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The infiltration and cytotoxicity of T lymphocytes are critical for cancer immunotherapy efficacy; however, the behavior of these immune cells has not been thoroughly investigated. Herein, a Tumor-Immune-On-Chip is established using cells acquired from the tissues of a patient with colorectal cancer to monitor T lymphocytes. Through the Tumor-Immune-On-Chip, the interaction between tumor spheroid and either T lymphocytes expanded from tumors (tumor-infiltrating lymphocytes; TILs) or lymph nodes (lymph node-derived lymphocytes; LN T cells) are investigated. Although initial 24-h analysis showed no statistical differences, extended 48-h observation revealed a significant deviation in T cell-mediated cell death signals between TILs and LN T cells. TILs demonstrated more potent cytotoxic effects than LN T cells after 48 h. The number of tumor-infiltrating CD3⁺ cells and cleaved caspase-3 expression levels were 4- and 2.1-fold higher, respectively, in TIL co-cultures compared to LN T cell co-cultures. Therefore, this proof-of-concept platform allows us to explore the patient-specific tumor-immune microenvironment, focusing on different types of T lymphocytes and establishing methodology for future clinical applications. ClinicalTrial.gov identifier: NCT02589496.