a look into the sources referenced.
A. Homepage
(A.1) Henderson, E. (2020, May 19). Texas A&M Lab Produces 3D-bioprinted Bone Tissue to Benefit Bone Regeneration.
Retrieved from https://www.news-medical.net/news/20200519/Texas-AM-lab-produces-3D-bioprinted-bone-tissue-to-benefit-bone-regeneration.aspx
(A.2) Henderson, E. (2020, August 26). Scientists Combine 3D Bioprinting and Computer Modeling to Study Cancer Metastasis in
Blood Vessels. Retrieved from https://www.news-medical.net/news/20200826/Scientists-combine-3D-bioprinting-and-computer-modeling-to-study-cancer-metastasis-in-blood-vessels.aspx
(A.3) N/A. (2020, June 10). CELLINK Granted U.S. Patent for Unique Cellulose-based Bioink Technology. Retrieved from
(A.4) Organovo Holdings, Inc. (2013, April 16). The Bioprinting Process [Video file]. Retrieved from https://youtu.be/s3CiJ26YS_U
(A.5) Seeker. (2019, May 3). This 3D Bioprinted Organ Just Took Its First "Breath" [Video file]. Retrieved from
(A.6) TED. (2017, April 5). Tamer Mohamed: 3D Printing Human Tissue: Where Engineering Meets Biology [Video file]. Retrieved
from https://youtu.be/nbtz8fhhMhE
(A.7) TED. (2019, October 17). Taneka Jones: How to 3D Print Human Tissue [Video file]. Retrieved
from https://youtu.be/uHbn7wLN_3k
B. Home Page Images
(B.1) Digital Engineering. (2019, September). [Fused Deposition Modeling]. Retrieved from
https://www.digitalengineering247.com/images/article/fathom_3d_printing_0919article.jpg
(B.2) Getty Images. (2020). [Allevi 3D Bioprinting]. Retrieved from https://www.outsourcing-
pharma.com/Article/2020/01/07/Lonza-and-Allevi-collaborate-on-3D-bioprinting
(B.3) Ice Dental. (2017, November 15). [Bioprinting of Artificial Bone]. Retrieved from
http://icedentalimplants.co.uk/wp-content/uploads/2017/07/AdobeStock_131452463.jp
(B.4) Inventia Life Science. (2017). [We're Inventia Life Science]. Retrieved from https://inventia.life/company/
C. Background
(C.1) Kačarević, Ž. P., Rider, P. M., Alkildani, S., Retnasingh, S., Smeets, R., Jung, O., Ivanišević, Z., & Barbeck, M. (
(2018). An Introduction to 3D Bioprinting: Possibilities, Challenges and Future Aspects. Materials (Basel, Switzerland), 11(11), 2199. https://doi.org/10.3390/ma11112199
(C.2) Li, J., Chen, M., Fan, X., & Zhou, H. (2016). Recent advances in bioprinting techniques: approaches,
applications and future prospects. Journal of translational medicine, 14, 271. https://doi.org/10.1186/s12967-016-1028-0
(C.3) N/A. (2020, July 06). Bioprinting 101: Learn How to 3D Bioprinters. Retrieved from
https://www.allevi3d.com/bioprinting-101/
(C.4) Wang X. (2019). Bioartificial Organ Manufacturing Technologies. Cell transplantation, 28(1), 5–17.
