论文信息 - Design, Fabrication and Initial Evaluation of a Novel Hybrid System for Tissue Engineering Applications

Design, Fabrication and Initial Evaluation of a Novel Hybrid System for Tissue Engineering Applications

Abstract A novel hybrid biomanufacturing system, called Plasma-assisted Bioextrusion System (PABS), has been developed to produce multi-material and functional graded scaffolds for tissue engineering applications. It combines pressure-assisted extrusion heads, screw-assisted extrusion heads and plasma jets, allowing surface of printed scaffolds matching the characteristics of the surrounding tissue. This paper explores this system to produce PCL and PCL/CNT scaffolds for bone applications. Processing conditions were optimized in terms of deposition velocity, screw rotational velocity and the effect of these parameters on the morphological and mechanical properties of produced scaffolds assessed.

[1] Pietro Favia,et al. Plasma Processing of Scaffolds for Tissue Engineering and Regenerative Medicine , 2015, Plasma Chemistry and Plasma Processing.

[2] Michael Keidar,et al. Cold atmospheric plasma (CAP) surface nanomodified 3D printed polylactic acid (PLA) scaffolds for bone regeneration. , 2016, Acta biomaterialia.

[3] Yingkuan Wang,et al. Non-thermal plasma assisted polymer surface modification and synthesis: A review , 2014 .

[4] J A Burdick,et al. Recent advances in hydrogels for cartilage tissue engineering. , 2017, European cells & materials.

[5] E. J. Foster,et al. Directed cell growth in multi-zonal scaffolds for cartilage tissue engineering. , 2016, Biomaterials.

[6] P. Bártolo,et al. Bone Tissue Engineering: 3D PCL-based Nanocomposite Scaffolds with Tailored Properties , 2016 .

[7] Rosa Akbarzadeh,et al. Prospect of Stem Cells in Bone Tissue Engineering: A Review , 2016, Stem cells international.

[8] Jayadurga Iyer Ganapathi,et al. Distributive mixing of carbon nanotubes in poly(caprolactone) via solution and melt processing: Viscoelasticity and crystallization behavior versus mixing indices , 2016 .

[9] J. Ciurana,et al. Biomedical production of implants by additive electro-chemical and physical processes , 2012 .

[10] Pietro Favia,et al. Improved osteoblast cell affinity on plasma-modified 3-D extruded PCL scaffolds. , 2013, Acta biomaterialia.