In vitro assessment of bone-substitute materials

Three molecular orientation technologiesÈhydrostatic extrusion, Ðbre drawing and Ðbre compactionÈhave been used to produce a range of hydroxyapatite/polyethylene (HA/PE) bone substitute composites with sti †nesses in the range of 10 GPa to 20 GPa and strengths of up to 110 MPa, matching the mechanic

## Abstract The biocompatibility of natural samarium (III) oxide, which has previously been used for treatment in bone‐related diseases was determined as a first step in its evaluation as a bone implant material. Assessment for 28 days using osteoblast‐like cells revealed no indications of cytotoxi

## Abstract A continuous preparation method for nanoscopic calcium phosphate ceramics is presented. The influence of processing parameters (temperature, time) on the properties of calcium phosphates was studied. Crystallinity, structure, and morphology are important for an application as biodegrada

Background: Pyrost bone substitute has been shown to be a promising orthopedic biomaterial. However, little is known about mechanisms that are responsible for the genesis and development of the bond between bone and the Pyrost bone substitute. The purpose of this study is to elucidate the in vitro c

## Abstract Ideally, bioactive ceramics for use in alveolar ridge augmentation should possess the ability to activate bone formation and, thus, cause the differentiation of osteoprogenitor cells into osteoblasts at their surfaces. Therefore, in order to evaluate the osteogenic potential of novel bo