https://doi.org/10.1177/0963689718809918
D. Background Images
(D.1) Carnegie Mellon University. (2015, November 3). [A Bioprinted Coronary Artery]. Retrieved from
https://directorsblog.nih.gov/wp-content/uploads/2015/10/3d_bioprinting_artery2.jpg
(D.2) Keriquel, V. (2017, December). [Schematic Representation of Laser-based Printing]. Retrieved from
(D.3) Liu, F. (2018, January). [Schematic Diagram of Inkjet-Based Bioprinting]. Retrieved from
(D.4) Medical News Today. (2020, June 04). [Purple UV Light Emission]. Retrieved from
(D.5) Soori, M. (2019, April). [Schematic Diagram of Extrusion-based Bioprinting]. Retrieved from
(D.6) Wyss Institute. (2016, October). [3D Model of Proximal Tubules]. Retrieved from
https://www.seas.harvard.edu/news/2016/10/more-progress-building-functional-human-tissues
E. Timeline
(E.1) Alongi, P. (2014, December 16). Clemson University's 'Bioprinting' Central to New Businesses. Retrieved from
https://newsstand.clemson.edu/clemson-universitys-bioprinting-central-to-new-businesses/
(E.2) Altman, L. (2006, April 04). On a Scaffold in the Lab, Doctors Build a Bladder. Retrieved from
https://www.nytimes.com/2006/04/04/health/on-a-scaffold-in-the-lab-doctors-build-a-bladder.html
(E.3) Boyd, J. (2019, May 2). Organ Bioprinting Gets a Breath of Fresh Air. Retrieved from
https://news.rice.edu/2019/05/02/organ-bioprinting-gets-a-breath-of-fresh-air-2/
(E.4) González, C. M. (2020, January 30). Timeline of the 3D Printing History. The American Society of Mechanical
Engineers. Retrieved from https://www.asme.org/topics-resources/content/infographic-the-history-of-3d-printing
(E.5) Gregurić, L. (2018, December 10). History of 3D Printing: When Was 3D Printing Invented? Retrieved from
https://all3dp.com/2/history-of-3d-printing-when-was-3d-printing-invented/
(E.6) LaMonica, M. (2012, February 06). 3D Printer Produces New Jaw for Woman. Retrieved from
https://www.cnet.com/news/3d-printer-produces-new-jaw-for-woman/
(E.7) Matsangou, E. (2018, December 03). How A Pioneering 3D Printing Technique is Revolutionising Healthcare.
Retrieved from https://www.theneweconomy.com/technology/how-a-pioneering-3d-printing-technique-is-revolutionising-healthcare
(E.8) N/A. (2019, January 30). 3D Printed Realism from Stratasys Helps Bring Ancient Artifacts to Life. Retrieved
(E.9) N/A. (2020, July 24). Our Story. Retrieved from https://www.3dsystems.com/our-story
(E.10) Palsenbarg, V. (2014, February 28). Materialise's Mammoth Stereolithography – 3D Printing on a Grand
Scale! Retrieved from https://www.materialise.com/en/blog/materialises-mammoth-stereolithography-3d-printing-on-a-grand-scale
(E.11) Ślusarczyk, P. (2019, December 30). Carl Deckard - Father of the SLS Method and one of the Pioneers of 3D
Printing Technologies, Died... - 3DPC: Additive Manufacturing - Final Parts and Prototypes. Retrieved from https://3dprintingcenter.net/2019/12/30/carl-deckard-father-of-the-sls-method-and-one-of-the-pioneers-of-3d-printing-technologies-died/
(E.12) Ventola C. L. (2014). Medical Applications for 3D Printing: Current and Projected Uses. P & T : a peer-
reviewed journal for formulary management, 39(10), 704–711.
F. Timeline Images
(F.1) 3DPrint.com. (2017, March). [Three Dimensional Printed Blood Vessels]. Retrieved from
(F.2) 3D Systems. (1984). [Stereolithography Apparatus (SLA) Plan]. Retrieved from
(F.3) 3D Systems. (1987). [SLA-1 Stereolithography (SLA) Printer]. Retrieved from
(F.4) Bioprinting: The First Bioprinter. (2014). [Thomas Boland]. Retrieved from
https://jubioprinting.weebly.com/uploads/1/9/7/9/19794911/192488357.jpg?395
(F.5) Cockrell School of Engineering. (2020, January). [Carl Deckard]. Retrieved from
https://www.me.utexas.edu/images/sls_deckard_carl.jpg
(F.6) Future Earth. (2012, April). [3D Printed Jaw Implant]. Retrieved from https://futureearth.com.au/wp-
content/uploads/2012/05/3d-printed-jaw-implant-880x440.jpg
(F.7) Image Source. (2016). [3D Systems New Logo]. Retrieved from https://imagesourceusa.com/wp-
content/uploads/2016/10/Screen-Shot-2016-10-11-at-10.08.27-AM.png
(F.8) Materialise. (2020, February). [Materialise Mammoth Resin 3D Printer]. Retrieved from
https://i.materialise.com/blog/wp-content/uploads/2017/06/mammoth-resin-3d-printer-1024x633.jpg
(F.9) NaijaGraphitti. (2017, March). [Charles Hull]. Retrieved from
(F.10) Rice University. (2019, May). [3D-printed Lung Air Sac]. Retrieved from
(F.11) Sculpteo. (2017). [Hideo Kodama, Japanese Pioneer]. Retrieved from https://www.sculpteo.com/blog/wp-
content/uploads/2017/03/Hideo-Kodama-940x528.jpg
(F.12) Wake Forest Institute. (2017, February). [A Close Look at Bioprinting Process]. Retrieved from
https://miro.medium.com/proxy/1*AzMrs_K-eYKXrwS--VI-Kw.jpeg
G. Defining Bioprinting
(G.1) Bhat, S., & Kumar, A. (2013). Biomaterials and bioengineering tomorrow's healthcare. Biomatter, 3(3), e24717.
