Biomaterials and interface with bone

In order to understand how biomaterials influence bone formation in vivo, it i s necessary to examine cellular response to materials in the context of wound healing. Four interrelated properties of biomaterials (chemical composition, surface energy, surface roughness, and surface topography) affect

A relatively simple scanning acoustic microscope (SAM) that operates in the reflection mode has been constructed. The system uses a 20 MHz spherically focused transducer, acting both as transmitter and as detector, to obtain acoustic impedance information on a thin surface layer at a maximum resolut

Several months ago, the Editor of Macromolecular Bioscience -Dr. Mara Staffilani -asked me to propose a theme for a special issue generally devoted to some medical applications of macromolecules. Although very large, I personally found this theme fascinating. We, therefore, decided to focus on macro

## Abstract The possibility of evaluating the elastic moduli of the bone‐porous biomaterial interface by treating it as a two‐phase composite is discussed. Methods of placing bounds on the elastic moduli of such a composite are presented and applied to five materials currently being considered for