Add to ORKGPorous TiO2 ceramic has attracted considerable research interest as a scaffold material for bone tissue engineering. However, no special considerations are given to the in vitro bioactivity of highly porous TiO2 ceramic scaffolds and they are assumed as bioinert ceramic. The main goal of the present work was to fabricate novel highly porous and bioactive TiO2 ceramic scaffolds with interconnected pore structure for bone tissue engineering. TiO2 ceramic scaffolds with pore size in the range from 300-700 μm and porosity >90% were produced via polymer foam replica method. Scaffolds were coated with TiO2 nanopowder and the effect of TiO2 nanopowder coating on in vitro bioactivity in simulated body fluid was studied. Uncoated TiO2 scaffolds show...
The present focus is on the synthesis of highly effective, porous, biocompatible, and inert scaffold...
A nano-TiO2/hydroxyapatite composite bioceramic coating was developed and applied to the surfaces of...
TiO2 scaffolds have previously shown to have promising osteoconductive properties in previous in viv...
Biocompatible ceramics have recently attracted increasing attention as porous scaffolds that stimula...
Scaffolds used for bone tissue regeneration should provide void volume for new tissue formation and ...
Biocompatible ceramics have recently attracted increasing attention as porous scaffolds that stimula...
The work is focused on the preparation of novel tissue engineering scaffolds with suitable initial m...
The development of scaffolds for replacement of injured and diseased hard tissues such as bones is h...
Titanium dioxide (TiO2) is a biocompatible material with good osteoconductive properties. It has bee...
The main reasons for using bone scaffolds are to provide an environment for bone formation, maintain...
The need for a better scaffold to treat large bone-defects resulting from skeletal conditions still ...
The need for a better scaffold to treat large bone-defects resulting from skeletal conditions still ...
The need for a better scaffold to treat large bone-defects resulting from skeletal conditions still ...
Bone regeneration and bone ingrowth has been a forefront issue in tissue engineering. Many studies a...
A requested goal for bioactive implants is the production of a bone filling biomaterial with the ap...
The present focus is on the synthesis of highly effective, porous, biocompatible, and inert scaffold...
A nano-TiO2/hydroxyapatite composite bioceramic coating was developed and applied to the surfaces of...
TiO2 scaffolds have previously shown to have promising osteoconductive properties in previous in viv...
Biocompatible ceramics have recently attracted increasing attention as porous scaffolds that stimula...
Scaffolds used for bone tissue regeneration should provide void volume for new tissue formation and ...
Biocompatible ceramics have recently attracted increasing attention as porous scaffolds that stimula...
The work is focused on the preparation of novel tissue engineering scaffolds with suitable initial m...
The development of scaffolds for replacement of injured and diseased hard tissues such as bones is h...
Titanium dioxide (TiO2) is a biocompatible material with good osteoconductive properties. It has bee...
The main reasons for using bone scaffolds are to provide an environment for bone formation, maintain...
The need for a better scaffold to treat large bone-defects resulting from skeletal conditions still ...
The need for a better scaffold to treat large bone-defects resulting from skeletal conditions still ...
The need for a better scaffold to treat large bone-defects resulting from skeletal conditions still ...
Bone regeneration and bone ingrowth has been a forefront issue in tissue engineering. Many studies a...
A requested goal for bioactive implants is the production of a bone filling biomaterial with the ap...
The present focus is on the synthesis of highly effective, porous, biocompatible, and inert scaffold...
A nano-TiO2/hydroxyapatite composite bioceramic coating was developed and applied to the surfaces of...
TiO2 scaffolds have previously shown to have promising osteoconductive properties in previous in viv...