Choudhury D, et al.

           61.  Stanton D, 2015, Avaliable from: https://www.outsourcing-  77.  Biolife4D, 2018, About BIOLIFE4D. Avaliable from: https://
               pharma.com/Article/2015/04/23/MSD-bio-inks-deal-to-use-  biolife4d.com/about/
               3D-printed-liver-in-toxicology-studies;         78.  BIOLIFE4D launches regulation A+ (Mini-IPO) offering;
           62.  2015, L'Oreal USA announces research partnership   Plans to raise $50M, 2018. Avaliable from: https://www.
               with organovo to develop 3-D bioprinted skin tissue.   cnbc.com/2018/02/01/globe-newswire-biolife4d-launches-
               Avaliable from: http://ir.organovo.com/phoenix.    regulatio n-a-mini-ipo-offering-plans-to-raise-50m.html
               zhtml?c=254194&p=irol-newsArticle&ID=2129344    79.  BIO X 3D BIOPRINTER, 2018. Avaliable from: https://
           63.  Bulanova E A, Koudan E V, Degosserie J, et al., 2017,   cellink.com/bioprinter/
               Bioprinting of a functional vascularized mouse thyroid   80.  CELLINK-Bioinks, 2018. Avaliable from: https://cellink.
               gland construct. Biofabrication, 9(3): 034105. https://dx.doi.  com/bioink/
               org/10.1088/1758-5090/aa7fdd                    81.  Scott C, 2016, Cyfuse biomedical partners with cell
           64.  Scott C, 2015, 3D bioprinting solutions succeeds in   applications. Inc. for the First Use of Regenova 3D
               performing the first 3D printed thyroid transplant Avaliable   Bioprinter Outside Japan. Avaliable from: https://3dprint.
               from: https://3dprint.com/103721/3dbioprintingsolutions-  com/119161/cyfuse-cell-applications/
               thyroid/                                        82.  3D-Bioplotter, 2018. Avaliable from: https://envisiontec.
           65.  3dbio, 2016, URSC. Cooperation agreement with 3d   com/3d-printers/3d-bioplotter/
               bioprinting solutions the development of a bioprinter for   83.  BioScaffolder,  2018. Avaliable  from:  https://gesim-
               space applications. Avaliable from: http://www.bioprinting.  bioinstruments-microfluidics.com/category/bioscaffolder-en/
               ru/en/press-center/publications/orch-the-agreement-with-  bioscaffolder-basic-features-en/
               the-company-3d-bioprinting-solutions-on-cooperation-and-  84.  nScrypt, 2018. Avaliable from:  https://www.nscrypt.com/
               development-of-bio-p/                           85.  nScrypt, Bioprinting, 2018. Avaliable from:  https://www.
           66.  Bioprinter FABION, 2018. Avaliable from: http://www.  nscrypt.com/solutions/bioprinting/
               vivaxbio.com/products-services/bioprinter-fabion/  86.  Ourobotics, 2018, Revolution multi material 3D bioprinter.
           67.  3Dynamic Systems, 2018. Avaliable from: http://www.  Avaliable from: https://www.weare3dbioprintinghumans.org/
               bioprintingsystems.com/about.html               87.  VitarixTM   Bio Printer, 2018. Avaliable from: http://www.
           68.  3DYNAMIC SYSTEMS–NANO-CELLULOSE BIOINK,           pensees.co.kr/bio_printer
               2018. Avaliable from: http://www.bioprintingsystems.com/  88.  L’Oréal and Poietis sign an exclusive research partnership to
               bioinks.html                                       develop bioprinting of hair, 2016.  Avaliable from: https://
           69.  Aether, 2017. Avaliable from: http://bioprinting.aether1.com  www.poietis.com/en/post-release.php?id=6&view=0
           70.  PRNewswire, 2016. Aether Redefines 3D Printing With   89.  BASF and poietis continue work toward 3D printed skin
               Aether  1-World's  Most Advanced  3D  Bioprinter  @  in renewed bioprinting agreement, 2018. Avaliable from:
               PRNewswire, San Francisco. Avaliable from: http://  https://3dprint.com/192132/basf-poietis-bioprinting/
               www.prnewswire.com/news-releases/aether-redefines-  90.  Poietis, 2018. Avaliable from: https://www.poietis.com/en/
               3d-printing-with-aether-1---worlds-most-advanced-3d-  platform.php
               bioprinter-300238611.html                       91.  Poieskin, 2018. Avaliable from: http://poietis.com/fr/
           71.  Allevi, 2018. Avaliable from: https://allevi3d.com  poieskin/welcome.php
           72.  Allevi 6, 2018. Avaliable from: https://allevi3d.com/allevi6-  92.  REGEMAT 3D, 2018. Avaliable from: http://www.
               bioprinter                                         regemat3d.com/versions
           73.  Allevi - Bioinks, 2018. Avaliable from: https://allevi3d.com/  93.  regenHU – Biosystem Architects, 2017. Avaliable from:
               shop/?category=Bioinks                             https://www.regenhu.com/
           74.  RX1™ BIOPRINTER, 2018. Avaliable from:  https://www.  94.  regenHU - Bioinks, 2018. Avaliable from: https://www.
               aspectbiosystems.com/product-categories/rx1-bioprinter  regenhu.com/biomaterials/#BioInk
           75.  Tran J L, 2015, To Bioprint or not to bioprint. NCJ L &   95.  Hangzhou  Regenovo  Biotechnology  Co.,  Ltd,  2017.
               TECH, 17(1).                                       Avaliable from: http://regenovo.com/english/
           76.  Bio3D Modules. Avaliable from: http://bio3d.tech/modules.  96.  Biosynsphere™ ink, 2018. Avaliable from: http://www.
               html                                               revotekhealth.com/technology.aspx?t=1

                                       International Journal of Bioprinting (2018)–Volume 4, Issue 2        19