https://doi.org/10.4161/biom.24717
(G.2) Chan, B. P., & Leong, K. W. (2008). Scaffolding in tissue engineering: general approaches and tissue-specific
considerations. European spine journal : official publication of the European Spine Society, the European Spinal Deformity Society, and the European Section of the Cervical Spine Research Society, 17 Suppl 4(Suppl 4), 467–479. https://doi.org/10.1007/s00586-008-0745-3
(G.3) Derakhshanfar, S., Mbeleck, R., Xu, K., Zhang, X., Zhong, W., & Xing, M. (2018). 3D bioprinting for biomedical
devices and tissue engineering: A review of recent trends and advances. Bioactive materials, 3(2), 144–156. https://doi.org/10.1016/j.bioactmat.2017.11.008
(G.4) Gungor-Ozkerim, P. S., , Inci, I., , Zhang, Y. S., , Khademhosseini, A., , & Dokmeci, M. R., (2018). Bioinks for 3D
bioprinting: an overview. Biomaterials science, 6(5), 915–946. https://doi.org/10.1039/c7bm00765e
(G.5) Sampogna, G., Guraya, S. Y., & Forgione, A. (2015). Regenerative medicine: Historical roots and potential
strategies in modern medicine. Journal of Microscopy and Ultrastructure, 3(3), 101-107. doi:10.1016/j.jmau.2015.05.002
(G.6) Zakrzewski, W., Dobrzyński, M., Szymonowicz, M., & Rybak, Z. (2019). Stem cells: past, present, and future.
Stem cell research & therapy, 10(1), 68. https://doi.org/10.1186/s13287-019-1165-5
H. Defining Bioprinting Images
(H.1) Biology Dictionary. (2019, June). [Embryonic Stem Cells]. Retrieved from https://biologydictionary.net/wp-
content/uploads/2018/03/Embryonic-Stem-Cell.jpg
(H.2) CELLINK. (2018). [CELLINK Bioink Development: Support Series]. Retrieved from
https://www.cellink.com/applications/biofabrication/bioink-development/
(H.3) Innotere Biomaterial. (2018). [Innotere 3D Scaffolds]. Retrieved from
(H.4) Maksim. (2017, October). [Polymer Biomaterial]. Retrieved from
https://cdn.mos.cms.futurecdn.net/PMhrubWxe4o3B3qmoYMxpN-1024-80.jpg
(H.5) NBC News. (2017, March). [Stem Cells]. Retrieved from https://media1.s-
(H.6) Tel Aviv University. (2019, April). [World's First 3D Printed Heart]. Retrieved from
I. Innovators
(I.1) Carpenter, M. (2016, October 29). Remembrance Night for Jemma Redmond. Retrieved from
https://intersexday.org/en/remembrance-night-jemma-redmond/
(I.2) Essop, A. (2020, January 10). Aspect Biosystems Closes $20 Million Series A Funding Round. Retrieved from
(I.3) Jackson, B. (2017, February 25). Interview with Harvard 3D Printing Pioneer Jennifer Lewis. Retrieved from
https://3dprintingindustry.com/news/interview-harvards-3d-printing-pioneer-jennifer-lewis-106645/
(I.4) Kabra, S. (2020, August 17). 7 Innovative Companies for Bioprinting Solutions. Retrieved from
https://www.biomedicaltimes.com/7-innovative-companies-for-bioprinting-solutions/
(I.5) Kish, S. W. (2018, June 12). Former University of Utah Inventor Robert Jarvik Receives Lifetime Achievement
Award for Artificial Heart. Retrieved from https://healthcare.utah.edu/publicaffairs/news/2018/06/jarvik.php
(I.6) Listek, V. (2019, June 19). A Bioprinting World Map - 3DPrint.com: The Voice of 3D Printing / Additive
Manufacturing. Retrieved from https://3dprint.com/246670/a-bioprinting-world-map/
(I.7) Listek, V. (2020, April 30). Inventia Life Science Empowers Researchers to Rapidly Scale 3D Cell Culture -
3DPrint.com: The Voice of 3D Printing / Additive Manufacturing. Retrieved from https://3dprint.com/263524/inventia-life-science-empowers-researchers-to-rapidly-scale-3d-cell-culture/
(I.8) N/A. (2020, September 21). BIOLIFE4D Names Pharmaceutical Veteran Kate Lewis as President. Retrieved from
(I.9) Peels, J. (2019, September 03). Interview with Seok-Hwan You of Rokit Healthcare on Bioprinting -
3DPrint.com: The Voice of 3D Printing / Additive Manufacturing. Retrieved from https://3dprint.com/252599/interview-with-seok-hwan-you-of-rokit-healthcare-on-bioprinting/
(I.10) Sher, D. (2018, December 19). From Startup to Bioprinting Market Leader, the Bioinkredibile Rise of CELLINK.
