User:Jennifer.makarevich/sandbox

Below are suggested edits in an outline form. More specific changes will be added over the next two months.


 * 1) 3D Printing General Principles (Combining Existing Sections) - Caroline, Jenn
 * 2) Goal: Provide additional examples of various 3D printing techniques, elaborate more on the different printing materials that are available, as well as discuss discrete processes and 3D printers that are accessible.
 * 3) Contents
 * 4) (Caroline + Jenn) Techniques
 * 5) New Subsection: Sacrificial Writing into Functional Tissue (SWIFT)
 * 6) Yields artificial tissue that contains the necessary blood vessels for survival in vivo (a)
 * 7) Able to mimic live organs by packing living cells just as tightly as they are in the body and providing channels for blood vessels (a)
 * 8) Can create a beating heart with this technique (a)
 * 9) Stereolithographic 3D Bioprinting (c)
 * 10) Extrusion (c)
 * 11) Fused Deposition Modeling (f)
 * 12) Selective Laser Sintering (f)
 * 13) (Caroline) Printing Materials (Existing Section) - Reference D
 * 14) Natural Polymers
 * 15) Alginate
 * 16) Chitosan
 * 17) HA
 * 18) Collagen
 * 19) Gelatin
 * 20) Synthetic Polymers
 * 21) PLGA
 * 22) PEG
 * 23) PU
 * 24) Natural-Synthetic Hybrid Polymers
 * 25) Gelatin-methacryloyl
 * 26) Hyaluronic acid-PEG
 * 27) PU-gelatin
 * 28) (Jenn) Processes and printers
 * 29) Multi-nozzle
 * 30) Hybrid
 * 31) Modifying inkjet printers
 * 32) Electrospinnin
 * 33) New Figures
 * 34) A detailed view of the SWIFT technique (b)
 * 35) References Used:
 * 36) Salzman, S. (2019, September 23). 3D-Printed Hearts with 'Beating' Tissue Could Ease Organ Donor Shortage. Retrieved February 12, 2020, from https://www.nbcnews.com/mach/science/3d-printed-hearts-beating-tissue-could-ease-organ-donor-shortage-ncna1057591
 * 37) Skylar-Scott, M. A., Uzel, S. G. M., Nam, L. L., Ahrens, J. H., Truby, R. L., Damaraju, S., & Lewis, J. A. (2019). Biomanufacturing of Organ-Specific Tissues with High Cellular Density and Embedded Vascular Channels. Science Advances, 5(9). doi: 10.1126/sciadv.aaw2459
 * 38) Biomaterials Based on Marine Resources for 3D Bioprinting Applications. Yi Zhang, Dezhi Zhou, Jianwei Chen, Xiuxiu Zhang, Xinda Li, Wenxiang Zhao, and Tao Xu. Marine Drugs Published Oct 2019. https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6835706/
 * 39) Advanced Polymers for Three-Dimensional (3D) Organ Bioprinting. Wang Xiaohong. Micromachines Published Dec 2019. https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6952999/
 * 40) Zhang, B., Gao, L., Ma, L., Luo, Y., Yang, H., & Cui, Z. (2019). 3D Bioprinting: A Novel Avenue for Manufacturing Tissues and Organs. Engineering, 5(4), 777–794. https://doi.org/10.1016/j.eng.2019.03.009
 * 41) C. Lee Ventola. (October 2014). Medical Applications for 3D Printing: Current and Projected Uses. 39(10), 704-711. https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4189697/