Resistive switching phenomenon based on the current-induced metal-insulator transition were investigated in epitaxial thin films of Ca₂RuO₄ through the current–electric-field characteristics measurements. By applying currents or electric fields at a temperature below 80 K, our Ca₂RuO₄ thin films demonstrated clear resistive switching phenomenon ascribed to the current-induced metal-insulator transition, and the distributions of the switching threshold currents and fields were very small. These results suggest that the Ca₂RuO₄ thin films have a high operational stability in the resistive switching due to the current-induced transition, as compared with conventional materials with temperature-induced metal-insulator transition including VO₂, and their advantages in Mott-electronic devices.