3D Printing of Biocompatible Acellular Auricular Implant Using Dual Scaled Hydrid Technology Combining Fused Deposition Modeling with Electrospinning
Biofabrication 2013: Abstracts
2013
Rodrigo Rezenda,
Marcos Sabado,
Vladimirs Kasjanovs,
Leandra Baptista,
Karina da Silva,
Pedro Noritomi,
Frederico Sena,
Xuejun Wen,
Jorge da Silva,
Vladimir Mironov
The dual-scaled hydrid scaffold fabrication
technology based on combination of 3D printing
(fused deposition modeling) and electrospining have
been recently introduced. We report here the design,
fabrication, mechanical testing, in vitro and in vivo
biocompatibility testing of novel auricular implants
for treatment microtia fabricated by dual scaled
hydbrid scaffold fabrication technology.
Atslēgas vārdi
3D printing, tissue engineering, hydrid scaffold, mechanical testing
Rezenda, R., Sabado, M., Kasjanovs, V., Baptista, L., da Silva, K., Noritomi, P., Sena, F., Wen, X., da Silva, J., Mironov, V. 3D Printing of Biocompatible Acellular Auricular Implant Using Dual Scaled Hydrid Technology Combining Fused Deposition Modeling with Electrospinning. No: Biofabrication 2013: Abstracts, Amerikas savienotās valstis, El Paso, 3.-6. novembris, 2013. El Paso: 2013, 28.-28.lpp.
Publikācijas valoda
English (en)