3D-printed bioreactors for in vitro modeling and analysis


                  Ref.    [20]   [48]    [49]                    [50]             [51]  [52]       [53]    (Contd....)

            Table 2. 3D-printed devices for various microbial applications such as long-term microbial culture, pathogen detection, pathogen
                  Bacteria used  E. coli,    S. aureus  P. putida   E. coli   S. aureus,   E. coli, S.   typhimurium,   L. rhamnosus,   Methicillin-  resistant    S. aureus  Influenza virus  C. reinhardtii,   M. aeruginosa,   Amphiprora   sp., and C.   closterium  E. coli













                  Application  Accessory item for   bacterial growth   monitoring  Bioreactor for biotoxicity   of 3D-printing resin on   bacteria  Accessory item for   microbial liquid culture  Bioreactor for colorimetric   detection  Bioreactor for   electrochemical detection  Accessory item for  detection of viable algae in   fresh and marine water  Bioreactor for colorimetric   detection









                  3D construct   developed  Culture tube holder   Culture millifluidic   disks  Culture tubes  Chip  Bead-based   microfluidic chip  Smartphone platform   Finger actuated   microfluidic device

               phenotype study, antibacterial assays, and 3D-printing of bacteria and biofilms.





                                 STL 3D-printed resins  Formlabs: ClearV2 and   flexible, Shapeways:   Elastoplastic, extreme   detail, frosted acrylic,   white strong, and   Stratasys: MED610,   VeroClear, TangoBlack,   VisiJet EX200 polymer




                  Material  ABS plus                 flexible  Tango Plus  ABS    Polylactide  ABS






                  Possible reason for   choice of printer  Good mechanical   properties  High resolution, high   accuracy  Affordable, high   resolution, high accuracy  High precision  Affordable, optimal   printing quality  Affordable, geometrical   precision  Affordable, optimum   resolution  Ultra-high resolution










                  Printer model  Long-term microbial culture  Fortus 250 mc   3D-printer  Form 2   3D-printer  Form 1+   3D-printer  Connex350   3D-printer  Profi3Dmaker   3D-printer  Easy 3D Maker   3D-printer  UPBOX+   3D-printer  3D Systems   ProJet 3000UHD   3D-printer







                  Printing   technique  FDM  SLA  SLA  Material   jetting   Pathogen detection  Material   extrusion  Material   extrusion  Material   extrusion  Material   jetting





           88                          International Journal of Bioprinting (2020)–Volume 6, Issue 4