Litcius/Paper detail

A filament 3D printing approach for CT-compatible bone tissues replication

Nikiforos Okkalidis, Kristina Bliznakova, Nikola Kolev

2022Physica Medica23 citationsDOIOpen Access PDF

Abstract

PURPOSE: The aim of this study is the development of a methodology for manufacturing 3D printed anthropomorphic structures, which mimic the X-ray properties of the human bone tissue. METHODS: A mixing approach of two different materials is proposed for the fabrication of a radiologically equivalent hip bone for an anthropomorphic abdominal phantom. The materials employed for the phantom were polylactic acid (PLA) and Stonefil, while a custom-made dual motor filament extrusion setup and a custom-made software associating medical images directly with the 3D printing process were employed. RESULTS: Three phantoms representing the hip bone were 3D printed utilizing two filaments under three different printing scenarios. The phantoms are based on a patient's abdominal CT scan images. Histograms of CT scans of the printed hip bone phantoms were calculated and compared to the original patient's hip bone histogram, demonstrating that a constant mixing composition of 30% Stonefil and 70% PLA with 0.0375 extrusion rate per voxel (93.75% flow for fulfilling a single voxel) for the cancellous bone, and using 100% Stonefil with 0.04 extrusion rate per voxel (100% flow) for the cortical bone results in a realistic anatomy replication of the hip bone. Reproduced HU varied between 700 and 800, which are close to those of the hip bone. CONCLUSIONS: The study demonstrated that it is possible to mix two different filaments in real-time during the printing process to obtain phantoms with realistic and radiographically bone tissue equivalent attenuation. The results will be explored for manufacturing a CT-compatible abdominal phantom.

Topics & Concepts

Imaging phantom3D printingExtrusionMaterials scienceVoxelBiomedical engineeringFused filament fabrication3d printedCortical boneHounsfield scaleCancellous boneNuclear medicineAnatomyComputed tomographyMedicineRadiologyComposite materialAnatomy and Medical TechnologyOrthopaedic implants and arthroplastyAdvanced X-ray and CT Imaging