Effects of hyperthermia in a malignant tumor

Abstract

The mechanisms of immediate and delayed tumor cell killing by hyperthermia were investigated in EMT-6 neoplasms implanted in BALB/cKa mice. Radiofrequency electromagnetic fields were used to achieve a curative local dose of 44°C for 30 minutes. The tumors were sampled sequentially, during and after heat therapy, and studied by light and electron microscopy. Assays for cell survival, including cell cultures, were performed at various times after completion of therapy. Focal cytoplasmic swelling, rupture of the plasma membrane and peripheral migration of heterochromatin were observed 5 minutes after initiation of therapy and led to cytoplasmic fragmentation by the end of the treatment period (30 minutes). Necrosis of most cells occurred 2–6 hours after the end of treatment. At 48 hours, there were no recognizable tumor cells. A scar replaced the tumor bed 14 days later. Viable (clonogenic) tumor cells were still 2% of control levels at the end of therapy and then progressively decreased to 0.0003% at 48 hours, confirming the morphologic observations and indicating that factors other than the direct effect of heat on tumor cells contributed to complete tumor eradication. Our findings, coupled with previous studies, suggest that the immediate heat induced necrosis in this tumor occurs through the mechanisms of physical changes in the plasma membrane. The delayed (post-therapy) cell death is likely due to modifications in the environment of the tumor bed.