Retrieved from https://www.3dprintingmedia.network/erik-gatenholm-rise-of-cellink/
(I.11) Valdivieso, C. (2019, October 08). 3D Bioprinters: The Main Manufacturers on the Market. Retrieved from
https://www.3dnatives.com/en/3d-bioprinters-main-manufacturers-081020194/
(I.12) Waterman, P. (2013, August 01). 3D Bioprinting: Moving Beyond 2D Cell Culture. Retrieved from
https://www.digitalengineering247.com/article/3d-bioprinting-moving-beyond-2d-cell-culture/
J. Innovator Images
(J.1) 3DPrint.com. (2019, June 19). [Bioprinting World Map]. Retrieved from https://3dprint.com/wp-
content/uploads/2019/06/MAPA-3D2_4.gif
(J.2) 3DPrint.com. (2019, September). [You Seokhwan]. Retrieved from https://3dprint.com/wp-
content/uploads/2019/08/CEO-1080x1620.jpg
(J.3) Barnett, G. (2020, May). [Inventia Life Science Logo]. Retrieved from
(J.4) BIOLIFE4D. (2020). [Kate Lewis]. Retrieved from https://biolife4d.com/wp-
content/uploads/2020/09/KateLewis_president_150_150_grey.jpg
(J.5) Businesswire. (2020, January). [Aspect Biosystems Logo]. Retrieved from
https://mms.businesswire.com/media/20200109005202/en/766259/2/Aspect_fullcolourRGB.jpg
(J.6) Businesswire. (2020, March). [Akron Biotech Logo]. Retrieved from
https://mms.businesswire.com/media/20200330005126/en/782120/2/logo_2020.jpg
(J.7) Cyfuse Biomedical. (2010). [Cyfuse Biomedical Logo]. Retrieved from https://www.cyfusebio.com/en/wp/wp-
content/themes/cyfuse/images/company-whatis-01.jpg
(J.8) Digital Initiative. (2018, November). [Organovo Company Logo]. Retrieved from
(J.9) Independent.ie. (2017, November). [Jemma Redmond]. Retrieved from
(J.10) Innotere Biomaterial. (2004). [Innotere Biomaterial Logo]. Retrieved from
(J.11) Seek Vector Logo. (2019, March). [3D Systems Company Logo]. Retrieved from
https://seekvectorlogo.net/wp-content/uploads/2019/03/3d-systems-vector-logo.png
(J.12) Science Source. (2014). [Robert Jarvik]. Retrieved from
https://www.sciencesource.com/Doc/TR1_WATERMARKED/b/6/7/8/SS2360237.jpg?d63642008507
(J.13) Twitter. (2018). [Jennifer A. Lewis]. Retrieved from
https://pbs.twimg.com/profile_images/1172894363388698624/GCcJ0jQP_400x400.jpg
(J.14) WeBio Bioprinting. (2019). [WeBio Company Logo]. Retrieved from https://uploads-
ssl.webflow.com/5a8d7907aee914000194d4aa/5a9473c8892ae8000191c2c5_new.png
K. Applications
(K.1) Gaharwar, D. K. (2020, May 19). Lab engineers 3D-functional bone tissues. Retrieved from
https://www.sciencedaily.com/releases/2020/05/200519140407.htm
(K.2) Hull, C., & JP. Kruth, M. (1986, January 01). 3-dimensional bioprinting for tissue engineering applications.
