Elemoso, et al.
               Fabrication:  Challenges  and Future  Trends.  IEEE  Trans   Micropatterned Hydrogels by Bioprinting System Depended
               Biomed Eng, 60:691–9. DOI: 10.1109/tbme.2013.2243912.  on the Cell Types and Cellular Interaction. J Biosci Bioeng,
           41.  Haisler  WL,  Timm  DM,  Gage  JA,  et al.,  2013, Three-  116:224–30. DOI: 10.1016/j.jbiosc.2013.02.011.
               Dimensional  Cell  Culturing  by Magnetic  Levitation.  Nat   54.  Horvath L, Umehara Y, Jud C, et al., 2015, Engineering an In
               Protoc, 8:1940–9. DOI: 10.1038/nprot.2013.125.      Vitro Air-Blood Barrier by 3D Bioprinting. Sci Rep, 5:7974.
           42.  De Moor L,  Merovci  I, Baetens  S,  et  al., 2018, High-  DOI: 10.1038/srep07974.
               throughput  Fabrication  of  Vascularized  Spheroids for   55.  Isaacson A, Swioklo S, Connon CJ, 2018, 3D Bioprinting of a
               Bioprinting. Biofabrication, 10:035009. DOI: 10.1088/1758-  Corneal Stroma Equivalent. Exp Eye Res, 173:188–93. DOI:
               5090/aac7e6.                                        10.1016/j.exer.2018.05.010.
           43.  Ling K, Huang G, Liu  J,  et  al., 2015, Bioprinting-Based   56.  Madden  LR, Nguyen  TV,  Garcia-Mojica  S,  et  al.,  2018,
               High-Throughput Fabrication of Three- Dimensional MCF-  Bioprinted  3D Primary Human Intestinal  Tissues Model
               7 Human Breast Cancer Cellular  Spheroids.  Engineering,   Aspects  of  Native  Physiology  and  ADME/Tox  Functions.
               1:269–74. DOI: 10.15302/j-eng-2015062.              iScience, 2:156–67. DOI: 10.1016/j.exer.2018.05.010.
           44.  Mordwinkin  NM,  Lee  AS,  Wu  JC,  2013,  Patient-Specific   57.  Homan  KA, Kolesky  DB, Skylar-Scott  MA,  et  al.,  2016,
               Stem  Cells  and  Cardiovascular  Drug Discovery.  JAMA,   Bioprinting of 3D Convoluted Renal Proximal Tubules on
               310:39–40. DOI: 10.1001/jama.2013.282409.           Perfusable Chips. Sci Rep, 6:34845. DOI: 10.1038/srep34845.
           45.  Ma X, Liu J, Zhu W, et al., 2018, 3D Bioprinting of Functional   58.  Mozetic P, Giannitelli SM, Gori M, et al., 2017, Engineering
               Tissue Models for Personalized Drug Screening and In Vitro   Muscle Cell Alignment  through 3D Bioprinting.  J Biomed
               Disease Modeling. Adv Drug Deliv Rev, 132:235–51.   Mater Res A, 105:2582–8. DOI: 10.1002/jbm.a.36117.
           46.  Satpathy A, Datta P, Wu Y, et al., 2018, Developments with   59.  Agrawal G, Aung A, Varghese S, 2017, Skeletal Muscle-on-
               3D Bioprinting for Novel Drug Discovery. Expert Opin Drug   a-Chip: An In Vitro Model to Evaluate Tissue Formation and
               Discov, 13:1115–29. DOI: 10.1080/17460441.2018.1542427.  Injury. Lab Chip, 17:3447–61. DOI: 10.1039/c7lc00512a.
           47.  Nguyen  DG, Funk J, Robbins JB,  et  al., 2016, Bioprinted   60.  Wang  Z,  Lee  SJ,  Cheng  HJ,  et al., 2018, 3D Bioprinted
               3D Primary Liver Tissues Allow Assessment of Organ-Level   Functional and Contractile Cardiac Tissue Constructs. Acta
               Response to Clinical Drug Induced Toxicity In Vitro. PLoS   Biomater, 70:48–56.
               One,11:e0158674. DOI: 10.1371/journal.pone.0158674.  61.  Dai  X,  Ma  C,  Lan  Q,  et al., 2016, 3D  Bioprinted Glioma
           48.  Massa S, Sakr MA, Seo J,  et  al., 2017, Bioprinted  3D   Stem Cells for Brain Tumor Model and Applications of Drug
               Vascularized  Tissue Model for Drug  Toxicity  Analysis.   Susceptibility. Biofabrication, 8:045005. DOI: 10.1088/1758-
               Biomicrofluidics, 11:044109.                        5090/8/4/045005.
           49.  Сhang R, Emami K, Wu H, et al., 2010, Biofabrication of   62.  Xu  F,  Celli  J,  Rizvi  I,  et  al.,  2011, A  Three-Dimensional
               a  Three-Dimensional  Liver Micro-Organ as an  In Vitro   In Vitro Ovarian Cancer Coculture Model Using  a High-
               Drug Metabolism Model.  Biofabrication, 2:045004. DOI:   throughput Cell Patterning Platform. Biotechnol J, 6:204–12.
               10.1088/1758-5082/2/4/045004.                       DOI: 10.1002/biot.201000340.
           50.  Snyder  JE,  Hamid  Q,  Wang  C,  et al., 2011, Bioprinting   63.  Zhao Y, Yao R, Ouyang L, et al., 2014, Three-Dimensional
               Cell-laden  Matrigel  for Radioprotection  Study of Liver   Printing of Hela Cells for Cervical  Tumor Model  In
               by  Pro-drug  Conversion  in  a  Dual-tissue  Microfluidic   Vitro.  Biofabrication, 6:035001. DOI: 10.1088/1758-
               Chip.  Biofabrication, 3:034112. DOI: 10.1088/1758-  5082/6/3/035001.
               5082/3/3/034112.                                64.  Koch L, Deiwick  A, Schlie S,  et al., 2012, Skin  Tissue
           51.  Ji S, Guvendiren M, 2017, Recent Advances in Bioink Design   Generation by Laser Cell Printing.  Biotechnol  Bioeng,
               for 3D Bioprinting of  Tissues and Organs.  Front Bioeng   109:1855–63.
               Biotechnol, 5:23. DOI: 10.3389/fbioe.2017.00023.  65.  Tseng H, Gage JA, Shen T, et al., 2015, A Spheroid Toxicity
           52.  Hong S, Lee JY, Hwang C, et al., 2016, Inhibition of Rho-  Assay Using Magnetic 3D Bioprinting and Real Time Mobile
               Associated Protein Kinase Increases the Angiogenic Potential   Device-Based  Imaging.  Sci Rep, 5:13987. DOI: 10.1038/
               of Mesenchymal  Stem Cell  Aggregates via Paracrine   srep13987.
               Effects.  Tissue Eng Part  A, 22:233–43. DOI: 10.1089/ten.  66.  Tran JL, 2015, To Bioprint or Not to Bioprint. N C J Law
               tea.2015.0289.                                      Tech, 15:123–78.
           53.  Hong S, Song SJ, Lee JY, et al., 2013, Cellular Behavior in   67.  Murphy SV, Atala A, 2014, 3D Bioprinting of Tissues and

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