3£®1 Introduction
3£®3£®2 Experimental Methods
3£®3£®3 Results and Discussion
3£®3£®4 Conclusions

Chapter 4 Promotion of Osteogenic Ability
4£®1 Physical Stimulations and Their Osteogenesis-inducing Mechanisms
4£®1£®1 Introduction
4£®1£®2 The Osteogenesis-inducing Mechanisms of Physical Stimulations
4£®1£®3 The Effects of Physical Stimulations on Bone Cells
4£®1£®4 In vivo StUdies of Physical Stimulation
4£®1£®5 The Equipments of Physical Stimulation Systems
4£®1£®6 The Opportunities and Challenges of Physical Stimulations
4£®2 Disperse magnetic Sources Constructed with Functionalized Fe3 04 Nanoparticles in Poly 1-1actic Acid Scaffolds
4£®2£®1 Introduction
4£®2£®2 Materials and Methods
4£®2£®3 Results and Discussion
4£®2£®4 Conclusions
References