effective       drug
                         concentration    and
                         pharmacokinetic
                         profiles.
    Using  3D  bioprinting  to
    fabricate liver cancer cell
                                                        88
    clusters and microfluidic  Metuzumab         Li et al.
    chips   for   cellular
    maintenance   ·Reduced   model   preparation  ·Insufficient
    Developing  a  device  to  Different   workload   precision  in  3D  cell
                                                               60
    sustain   patient-derived  chemotherapie  ·Higher   cell   proliferation  printing   (still  Steinberg et al.
    multicellular spheroids   s   efficiency   requires   bioink-
 3D         ·Streamlining   the   cycle   of  assisted
 printing   Using a device to culture     designing, prototyping, and testing  perfusion)(limiting   Gallegos-Martínez
 cancer cells or spheroids  DOX   new microfluidic devices   the   physiological   et al.
                                                     36
 embedded in hydrogels   ·Significant  reduction  in  post- accuracy   of
 processing time and cost   vascularized models)
 Assessing   tumor  New  pyrazino
 spheroid   formation  [1,2-a]   User-friendly   ·Inadequate   Rahimifard et al.
                                                                87
 ability   benzimidazole   ·Environmental-friendly   biocompatibility
 derivatives   (compared to PMMA)   (SLA resin)
 Fabricating  a  perfusion  Various drug   ·Limited   optical
                                                          61
 cell culture device     transparency  (SLA     Ong et al.
                         resin)







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