It is an urgent need that defect repair can develop from simple device fixation to living tissue
reconstruction, from short life function replacement to permanent regeneration repair. At …

Bone tissue engineering (BTE) is a rapidly growing field aiming to create a biofunctional
tissue that can integrate and degrade in vivo to treat diseased or damaged tissue. It has …

The incorporation of hydroxyapatite (HAP) into poly-l-lactic acid (PLLA) matrix serving as
bone scaffold is expected to exhibit bioactivity and osteoconductivity to those of the living …

Bone defects stand out as one of the greatest challenges of reconstructive surgery. Fused
deposition modelling (FDM) allows for the printing of 3D scaffolds tailored to the morphology …

Advances in biomaterials and the need for patient-specific bone scaffolds require modern
manufacturing approaches in addition to a design strategy. Hybrid materials such as those …

Fabrication and finite element simulation of 3D printed poly L-lactic acid scaffolds coated with
alginate/carbon nanotubes for bone engineering applications - ScienceDirect Skip to main …

Background It is known that a number of parameters can influence the post-printing
properties of bone tissue scaffolds. Previous research has primarily focused on the effect of …

As an emerging science, tissue engineering and regenerative medicine focus on developing
materials to replace, restore or improve organs or tissues and enhancing the cellular …

Research in cell biology greatly relies on cell-based in vitro assays and models that facilitate
the investigation and understanding of specific biological events and processes under …

A growing interest in creating advanced biomaterials with specific physical and chemical
properties is currently being observed. These high-standard materials must be capable to …