Research Article
BibTex RIS Cite
Year 2016, , 52 - 56, 01.12.2016
https://doi.org/10.18100/ijamec.264681

Abstract

References

  • Murphy S. V. and Atala A. 3D bioprinting of tissues and organs, Nature biotechnology, Vol. 32, pp. 773-785.
  • Hutchings I. M. and Martin G. D. Inkjet technology for digital fabrication. Chichester: Wiley, 2013.
  • Aydın L., Küçük S., and Kenar H. Design and construction of a 3d bioprinter for bioprinting of tissues and organs, Proceedings on the Tıp Tekno 15, 2015, pp. 153-157.
  • Chen H. and Özbolat İ. A multi-material bioprinting platform towards stratified articular cartilage tissue fabrication, Proceedings on the IIE Annual Conference, 2013, pp. 2246-2252.
  • Panwar A. and Tan L. P. Current Status of Bioinks for Micro-Extrusion-Based 3D Bioprinting, Molecules, 2016, 21.6: 685.
  • Aydın L. Design and construction of ankle foot orthosis by means of three dimensional printers, M.S. thesis, Dept. Biomed. Eng., Kocaeli Univ., Kocaeli, Turkey, 2014.
  • Akashi M., Akagi T. and Matsusaki M. Engineered Cell Manipulation for Biomedical Application, Springer Japan, 2014.
  • Visscher D.O., et al. Advances in Bioprinting Technologies for Craniofacial Reconstruction, Trends in biotechnology, 2016.
  • Obregon F., et al. Three-dimensional bioprinting for regenerative dentistry and craniofacial tissue engineering, Journal of Dental Research, 2015.
  • Ozbolat I. T. and Hospodiuk M. Current advances and future perspectives in extrusion-based bioprinting, Biomaterials, Vol. 76, pp. 321-343.
  • Blaeser A., et al. Controlling shear stress in 3D bioprinting is a key factor to balance printing resolution and stem cell integrity, Advanced healthcare materials, Vol. 5(3), pp. 326-333.
  • Ferris C. J., Gilmore K. G. and Wallace G. G. Biofabrication: an overview of the approaches used for printing of living cells, Applied microbiology and biotechnology, Vol. 97(10), pp. 4243-4258.
  • Aydın L. and Kenar H. Design and construction of a compact micro-extrusion module for bio-printing, TPE 2016/07571, June. 06, 2016.

Design and Construction of a Novel Micro-Extrusion System for Bio-printing Applications

Year 2016, , 52 - 56, 01.12.2016
https://doi.org/10.18100/ijamec.264681

Abstract

Three-dimensional (3d) bio-printing is one of
the major research fields of future, as yet at the beginning stage but
producing promising solutions in medicine. As technology evolves, novel systems
emerge for positioning even a single cell to the desired place to create
functional tissues. The precision of these systems determine the functionality
of outputs. In general, bio-printers use Ink-jet, Micro-extrusion and Laser
Assisted printing methods to construct a solid tissue or a part of an organ.
Ink-jet method, also known as drop-on-demand bio-printing approach, is based on
spraying cells by means of thermal or piezo electric pulses from numerous
nozzles and is commonly used when forming tissues like skin and cartilage.
Micro-extrusion method is used when complex biological structures like blood
vessels or solid organs are bio-printed. Laser Assisted method is more
preferred for biomaterial or implant production. Components of these systems
have direct effects on the output since they determine where and how much
biological material will be deposited in every layer. The aim of this study is
to design and construct a novel micro-extrusion module for bio-printing
applications. The designed module consists of three-dimensional (3d) printed
body parts from Polylactic acid (PLA), Nema type stepper motors, ball screws
(SFU1204), ball screw nuts (M12), flexible couplings (5 x 8 x 25 mm), steel
rods (M8), SCE UU series bearings (SCE 8 UU), UFL series bearings (UFL 08), LMEF
series bearings (LMEF 8 UU), SK series rod holders (SK 08) and has an ability
to control three commercially available syringes with blunt ended needles. For
precise micro-extrusion, galvanized steel rods support ball screw driven linear
motions. Ergonomically, syringes can be easily mount and locked and this system
also has laser holders that can be used for targeted photo polymerization.

