The development and application of cell-based biosensors (CBBs) provides a convenient strategy for rapid detection of target analytes. The CBBs had been widely applied in the fields of food safety, environment monitoring, and medicine diagnosis due to their advantages of short response time, easy operation, low toxicity, and portability. However, the CBBs based on two-dimensional (2D) cultured cells in-vitro suffer from a lower cell viability and isolated physiology, which had blocked the accurate evaluations of these biosensors. With the development of nanotechnology and three-dimensional (3D) printing technology, cells fixed in a 3D biosensor or a 3D microenvironment have shown great improvement in the sensitivity and detection authenticity than conventional CBBs. To promote the further development of CBBs, in this paper, we reviewed the related technologies used to construct 3D bionic cell chips including organic/inorganic agents and operating approaches suitable for constructing 3D cell cultural microenvironment. Then, the applications of 3D bionic cell chip based on microbial and mammalian cell biosensors in food safety field were discussed during recent ten years. Finally, the current challenges and further directions were summarized and prospected.
Keywords: 3D scaffold; Cell based biosensor; Food safety; Hazard quantification; Micro-environmental construction.
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