- ホーム
- > 洋書
- > 英文書
- > Science / Mathematics
Full Description
This book highlights most advanced 3D printing techniques used for the manufacture of Bio-implants in regenerative medicine, the same behaviour these printed scaffolds have when they are biologically tested. For achieving scaffolds that can substitute the damaged tissue in order to heal the lesion and regenerate it at a speed compatible with the growth of the natural tissue, optimal 3D printing manufacturing parameters should be used and are described here. The combination of specific polymeric materials with metallic nanoparticles in the optimal concentrations are crucial to control scaffold mechanical properties. Material characterization and analytical techniques that allow studying these mechanical and biological properties are summarized too. A review of today and near future bio-implants that revolutionize surgery and regenerative medicine is presented.
Contents
Regenerative medicine today.- Novel 3D printing techniques of metal-polymer composites.- What is a scaffold? Bio-scaffolds for bio-implants.- Design and simulation of scaffolds: Review of the materials used.- Characterization techniques to evaluate the structural and mechanical properties of the scaffold.- The manufacture of the bio-scaffold.- Characterization techniques to study scaffolds bio-compatibility and degradation time in simulated body (phosphate) fluid solutions.-Future of bioimplants.
