Surface Modification of Magnesium and its Alloys for Biomedical Applications Biological Interactions, Mechanical Properties and Testing Woodhead Publishing Series in Biomaterials Series
Coordonnateurs : Narayanan T.S.N. Sankara, Park Il-Song, Lee Min-Ho
Surface modification of magnesium and its alloys for biomedical applications: Biological interactions, mechanical properties and testing, the first of two volumes, is an essential guide on the use of magnesium as a degradable implant material. Due to their excellent biocompatibility and biodegradability, magnesium based degradable implants provide a viable option for the permanent metallic implants. This volume focuses on the fundamental concepts of surface modification of magnesium, its biological interactions, mechanical properties and, in vitro and in vivo testing. The contents of volume 1 is organized and presented in three parts.
Part 1 reviews the fundamental aspects of surface modification of magnesium, including surface design, opportunities, challenges and its role in revolutionizing biodegradable biomaterials.
Part 2 addresses the biological and mechanical properties covering an in vivo approach to the bioabsorbable behavior of magnesium alloys, mechanical integrity and, the effects of amino acids and proteins on the performance of surface modified magnesium.
Part 3 delves in to testing and characterization, exploring the biocompatibility and effects on fatigue life alongside the primary characteristics of surface modified magnesium.
All chapters are written by experts, this two volume series provides systematic and thorough coverage of all major modification technologies and coating types of magnesium and its alloys for biomedical applications.
Part 1 Significance of magnesium and its alloys for biomedical applications
Part 2 Chemical modifications of magnesium and its alloys for biomedical applications
Part 3 Electromechanical modifications of magnesium and its alloys for biomedical applications
Materials/metals scientists and R&D companies concerned with metallic medical implants in fields such as dentistry, orthopaedics and cardiology.
Il Song Park works for the Chonbuk National University, Republic of Korea and is affiliated to the Division of Advanced Materials Engineering and Institute of Biodegradable Materials.
Min Ho Lee works for the Chonbuk National University, Republic of Korea and is associated with the Department of Dental Biomaterials and Institute of Biodegradable Materials, Institute of Oral Bioscience and BK21 Plus Project, School of Dentistry.
- Expert analysis of the fundamentals in surface modification of magnesium and its alloys for biomedical applications
- Includes biological interactions and mechanical properties
- Focuses on testing and characterisation, as well as biocompatibility
Date de parution : 01-2015
Ouvrage de 380 p.
15x22.8 cm
Thèmes de Surface Modification of Magnesium and its Alloys for... :
Mots-clés :
μ-Computed tomography; Amino acids; Biocompatibility; Biocompatibility testing of magnesium alloys; Biodegradable magnesium; Biodegradable magnesium implants; Biodegradation; Biomaterials; Biomimetic; Buffer; Characterization; Coating; Coatings; Coronary angiography; Corrosion; Corrosion fatigue; Degradable biomaterials; Dynamic interface; Electrochemical impedance spectroscopy; Energy dispersive X-ray (EDX) analysis; Fatigue; Florescent microscopy; Fractography; Galvanic corrosion; High-purity Mg; Histology; Histomorphometry; Hydrogen evolution method; Implant; Implantation and degradation related; In vitro; In vitro and in vivo testing; In vivo; Intravascular ultrasound (IVUS); ISO 10993; Magnesium; Magnesium alloys; Marketing authorization; Mechanical properties; Mg corrosion; Mg-Fe phase diagram; Microdialysis; Optical coherence tomography (OCT); Plug-in specimen; Polarization; Proteins; Scanning electron microscopy (SEM); Standards; Stress corrosion cracking; Surface design; Surface modification; Surface treatments; Tafel extrapolation; Temporary implants; Temporary surface; Three- and four-point bending tests; Tolerance level; Ultra-pure Mg; Volumetry; Weight loss