The interaction of calcium phosphates with biological molecules under controlled conditions permits the formulation of meaningful conclusions concerning the driving forces. The uptake and release at the material-solution interface is the result of the various interactions between and within the system components which include the solid surface, the adsorbate, the solvent and other solutes present. The understanding of adsorption and desorption mechanisms with respect to active molecules can be exploited for the development of drug delivery applications
The purpose of this study was to identify and investigate novel layered materials with potential as ...
The kinetics of calcium phosphate crystal growth at the surfaces of proteins and phospholipids has b...
Nano-structured calcium silicate (NCS), a highly porous material synthesized by controlledprecipitat...
The adsorptive properties of synthetic calcium phosphates analogous to bone mineral were examined wi...
Interfacial properties of apatitic calcium phosphate play a crucial role in calcified tissues and bi...
Bisphosphonates (BPs) are well established as an important class of drugs for the treatment and prev...
Biomimetic calcium phosphate apatites are particularly adapted to bio-medical applications due to th...
Calcium phosphate is attracting attention as a bone repair material and a controlled-release carrier...
The surface activation of calcium phosphate-based biomaterials for bone repair is an emerging route ...
The formation of calcium phosphate (Ca-P) precipitates in a simulated physiological environment and ...
There is a growing interest in bone tissue engineering for bone repair after traumatic, surgical or ...
An in vitro rat bone marrow cell system was used to examine the interfacial ultrastructure establish...
Nucleation and biomineralization of apatite on titanium-based material surfaces is crucial to improv...
The mineral fractions of bones and teeth are non-stoichiometric apatite crystals. Their morphology, ...
Bisphosphonates (BPs) are well established as successful antiresorptive agents for the prevention an...
The purpose of this study was to identify and investigate novel layered materials with potential as ...
The kinetics of calcium phosphate crystal growth at the surfaces of proteins and phospholipids has b...
Nano-structured calcium silicate (NCS), a highly porous material synthesized by controlledprecipitat...
The adsorptive properties of synthetic calcium phosphates analogous to bone mineral were examined wi...
Interfacial properties of apatitic calcium phosphate play a crucial role in calcified tissues and bi...
Bisphosphonates (BPs) are well established as an important class of drugs for the treatment and prev...
Biomimetic calcium phosphate apatites are particularly adapted to bio-medical applications due to th...
Calcium phosphate is attracting attention as a bone repair material and a controlled-release carrier...
The surface activation of calcium phosphate-based biomaterials for bone repair is an emerging route ...
The formation of calcium phosphate (Ca-P) precipitates in a simulated physiological environment and ...
There is a growing interest in bone tissue engineering for bone repair after traumatic, surgical or ...
An in vitro rat bone marrow cell system was used to examine the interfacial ultrastructure establish...
Nucleation and biomineralization of apatite on titanium-based material surfaces is crucial to improv...
The mineral fractions of bones and teeth are non-stoichiometric apatite crystals. Their morphology, ...
Bisphosphonates (BPs) are well established as successful antiresorptive agents for the prevention an...
The purpose of this study was to identify and investigate novel layered materials with potential as ...
The kinetics of calcium phosphate crystal growth at the surfaces of proteins and phospholipids has b...
Nano-structured calcium silicate (NCS), a highly porous material synthesized by controlledprecipitat...