Label‐free detection of living cervical cells based on microfluidic device with terahertz spectroscopy

Early diagnosis of cervical cancer is essential for a good prognosis. Terahertz wave detection technology is a nondestructive and label‐free physical detection technology, which can detect and monitor the cancer cells in real time, especially for patients with deep or inaccessible tumors. In this study, a single‐cell‐layer microfluidic device was developed. After replacing the optical clearing agent, the characteristics of H8, HeLa and SiHa cell lines in adherent and suspended states were detected. Additionally, the absorption increased with increasing cell density. For the mixed suspension cell samples, principal component analysis–support vector machine method was used to identify benign and malignant cell component. After living cells formaldehyde, changes in cell membrane permeability were evaluated to identify the cell survival status (i.e., dead or living) based on terahertz spectroscopy amplitude differences. Therefore, extending the terahertz spectrum detection to the molecular level can characterize the life essence of cells and tissues. Terahertz wave detection technology is a nondestructive, label‐free physical detection technology that can detect and monitor cancer cells in real time, especially for patients with deep cervical tumors or who cannot be biopsied. In our study, a single cell layer microfluidic device and principal component analysis–support vector machine analysis method were developed to detect the characteristics of H8, HeLa and SiHa cell lines in adherent and suspended states after replacing the optical cleaning agent.