Cell-based multisensor array for detecting cancer biomarkers in human urine

Detecting volatile urinary biomarkers offers a compelling strategy for noninvasive diagnosis of diseases such as cancer. Biohybrid sensors employing sensor cells that express olfactory receptors—with finely tuned molecular recognition capabilities—are garnering increasing attention. However, their application to physiological samples remains challenging due to variability in sensor cell responsiveness and limited signal intensity. Here, we report a volatile biomarker detection platform based on a multisensor array in which insect olfactory receptor– expressing cells are encapsulated in hydrogel and housed within microwells featuring vertical slits. This structural design enables dense three-dimensional cell immobilization and rapid, uniform exposure to target molecules, enhancing the sensitivity of fluorescence responses and minimizing signal variability. Multiple types of sensor cells on a single array enabled the selective and simultaneous detection of potential cancer-related target molecules—acetophenone, phenol, and 6-methyl-5-hepten-2-one. Furthermore, through hexane extraction combined with gas-phase delivery, we reliably detected acetophenone introduced into human urine at micromolar concentrations. This platform offers a compact, reproducible, and scalable solution for volatile biomarker detection using cell-based sensors.