Objectives: To define the temperature-time points that result in cell death in a human renal cell carcinoma cell (RCC) line in vitro.
Methods: Cellular viability and clonogenic cell survival were determined for human A498 RCC cells after thermal treatment. Various temperature (45 degrees C to 70 degrees C) and time (1 to 30 minutes) combinations were used. Cell viability was assessed by vital dye uptake and clonogenic cell survival. Mathematical Arrhenius modeling was performed to construct a graphic display of A498 cell thermal sensitivity.
Results: Temperature-time points at which 99% or greater cell death occurred according to the vital dye assay were 55 degrees C for 30 minutes, 60 degrees C for 10 minutes, and 65 degrees C for 8 minutes. Clonogenic survival studies confirmed that cells treated at these temperature-time points failed to grow even after 10 days.
Conclusions: These in vitro results show that short exposure to temperatures higher than 70 degrees C is lethal in the A498 RCC cell line. Lower temperatures in the 60 degrees C range require more prolonged heating to cause cell death. Knowledge of these temperatures will be useful to better plan and monitor complex radiofrequency ablations.