By using pancreatic tumor spheroids of two different diameters, we found that large spheroids, characterized by more hypoxic microenvironments, exhibited lower BNCT susceptibility. The response to BNCT from each spheroid can be monitored in real time. Results: With the use of the proposed microfluidic chip and a laboratory pipette, more than 40 spheroids with controllable diameters (standard deviation <10%) could be cultured on a chip for more than 10 days. We expanded our system to serve as a transwell-like device in order to investigate the influence of stromal fibroblasts in the tumor microenvironment. Methods: We used a pancreatic tumor as a model to develop a high-throughput 3D tumor spheroid platform for evaluating BNCT efficacy under different microenvironment conditions. The tumor microenvironment critically influences tumor pathophysiology, but its effects on BNCT remain unexplored. Because irradiated neutrons penetrate deep into solid tumor tissue, BNCT efficacy is strongly influenced by cell pathophysiology in tumors. Background: The recent success of boron neutron capture therapy (BNCT) for cancer treatment has attracted considerable attention.
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