Effects of additives on the rheological properties and injectability of a calcium phosphate bone substitute material

## Abstract Anti‐washout‐type calcium phosphate cement (aw‐CPC) was prepared by introducing chitosan, sodium alginate, or modified starch into the powder phase of CPC, respectively. The results showed that these cements cannot be washed out and set within approximately 10–30 min even if the pastes

## Abstract Six different tetracalcium phosphate (TTCP) products were synthesized by solid state reaction at high temperature by varying the overall calcium to phosphate ratio of the synthesis mixture. The objective was to evaluate the effect of the calcium to phosphate ratio on a TTCP‐dicalcium ph

## Abstract Injecting acrylic and, increasingly, calcium‐phosphate cements into the porous bone structure is an emerging procedure, referred to as vertebroplasty, for the augmentation of osteoporotic vertebrae. Despite the benefits of vertebroplasty, it has limitations. The limitations of interest

## Abstract The use of biodegradable bone substitutes is advantageous for alveolar ridge augmentation because it avoids second‐site surgery for autograft harvesting. This study examines the effect of novel, rapidly resorbable calcium phosphates and a calcium phosphate bone cement on the expression

## Abstract This study was designed to test the hypothesis that the mechanical properties of a trabecular bone substitute can be enhanced through __in vitro__ tissue formation. Our specific objectives were to (1) determine the effects of __in vitro__ marrow stromal cell‐mediated tissue deposition u

This study investigated the in vivo performance of two composite injectable bone substitutes (IBS), each with different calcium-phosphate particles granulometries [40-80 (IBS 40-80) and 200-500 m (IBS 200-500)]. These biomaterials were obtained by associating a biphasic calciumphosphate (BCP) cerami