Page 342 - IJB-9-6
P. 342

International Journal of Bioprinting                                   3D printing and bioprinting in urology





                 Ref.  [56]  [57]  [58]  [59]  [60]  [61]  [62]  [63]  [64]  [65]  [66]  [67]  [68]  [69]  [70]  [71]  [72]  [73]  [74]









                 Discovery/Achievement Building a secondary hyperoxaluria model Building a biomimetic 3D microenvironment  modeling for polycystic kidney disease Building a series of micro-scale tube channels   with bionic shapes Building a bladder cancer microenvironment Building a chip-based non-muscle-invasive   bladder cancer model Building a bladder model with a bionic   structure Building a kidney cancer model for drug   detection Building a renal 3D microenvironmen












                    HK-2s, Caco-2s, and GEs cells  Induced renal tubular epithelial   HEK293, EK293-GFP, and Human   kidney fibroblasts  T24, 5637, MRC-5, and THP-1   Renal PTECs, TERT1, #CRL-4031  NOR-10 fibroblast cells, and   uroepithelial cells  Human pluripotent stem cells   Human primary kidney cells  Human immortalized PTECs  (RPTEC/TERT1; ATCC CRL4031)  Bone marrow-derived cells HUCs and HBSMCs, HUVECs and








                 Cell    cells (iRECs)  HUVECs  T24 cell  T24 cell  hBMSCs  hRPCs  cells  (hPSCs)  Endothelial cell  HUVECs  ciPTECs  HSMCs Abbreviations: ciPTECs, conditionally immortalized proximal tubule epithelial cells; dECM, decellularized extracellular matrix; DMEM, Dulbecco’s modified Eagle’s medium; DoD, drop-on- demand; GelMA, gelatin methacryloyl; hBMSCs, human bone marrow-derived mesenchymal stem cells; HBSMCs, human bladder smooth muscle cells; HEK293, human

                    Polyethylene vinyl acetate (PEVA)  Bladder tissue-derived dECM   Gelatin, and sodium alginate  Matrigel and Collagen I, and   Matrigel-Collagen I blends  STEMdiff APEL or TESR-E6   Bacterial nanocellulose, and   dECM, gelatin, HA, and glycerol  Gelatin and fibrinogen  GelMA, alginate, and PEGOA polydimethylsiloxane; PICO, poly(itaconate-co-citrate-co-octanediol); POMaC, poly(octanediol-co-maleic anhydride-co-citrate); PTECs, renal proximal tubule epith








                 Material  Fibrinogen, alginate  PICO, and POMaC  PDMS  PDMS  (BldECM)  dECM  GelMA  DMEM  medium prior  Hydrogel  alginate  PCL  DMEM




                 3D printing technology  Coaxial extrusion printing  DoD bioprinting  Coaxial extrusion printing  Microfluidic  Microfluidic  Extrusion printing  Multi-nozzle extrusion   printing  Extrusion printing  Extrusion printing and   microfluidic  DoD bioprinting, self-  assembly technology  Extrusion printing and   microfluidic  Extrusion printing  Microfluidic  Extrusion printing  Extrusion printing  Extrusion printing,   sacrificial template, and   microfluidic
             Table 3. A summary of 3D bioprinting in urology








                 Urological organ  Kidney  Kidney  Renal glomerulus  Bladder  Bladder  Bladder  Kidney  Kidney  Bladder  Kidney  Bladder  Kidney  Renal glomerulus  Kidney  Kidney  Kidney  Kidney  Bladder  Urinary tract








                 Year  2022  2022  2022  2022  2022  2022  2022  2021  2021  2021  2021  2021  2020  2019  2019  2019  2019  2018  2018



            Volume 9 Issue 6 (2023)                        334                          https://doi.org/10.36922/ijb.0969
   337   338   339   340   341   342   343   344   345   346   347