Ειδοποίηση Μελετητή:[ intitle:Bioprinting ]
[HTML] Handheld Co-Axial Bioprinting: Application to in situ surgical cartilage repair
S Duchi, C Onofrillo, CD O'Connell, R Blanchard… - Scientific Reports, 2017
Abstract Three-dimensional (3D) bioprinting is driving major innovations in the area of
cartilage tissue engineering. Extrusion-based 3D bioprinting necessitates a phase change
from a liquid bioink to a semi-solid crosslinked network achieved by a photo-initiated free
cartilage tissue engineering. Extrusion-based 3D bioprinting necessitates a phase change
from a liquid bioink to a semi-solid crosslinked network achieved by a photo-initiated free
Bioprinting pattern-dependent electrical/mechanical behavior of cardiac alginate implants: characterization and ex-vivo phase-contrast microtomography assessment
M Izadifar, P Babyn, ME Kelly, D Chapman, X Chen - Tissue Engineering, 2017
Three-dimensional (3D)-bioprinting techniques may be used to modulate
electrical/mechanical properties and porosity of hydrogel constructs for fabrication of
suitable cardiac implants. Notably, characterization of these properties after implantation
electrical/mechanical properties and porosity of hydrogel constructs for fabrication of
suitable cardiac implants. Notably, characterization of these properties after implantation
Mechanically Tunable Bioink for 3D Bioprinting of Human Cells
A Forget, A Blaeser, F Miessmer, M Köpf, DFD Campos… - Advanced Healthcare …, 2017
Abstract This study introduces a thermogelling bioink based on carboxylated agarose (CA)
for bioprinting of mechanically defined microenvironments mimicking natural tissues. In CA
system, by adjusting the degree of carboxylation, the elastic modulus of printed gels can be
for bioprinting of mechanically defined microenvironments mimicking natural tissues. In CA
system, by adjusting the degree of carboxylation, the elastic modulus of printed gels can be
[HTML] 3D Printing and Bioprinting in MEMS Technology
CK Chua, WY Yeong, J An - 2017
Abstract: 3D printing and bioprinting have advanced significantly in printing resolution in
recent years, which presents a great potential for fabricating small and complex features
suitable for microelectromechanical systems (MEMS) with new functionalities. This special
recent years, which presents a great potential for fabricating small and complex features
suitable for microelectromechanical systems (MEMS) with new functionalities. This special
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