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References 13. Knowlton S M, Sencan I, Aytar Y, et al., 2015, Sickle cell
detection using a smartphone. Sci Rep, 5: 15022. http://doi.
1. Norman J, Madurawe R D, Moore C M V, et al., 2017, A
new chapter in pharmaceutical manufacturing: 3D-printed org/10.1038/srep15022
14. Knowlton S, Yu C H, Jain N, et al., 2015, Smart-phone
drug products. Adv Drug Deliv Rev, 108(1): 39–50. http://
doi.org/10.1016/j.addr.2016.03.001 based magnetic levitation for measuring densities. PLoS
ONE, 10(8): e0134400. http://doi.org/10.1371/journal.
2. Wong J Y and Pfahnl A C, 2014, 3D printing of surgical pone.0134400
instruments for long-duration space missions. Aviat Space
15. Amin R, Knowlton S, Yenilmez B, et al., 2016, Smart-phone
Environ Med, 85(7): 758–763. http://doi.org/10.3357/ attachable, flow-assisted magnetic focusing device. RSC Adv,
ASEM.3898.2014
3. Cesaretti G, Dini E, De Kestelier X, et al., 2014, Building 6(96): 93922–93931. http://doi.org/10.1039/C6RA19483D
16. Amin R, Knowlton S, Hart A, et al., 2016, 3D-printed
components for an outpost on the Lunar soil by means of a microfluidic devices. Biofabrication, 8(2): 022001. http://
novel 3D printing technology. Acta Astronautica, 93: 430–
doi.org/10.1088/1758-5090/8/2/022001
450. http://doi.org/10.1016/j.actaastro.2013.07.034 17. Yenilmez B, Knowlton S, Yu C H, et al., 2016, Label-free
4. Murphy S V and Atala A, 2014, 3D bioprinting of tissues
sickle cell disease diagnosis using a low-cost, handheld
and organs. Nat Biotechnol, 32(8): 773–785. http://doi. platform. Adv Mater Technol, 1(5): 1600100. http://doi.org/
org/10.1038/nbt.2958 10.1002/admt.201600100
5. Tasoglu S and Demirci U, 2013, Bioprinting for stem
18. Knowlton S, Joshi A, Syrrist P, et al., 2017, 3D-printed
cell research. Trends Biotechnol, 31(1): 10–19. http://doi. smartphone-based point of care tool for fluorescence- and
org/10.1016/j.tibtech.2012.10.005
magnetophoresis-based cytometry. Lab Chip, 17(16): 2839–
6. Park J H, Jang J, Lee J S, et al., 2017, Three-dimensional 51. http://doi.org/10.1039/C7LC00706J
printing of tissue/organ analogues containing living cells.
19. Yenilmez B, Knowlton S and Tasoglu S, 2016, Self-
Ann Biomed Eng, 45(1): 180–194. http://doi.org/10.1007/ contained handheld magnetic platform for point of care
s10439-016-1611-9 cyto metry in biological samples. Adv Mater Technol, 1(9):
7. Lee V K and Dai G, 2017, Printing of three-dimensional 1600144. http://doi.org/10.1002/admt.201600144
tissue analogs for regenerative medicine. Ann Biomed Eng, 20. Giffi C A, Gangula B and Illinda P, 2014, 3D opportunity
45(1): 115–131. http://doi.org/ 10.1007/s10439-016-1613-7 for the automotive industry. Deloitte University Press, New
8. Knowlton S, Yenilmez B, Anand S, et al., 2017, York.
Photocrosslinking-based bioprinting: Examining crosslinking 21. Katstra W E, Palazzolo R D, Rowe C W, et al., 2000, Oral
schemes. Bioprinting, 5: 10–18. http://doi.org/10.1016/ dosage forms fabricated by Three Dimensional Printing . J
TM
j.bprint.2017.03.001 Control Release, 66(1): 1–9. http://doi.org/10.1016/S0168-
9. Knowlton S, Yenilmez B and Tasoglu S, 2016, Towards 3659(99)00225-4
single-step biofabrication of organs on a chip via 3D 22. Ursan I D, Chiu L and Pierce A, 2013, Three-dimensional
print ing. Trends Biotechnol, 34(9): 685–688. http://doi. drug printing: A structured review. J Am Pharm Assoc,
org/10.1016/j.tibtech.2016.06.005 53(2): 136–144. http://doi.org/http://dx.doi.org/10.1331/
10. Knowlton S, Joshi A, Yenilmez B, et al., 2016, Advancing JAPhA.2013.12217
cancer research using bioprinting for tumor-on-a-chip 23. Chen C, Erkal J L, Gross B C, et al., 2014, Evaluation of 3D
platforms. Int J Bioprint, 2(2): 3–8. http://doi.org/10.18063/ printing and its potential impact on biotechnology and the
IJB.2016.02.003 chemical sciences. Anal Chem, 86(7): 3240–3253. http://doi.
11. Knowlton S, Yu C H, Ersoy F, et al., 2016, 3D-printed org/10.1021/ac403397r
micro fluidic chips with patterned, cell-laden hydrogel con- 24. Singh M, Haverinen H M, Dhagat P, et al., 2010, Inkjet
structs. Biofabrication, 8(2): 025019. http://doi.org/ 10.1088/ printing-process and its applications. Adv Mater, 22(6): 673–
1758-5090/8/2/025019 685. http://doi.org/10.1002/adma.200901141
12. Knowlton S, Onal S, Yu C H, et al., 2015, Bioprinting for 25. Scoutaris N, Alexander M R, Gellert P R, et al., 2011,
cancer research. Trends Biotechnol, 33(9): 504–513. http:// Inkjet printing as a novel medicine formulation technique.
doi.org/10.1016/j.tibtech.2015.06.007 J Control Release, 156(2): 179–185. http://doi.org/10.1016/

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