Litcius/Paper detail

Porous polylactic acid scaffolds for bone regeneration: A study of additively manufactured triply periodic minimal surfaces and their osteogenic potential

Anna Díez-Escudero, Hugo Harlin, Per Isaksson, Cecilia Persson

2020Journal of Tissue Engineering66 citationsDOIOpen Access PDF

Abstract

Three different triply periodic minimal surfaces (TPMS) with three levels of porosity within those of cancellous bone were investigated as potential bone scaffolds. TPMS have emerged as potential designs to resemble the complex mechanical and mass transport properties of bone. Diamond, Schwarz, and Gyroid structures were 3D printed in polylactic acid, a resorbable medical grade material. The 3D printed structures were investigated for printing feasibility, and assessed by morphometric studies. Mechanical properties and permeability investigations resulted in similar values to cancellous bone. The morphometric analyses showed three different patterns of pore distribution: mono-, bi-, and multimodal pores. Subsequently, biological activity investigated with pre-osteoblastic cell lines showed no signs of cytotoxicity, and the scaffolds supported cell proliferation up to 3 weeks. Cell differentiation investigated by alkaline phosphatase showed an improvement for higher porosities and multimodal pore distributions, suggesting a higher dependency on pore distribution and size than the level of interconnectivity.

Topics & Concepts

Polylactic acidGyroidInterconnectivityCancellous bonePorosityMaterials scienceAlkaline phosphatasePermeability (electromagnetism)Biomedical engineeringChemistryBiophysicsAnatomyComposite materialMembraneBiochemistryPolymerEnzymeMedicineArtificial intelligenceCopolymerBiologyComputer scienceBone Tissue Engineering MaterialsOrthopaedic implants and arthroplastyDental Implant Techniques and Outcomes