Retrieved from https://biomaterialsres.biomedcentral.com/articles/10.1186/s40824-016-0058-2
(K.3) Hydrogels, B. (n.d.). Why is the application of 3D Bioprinting important in Drug Development? Retrieved
October 08, 2020, from https://www.biogelx.com/why-is-the-application-of-3d-bioprinting-important-in-drug-development/
(K.4) Schiffelers R, M. (2019, April 13). 3D-Bioprinted Mini-Brain: A Glioblastoma Model to Study Cellular I
Interactions and Therapeutics. Retrieved from https://pubmed.ncbi.nlm.nih.gov/30702785/
(K.5) Staff, S. (2020, March 06). New imaging technique enables the study of 3-D printed brain tumors. Retrieved
from https://medicalxpress.com/news/2020-03-imaging-technique-enables-d-brain.html
(K.6) Willerth, S., AI, J., & K, T. (2018, November 30). Bioprinting neural tissues using stem cells as a tool for
screening drug targets for Alzheimer's disease. Retrieved from https://www.futuremedicine.com/doi/full/10.2217/3dp-2018-0016
L. Applications Images
(L.1) BioGelX. (2019, January 10). [Bioprinting contributing to the Drug Development Cycle]. Retrieved from
https://www.biogelx.com/why-is-the-application-of-3d-bioprinting-important-in-drug-development/
(L.2) Clinical OMICs. (2017, July 27). [Glioblastoma in the Brain]. Retrieved from
(L.3) IEEE Transmitter. (2019, October 25). [3D Bioprinting Heart Organ]. Retrieved from
https://transmitter.ieee.org/3d-organs-and-bones/
(L.4) Wiley Analytic Sciences. (2018, June 3). [Bioprinted Mini Brain]. Retrieved from
https://analyticalscience.wiley.com/do/10.1002/gitlab.18162/full/
(L.5) Wiley Online Library. (2019, March 13). [Regenerating Bone Tissue with the use of Bioprinting Technology].
Retrieved from https://onlinelibrary.wiley.com/doi/abs/10.1002/term.2839
M. Technology
(M.1) Balaton, D. (2020, September 16). Stereolithography / SLA 3D Printing – Simply Explained. Retrieved from
https://all3dp.com/2/stereolithography-3d-printing-simply-explained/
(M.2) Bioprintable, G. (2019, July 4). BioCAD / BioCAM / BioCUT (RegenHU). Retrieved from
http://www.bioprintable.com/biocad-biocam-biocut-regenhu/
(M.3) Bioprinter ~ 3D Bioprinting Technology - Biomaterials ~ BioInk - regenHU ~Biosystem architects. (2009).
Retrieved from https://www.regenhu.com/
(M.4) Cabrera, D. (2015, September 04). BioBot 1 Desktop 3D Bioprinter Set to Officially Launch at 2015 TERMIS
Next Week - 3DPrint.com: The Voice of 3D Printing / Additive Manufacturing. Retrieved from https://3dprint.com/93992/biobot-1-desktop-3d-bioprinter/
(M.5) Charpentier, D. (n.d.). CRISPR/Cas9. Retrieved from http://www.crisprtx.com/gene-editing/crispr-cas9
(M.6) Eltom, A., Zhong, G., & Muhammad, A. (2019, March 07). Scaffold Techniques and Designs in Tissue
Engineering Functions and Purposes: A Review. Retrieved from https://www.hindawi.com/journals/amse/2019/3429527/
(M.7) Jellypepper. (2013). RASTRUM™ Experience. Retrieved from https://inventia.life/platform
(M.8) NIOSH (2020, March 27). Nanotechnology. Retrieved from
https://www.cdc.gov/niosh/topics/nanotech/default.html
N. Technology Images
(N.1) 3D Print. (2015, September 4). [BioBot 1 Desktop 3D Bioprinter]. Retrieved from
https://3dprint.com/93992/biobot-1-desktop-3d-bioprinter/
(N.2) CustomPart. (2008). [Stereolithography]. Retrieved from
https://www.custompartnet.com/wu/stereolithography
(N.3) Forbes Enterprise Tech. (2020). [Nanotechnology in the Lab]. Retrieved from
(N.4) Integrated DNA Technologies. (2018, May 23). [CRISPR Cas-9 Gene Editing Process] [Video file]. Retrieved
from https://www.youtube.com/watch?v=Zn6DYy4gf5I
(N.5) Inventia. (2013). [RASTRUM Bioprinter]. Retrieved from https://inventia.life/platform
(N.6) National Institute of Biomedical Imaging and Bioengineering. (2015). [Tissue Scaffold]. Retrieved from
(N.7) RegenHU Biosystem Architects. (2017). [BioCAM and BioCAD Logo]. Retrieved from
https://www.regenhu.com/3d-bioprinters/software
(N.8) RegenHU 3D Discovery. (2007). [BioFactory]. Retrieved from https://www.regenhu.com/
O. Social Ethics
(O.1) Bioprinting: Ethical and societal implications. (2020, June 05). Retrieved from https://www.ascb.org/science-
news/bioprinting-ethical-and-societal-implications/
(O.2) Dodds, S. (2015, February 11). 3D Printing Raises Ethical Issues In Medicine. Retrieved from
http://www.abc.net.au/science/articles/2015/02/11/4161675.htm
(O.3) Lysaght, T., Centre for Biomedical Ethics, T, L., K, A., K, K., HG, E., . . . Rosemann, A. (2017, October 04).
