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References

Background:

  1. 3D Model Generation in Life Sciences | Transmitting Science. (n.d.). Retrieved March 17, 2016, from http://www.transmittingscience.org/courses/draw/3d-model/

  2. Johnson, G. R., Buck, T. E., Sullivan, D. P., Rohde, G. K., & Murphy, R. F. (2015). Joint modeling of cell and nuclear shape variation. Molecular Biology of the Cell,26(22), 4046-4056.

  3. Leonardo Da Vinci anatomy drawing! (n.d.). Retrieved March 17, 2016, from http://www.leonardo-da-vinci-biography.com/leonardo-da-vinci-anatomy.html

  4. Mogilner, A., & Odde, D. (2011). Modeling cellular processes in 3D. Trends in Cell Biology, 21(12), 692-700.

  5. Movie Gallery. (n.d.). Retrieved March 17, 2016, from http://www.scls.riken.jp/en/information/movie-gallery.html

  6. Peng, T., & Murphy, R. F. (2011). Image-derived, three-dimensional generative models of cellular organization. Cytometry Cytometry Part A, 79A(5), 383-391.

  7. Robb, R. A. (2000). Three-Dimensional Visualization in Medicine and Biology.Handbook of Medical Imaging, 685-712.

  8. Shamir, E. R., & Ewald, A. J. (2014). Three-dimensional organotypic culture: Experimental models of mammalian biology and disease. Nature Reviews Molecular Cell Biology Nat Rev Mol Cell Biol, 15(10), 647-664.

  9. (n.d.). Retrieved March 17, 2016, from https://www.sciencedaily.com/releases/2012/11/121122152910.htm

Timeline:

  1. 1953 – Watson and Crick’s 3D Model of DNA. (n.d.). Retrieved March 17, 2016, from http://dataphys.org/list/watson-and-cricks-3d-model-of-dna/

  2. A Critical History of Computer Graphics and Animation. (n.d.). Retrieved March 17, 2016, from https://design.osu.edu/carlson/history/lesson18.html

  3. A Critique of Chernoff Faces. (2007). Retrieved March 17, 2016, from https://eagereyes.org/criticism/chernoff-faces

  4. A History of CGRG/ACCAD at The Ohio State University. (n.d.). Retrieved March 17, 2016, from https://design.osu.edu/carlson/history/ACCAD-overview/overview6.html

  5. DAAC: Marching Cubes. (n.d.). Retrieved March 17, 2016, from http://daac.hpc.mil/gettingStarted/Marching_Cubes.html

  6. DNA with Ethidium (1978). (n.d.). Retrieved March 17, 2016, from https://www.youtube.com/watch?v=TD0-2lkvfgU

  7. Harvey E. Cline. (n.d.). Retrieved March 17, 2016, from http://www.zoominfo.com/p/Harvey-Cline/33131935

  8. Herman Chernoff. (n.d.). Retrieved March 17, 2016, from http://www.stat.harvard.edu/People/Faculty/Herman_Chernoff/Herman_Chernoff_index.html

  9. History of OSC and OARnet (1986-1994). (n.d.). Retrieved March 17, 2016, from https://oh-tech.org/content/history_osc_and_oarnet_1986_1994

  10. Institute of Medicine (US) Forum on Drug Discovery, D., & Translation, A. (n.d.). Retrieved March 17, 2016, from http://www.ncbi.nlm.nih.gov/books/NBK50972/

  11. Kaswell, A. S. (2010). Chernoff and the Face Value of Numbers. Annals of Improbable Research, 16(4), 6-7. Retrieved March 17, 2016, from https://www.improbable.com.

  12. King's College London - Homepage. (n.d.). Retrieved March 17, 2016, from http://www.kcl.ac.uk/aboutkings/history/famouspeople/wilkinsfranklin.aspx

  13. Linus Pauling and the Structure of Proteins: A Documentary History - Special Collections & Archives Research Center - Oregon State University. (n.d.). Retrieved March 17, 2016, from http://scarc.library.oregonstate.edu/coll/pauling/proteins/index.html

  14. Nelson Max - College of Engineering UC Davis. (n.d.). Retrieved March 17, 2016, from http://engineering.ucdavis.edu/biographies/nelson-max/

  15. The Francis Crick Papers. (n.d.). Retrieved March 17, 2016, from http://profiles.nlm.nih.gov/SC/Views/Exhibit/narrative/doublehelix.html

  16. The Protein Papers. (n.d.). Retrieved March 17, 2016, from http://www.pnas.org/site/classics/classics1.xhtml

  17. Vozzi, G., Flaim, C., Ahluwalia, A., & Bhatia, S. (2003). Fabrication of PLGA scaffolds using soft lithography and microsyringe deposition. Biomaterials,24(14), 2533-2540.

Innovators:

  1. 3D chemistry speeds up and improves search for industrial enzymes. (n.d.). Retrieved March 17, 2016, from http://novozymes.com/en/news/news-archive/Pages/3D-chemistry-speeds-up-and-improves-search-for-industrial-enzymes.aspx

  2. Accessibility Links. (n.d.). Retrieved March 17, 2016, from http://bluebrain.epfl.ch/page-56882-en.html

  3. Home - regenHU. (n.d.). Retrieved March 17, 2016, from http://www.regenhu.com/

  4. Living Human Tissue - Organovo. (n.d.). Retrieved March 17, 2016, from http://organovo.com/science-technology/bioprinted-human-tissue/living-human-tissue/

  5. Zygote::Home. (n.d.). Retrieved March 17, 2016, from http://www.zygote.com/

Issues:

  1. 3D printing raises ethical issues in medicine. (n.d.). Retrieved March 17, 2016, from http://www.abc.net.au/science/articles/2015/02/11/4161675.htm

  2. Cell Culture. (n.d.). Retrieved March 17, 2016, from https://www.corning.com/worldwide/en/products/life-sciences/applications/cell-culture.html

  3. Hickman, J. A., Graeser, R., Hoogt, R. D., Vidic, S., Brito, C., Gutekunst, M., . . . Consortium, I. P. (2014). Three-dimensional models of cancer for pharmacology and cancer cell biology: Capturing tumor complexity in vitro/ex vivo.Biotechnology Journal, 9(9), 1115-1128.

  4. Leckart, S. (2013, August 6). HOW 3-D PRINTING BODY PARTS WILL REVOLUTIONIZE MEDICINE. Popular Science.

  5. The 3D Bioprinting Revolution. (2014). Retrieved March 17, 2016, from http://harvardsciencereview.com/2014/05/01/the-3d-bioprinting-revolution/

  6. Bloginfo('name'); ? (n.d.). Retrieved March 17, 2016, from http://www.humanconnectomeproject.org/gallery/

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