ABSTRACT
In recent years, using electromagnetic fields as a targeted therapy for tumors has become a new idea. This paper aims to study the response of rat glioma cells (C6) when the external electromagnetic field parameters change and to obtain a complete working range of magnetic field parameters. Four-day, 4-h daily millisecond magnetic field exposure experiments were performed with C6 cells. The peak values of magnetic field intensity were 260 mT, 90 mT, 19 mT and 6 mT. Each day after exposure, cell morphology and cell viability assay (MTT method) were measured. The response of C6 cells shows a significant window effect and time cumulative effect on the cell, and it is non-destructive. The working inhibited magnetic field range of magnetic field increase rate dB/dt (T/s) is [34, 119.5] and [166.75, 527.25], the magnetic field amplitude B (mT) is [6, 260], the magnetic field integral Bt (mT·s) is [0.1649, 0.8085] and the energy integral B2t (mT2·s) is [2.317, 53.328]. Our findings provide the theoretical and experimental basis for clinical applications of electromagnetic fields.
Declaration of interest
The authors report no conflicts of interest. The authors alone are responsible for the content and writing of this article.