Add to ORKGCalcium phosphates (CaP) have excellent biomaterial properties due to their similarity to the inorganic component of the bone matrix. However, CaP clinical application is restricted due to their inherent brittleness and poor shepe ability. To capitalize the advantage of CaP and overcome some drawbacks, CaP is combined with polylactic acid to generate highly porous biocomposite materials. polylactic acid has good mechanical properties and low toxicity
INTRODUCTION: Calcium phosphates (CaP) are being increasingly used as bone substitutes in orthopaedi...
Synthetic bone graft substitutes based on composites consisting of a polymer and a calcium-phosphate...
A short review is proposed on the existing literature for the research performed in calcium phosphat...
Bioresorbable materials are promising candidates in the field of bone regeneration. Hydroxyapatite (...
Calcium phosphates (CaP) have excellent biomaterial properties and are widely applied for bone regen...
Calcium phosphates (CaP) have excellent biomaterial properties due to their similarity to the inorga...
Biocompatible ceramics are extremely important in bioengineering, and very useful in many biomedical...
Calcium phosphates (CaPs), extensively used synthetic bone graft substitutes, are often combined wit...
Synthetic calcium phosphate (CaP) ceramics represent the most widely used biomaterials for bone rege...
Natural bone is a complex composite, mainly constituted of biological apatite and molecules of colla...
Previous studies demonstrated that the addition of biodegradable polymer microparticles to calcium p...
[[abstract]]The goal of this research is to improve the mechanical and biological properties of wide...
Our populations are aging. Some experts predict that 30% of hospital beds will soon be occupied by o...
Calcium phosphates (CaPs) are widely accepted biomaterials able to promote the regeneration of bone ...
Calcium phosphate (CaP) bioceramics are widely used in the field of bone regeneration, both in ortho...
INTRODUCTION: Calcium phosphates (CaP) are being increasingly used as bone substitutes in orthopaedi...
Synthetic bone graft substitutes based on composites consisting of a polymer and a calcium-phosphate...
A short review is proposed on the existing literature for the research performed in calcium phosphat...
Bioresorbable materials are promising candidates in the field of bone regeneration. Hydroxyapatite (...
Calcium phosphates (CaP) have excellent biomaterial properties and are widely applied for bone regen...
Calcium phosphates (CaP) have excellent biomaterial properties due to their similarity to the inorga...
Biocompatible ceramics are extremely important in bioengineering, and very useful in many biomedical...
Calcium phosphates (CaPs), extensively used synthetic bone graft substitutes, are often combined wit...
Synthetic calcium phosphate (CaP) ceramics represent the most widely used biomaterials for bone rege...
Natural bone is a complex composite, mainly constituted of biological apatite and molecules of colla...
Previous studies demonstrated that the addition of biodegradable polymer microparticles to calcium p...
[[abstract]]The goal of this research is to improve the mechanical and biological properties of wide...
Our populations are aging. Some experts predict that 30% of hospital beds will soon be occupied by o...
Calcium phosphates (CaPs) are widely accepted biomaterials able to promote the regeneration of bone ...
Calcium phosphate (CaP) bioceramics are widely used in the field of bone regeneration, both in ortho...
INTRODUCTION: Calcium phosphates (CaP) are being increasingly used as bone substitutes in orthopaedi...
Synthetic bone graft substitutes based on composites consisting of a polymer and a calcium-phosphate...
A short review is proposed on the existing literature for the research performed in calcium phosphat...