Page 19 - IJB-3-2
P. 19
Samuel Charles Sklare, et. al.
Figure 9. Micromachining module screen
specific features and will be released as source on Biol (Camb) vol.7(9): 1068–1078.
GitHub (link will be updated when live). Future ite- https://dx.doi.org/10.1039/c5ib00151j
rations of this software will have more tools to rapidly 4. Sklare SC, Phamduy TB, Curly JL, et al., 2015, The power of
create complex printing programs and utilize robust
hardware plugin systems similar to the ones in the open CAD/CAM laser bioprinting at the single-cell level: Evolution
[18]
source optics laboratory software packages Itom and of printing. In: Zhang LG, Fisher JP, Leong KW (eds). 3D
[19]
Qudi . In addition, the design will be more intuitive: Bioprinting and Nanotechnology in Tissue Engineering and
using video game heads-up display aesthetics to redesign Regenerative Medicine. London, UK: Elsevier. 79–103.
the information and control overlays on the video feed. https://dx.doi.org/10.1016/B978-0-12-800547-7.00004-7
Game controllers with two joy-sticks and triggers will 5. Schiele NR, Corr DT, Huang Y, et al., 2010, Laser-based
be used to maneuver the ribbon and substrate and to fire direct-write techniques for cell printing. Biofabrication
laser pulses.
vol.2(3): 32001.
Conflict of Interest https://dx.doi.org/10.1088/1758-5082/2/3/032001
No conflict of interest was reported by the authors. 6. Doraiswamy A, Patz T, Narayan RJ, et al., 2006, Two-
References dimensional differential adherence of neuroblasts in laser
micromachined CAD/CAM agarose channels. Appl Surf Sci
1. Curley JL, Sklare SC, Bowser DA, et al., 2016, Isolated node vol.252(13): 4748–4753.
engineering of neuronal systems using laser direct write. https://dx.doi.org/10.1016/j.apsusc.2005.07.158
Biofabrication vol.8(1): 15013. 7. Kingsley DM, Dias AD, Chrisey DB, et al., 2013, Single-step
https://dx.doi.org/10.1088/1758-5090/8/1/015013 laser-based fabrication and patterning of cell-encapsulated
2. Phamduy TB, Raof NA, Schiele NR, et al., 2012, Laser direct- alginate microbeads. Biofabrication vol.5(4): 45006.
write of single microbeads into spatially-ordered patterns. https://dx.doi.org/10.1088/1758-5082/5/4/045006
Biofabrication vol.4(2): 25006. 8. Piqué A, Chrisey DB, Auyeung RCY, et al., 1999, A novel
https://dx.doi.org/10.1088/1758-5082/4/2/025006 laser transfer process for direct writing of electronic and
3. Phamduy TB, Sweat RS, Azimi MS, et al., 2015, Printing sensor materials. Appl Phys A vol.69(Supp 1): S279–S284.
cancer cells into intact microvascular networks: A model for https://dx.doi.org/10.1007/s003390051400
investigating cancer cell dynamics during angiogenesis. Integr 9. Smausz T, Hopp B, Kecskeméti G, et al., 2006, Study on
International Journal of Bioprinting (2017)–Volume 3, Issue 2 107