Accelerating regenerative medicine: The Japanese experiment in ethics and regulation. Regenerative Medicine. 12(6). Retrieved from https://www.futuremedicine.com/doi/abs/10.2217/rme-2017-0038
P. Social Ethics Images
(P.1) Cedar Stem Cell Institute. (2016). [Embryonic Stem Cells]. Retrieved from
https://www.cedarsci.com/blog/stem-cell-beginners-guide/
(P.2) National Stem Cell Foundation. (2020). [NSCF Logo]. Retrieved from
https://nationalstemcellfoundation.org/contact/
(P.3) University Foot and Ankle Institute. (2017). [Bioprinted Ankle Bone]. Retrieved from
https://www.footankleinstitute.com/blog/ankle-replacement-surgery-advancements/
Q. Legal
(Q.1) Adamo, J. E., Grayson, W. L., Hatcher, H., Brown, J. S., Thomas, A., Hollister, S., & Steele, S. J. (2018).
Regulatory interfaces surrounding the growing field of additive manufacturing of medical devices and biologic products. Journal of clinical and translational science, 2(5), 301–304. https://doi.org/10.1017/cts.2018.331
(Q.2) Keren-Paz, T., & Haj, A. J. (2014). Liability Versus Innovation: The Legal Case for Regenerative Medicine.
Tissue Engineering Part A, 20(19-20), 2555-2560. doi:10.1089/ten.tea.2013.0324
(Q.3) Kirillova, A., Bushev, S., Abubakirov, A., & Sukikh, G. (2020). Bioethical and Legal Issues in 3D Bioprinting.
International Journal of Bioprinting, 6(3), 272. doi: http://dx.doi.org/10.18063/ijb.v6i3.272
(Q.4) O'Neal, B. (2019, April 24). Bioprinting: What are the Legal Implications of Defective Design Software? -
3DPrint.com: The Voice of 3D Printing / Additive Manufacturing. Retrieved from https://3dprint.com/242241/bioprinting-what-are-legal-implications-defective-design-software/
R. Legal Images
(R.1) Wikimedia. (2017, March). [FDA Logo]. Retrieved from
https://upload.wikimedia.org/wikipedia/commons/7/7d/Food_and_Drug_Administration_logo.svg
S. Economic Impact
(S.1) Kim, Y., Bioengineering, D., Smoak, M., Melchiorri, A., Lab, B., Mikos, A., . . . Hoffman, T. (2019, January 22).
An Overview of the Tissue Engineering Market in the United States from 2011 to 2018. Retrieved from https://www.liebertpub.com/doi/full/10.1089/ten.tea.2018.0138
(S.2) Rj. (2018, November 14). Bioprinting: How the Manufacturing of Human Organs Will Disrupt Healthcare.
Retrieved from https://digital.hbs.edu/platform-rctom/submission/bioprinting-how-the-manufacturing-of-human-organs-will-disrup
(S.3) Says:, A., Says:, P., Says:, R., & Says:, S. (2012, January 20). The Economic Impacts of 3D Printing. Retrieved
from https://madameeureka.wordpress.com/the-economic-impacts-of-3d-printing/
T. Economic Impact Images
(T.1) 3D Natives. (2019, October 12). [LuzBot Bioprinter]. Retrieved from https://www.3dnatives.com/en/lulzbot-bio-
(T.2) All 3DP CraftCloud. (2018, November 18). [3D Bioprinting Close Up Technology]. Retrieved from
https://all3dp.com/2/what-is-3d-bioprinting-simply-explained/
(T.3) CELLINK LIfe Sciences. (2013). [Bioprinted Hip Bone]. Retrieved from
https://www.cellink.com/global/applications/biofabrication/
(T.4) The Balance. (2020). [Health Care Finance Inequality]. Retrieved from https://www.thebalance.com/health-