The purpose of this two-year study was to evaluate the histocompatibility and osteogenic
properties of a composite material consisting of poly (l-co-d, l lactide)(PLDLA) and silica …

The present study aimed to evaluate the mechanical and degradative properties of poly (L-
co-D, L-lactic acid)/silicate bioactive glass fibers (PLDLA/SGFs) composite pins in vivo. Both …

Developing materials combining the advantages of synthetic polymers and bioactive glass
nanoparticles can provide an efficient bone engineering scaffold. In this study, sol–gel …

Biodegradable and biocompatible materials are the basis for medical application. As an
initial step for developing bone internal fixation materials, the biological evaluation of poly-l …

This study aimed to investigate the interaction between fibroblastic cells and poly-L-lactide
(PLLA) composite film containing bovine bone. The effects of PLLA/bovine bone on cell …

In this study, diopside coated Poly-L-lactic acid-based (PLLA/Diopside) and Poly-L-lactic
acid along with pluronic acid (PLLA-P123/Diopside) scaffolds were fabricated by …

This paper reports an evaluation of the structure, the flexural and viscoelastic properties, and
the cytotoxicity of scaffolds produced from PLDLA and bioglass (BG) by selective laser …

Poly (lactic acid) is nowadays among the most used bioabsorbable materials for medical
devices. To promote bone growth on the material surface and increase the degradation rate …

Poly-L-lactide (PLLA) has been applied to bone replacement materials due to its good
biocompatibility and biodegradability However, its lack of bioactivity and the release of …

Novel bioactive glass (BG) nanoparticles/poly (l-lactide)(PLLA) composites were prepared
as promising bone-repairing materials. The BG nanoparticles (Si: P: Ca= 29: 13: 58 weight …