References

  • Murphy S. V. and Atala A. 3D bioprinting of tissues and organs, Nature biotechnology, Vol. 32, pp. 773-785.
  • Hutchings I. M. and Martin G. D. Inkjet technology for digital fabrication. Chichester: Wiley, 2013.
  • Aydın L., Küçük S., and Kenar H. Design and construction of a 3d bioprinter for bioprinting of tissues and organs, Proceedings on the Tıp Tekno 15, 2015, pp. 153-157.
  • Chen H. and Özbolat İ. A multi-material bioprinting platform towards stratified articular cartilage tissue fabrication, Proceedings on the IIE Annual Conference, 2013, pp. 2246-2252.
  • Panwar A. and Tan L. P. Current Status of Bioinks for Micro-Extrusion-Based 3D Bioprinting, Molecules, 2016, 21.6: 685.
  • Aydın L. Design and construction of ankle foot orthosis by means of three dimensional printers, M.S. thesis, Dept. Biomed. Eng., Kocaeli Univ., Kocaeli, Turkey, 2014.
  • Akashi M., Akagi T. and Matsusaki M. Engineered Cell Manipulation for Biomedical Application, Springer Japan, 2014.
  • Visscher D.O., et al. Advances in Bioprinting Technologies for Craniofacial Reconstruction, Trends in biotechnology, 2016.
  • Obregon F., et al. Three-dimensional bioprinting for regenerative dentistry and craniofacial tissue engineering, Journal of Dental Research, 2015.
  • Ozbolat I. T. and Hospodiuk M. Current advances and future perspectives in extrusion-based bioprinting, Biomaterials, Vol. 76, pp. 321-343.
  • Blaeser A., et al. Controlling shear stress in 3D bioprinting is a key factor to balance printing resolution and stem cell integrity, Advanced healthcare materials, Vol. 5(3), pp. 326-333.
  • Ferris C. J., Gilmore K. G. and Wallace G. G. Biofabrication: an overview of the approaches used for printing of living cells, Applied microbiology and biotechnology, Vol. 97(10), pp. 4243-4258.
  • Aydın L. and Kenar H. Design and construction of a compact micro-extrusion module for bio-printing, TPE 2016/07571, June. 06, 2016.
There are 13 citations in total.

Details

Subjects Engineering
Journal Section Research Article
Authors

Levent Aydın

Assoc. Prof. Serdar Küçük

Assoc. Prof. Halime Kenar This is me

Publication Date December 1, 2016
Published in Issue Year 2016

Cite

APA Aydın, L., Küçük, A. P. S., & Kenar, A. P. H. (2016). Design and Construction of a Novel Micro-Extrusion System for Bio-printing Applications. International Journal of Applied Mathematics Electronics and Computers(Special Issue-1), 52-56. https://doi.org/10.18100/ijamec.264681
AMA Aydın L, Küçük APS, Kenar APH. Design and Construction of a Novel Micro-Extrusion System for Bio-printing Applications. International Journal of Applied Mathematics Electronics and Computers. December 2016;(Special Issue-1):52-56. doi:10.18100/ijamec.264681
Chicago Aydın, Levent, Assoc. Prof. Serdar Küçük, and Assoc. Prof. Halime Kenar. “Design and Construction of a Novel Micro-Extrusion System for Bio-Printing Applications”. International Journal of Applied Mathematics Electronics and Computers, no. Special Issue-1 (December 2016): 52-56. https://doi.org/10.18100/ijamec.264681.
EndNote Aydın L, Küçük APS, Kenar APH (December 1, 2016) Design and Construction of a Novel Micro-Extrusion System for Bio-printing Applications. International Journal of Applied Mathematics Electronics and Computers Special Issue-1 52–56.
IEEE L. Aydın, A. P. S. Küçük, and A. P. H. Kenar, “Design and Construction of a Novel Micro-Extrusion System for Bio-printing Applications”, International Journal of Applied Mathematics Electronics and Computers, no. Special Issue-1, pp. 52–56, December 2016, doi: 10.18100/ijamec.264681.
ISNAD Aydın, Levent et al. “Design and Construction of a Novel Micro-Extrusion System for Bio-Printing Applications”. International Journal of Applied Mathematics Electronics and Computers Special Issue-1 (December 2016), 52-56. https://doi.org/10.18100/ijamec.264681.
JAMA Aydın L, Küçük APS, Kenar APH. Design and Construction of a Novel Micro-Extrusion System for Bio-printing Applications. International Journal of Applied Mathematics Electronics and Computers. 2016;:52–56.
MLA Aydın, Levent et al. “Design and Construction of a Novel Micro-Extrusion System for Bio-Printing Applications”. International Journal of Applied Mathematics Electronics and Computers, no. Special Issue-1, 2016, pp. 52-56, doi:10.18100/ijamec.264681.
Vancouver Aydın L, Küçük APS, Kenar APH. Design and Construction of a Novel Micro-Extrusion System for Bio-printing Applications. International Journal of Applied Mathematics Electronics and Computers. 2016(Special Issue-1):52-6.