Vascular thermal adaptation in tumors and normal tissue in rats.

PURPOSE: The vascular thermal adaptation in the R3230 adenocarcinoma, skin and muscle in the legs of Fischer rats was studied. METHODS AND MATERIALS: The legs of Fischer rats bearing the R3230 AC adenocarcinoma (subcutaneously) were heated once or twice with a water bath, and the blood flow in the tumor, skin and muscle of the legs was measured with the radioactive microsphere method. RESULTS: The blood flow in control R3230 AC tumors was 23.9 ml/100 g/min. The tumor blood flow increased about 1.5 times in 30 min and then markedly decreased upon heating at 44.5 degrees C for 90 min. In the tumors preheated 16 h earlier at 42.5 degrees C for 60 min, reheating at 44.5 degrees C increased the tumor blood flow by 2.5-fold in 30 min. Contrary to the decline in blood flow following an initial increase during the 44.5 degrees C heating without preheating, the tumor blood flow remained elevated throughout the 90 min reheating at 44.5 degrees C. These results indicated that thermal adaptation or thermotolerance developed in the tumor vasculatures after the preheating at 42.5 degrees C for 60 min. The magnitude of vascular thermal adaptation in the tumors 24 h and 48 h after the preheating, as judged from the changes in blood flow, were smaller than that 16 h after the preheating. Heating at 42.5 degrees C for 60 min induced vascular thermal adaptation also in the skin and muscle, which peaked in 48 h and 24 h, respectively, after the heating. CONCLUSION: Heating at 42.5 degrees C for 1 h induced vascular thermal adaptation in the R3230 AC tumor, skin, and muscle of rats that peaked 16-48 h after the heating. When the tumor blood vessels were thermally adapted, the tumor blood flow increased upon heating at temperatures that would otherwise reduce the tumor blood flow. Such an increase in tumor blood flow may hinder raising the tumor temperature while it may increase tumor oxygenation.

Increase in tumor blood flow by pentoxifylline.

PURPOSE: The effect of pentoxifylline (PTX) on the blood flow in experimental rodent tumors was investigated. METHODS AND MATERIALS: When the R3230 AC adenocarcinoma implanted in the leg of Fischer 344 rats grew to about 1 g, the effect of PTX on the blood flow in the tumor and in the skin and muscle was determined with the microsphere method using 85Sr labelled 25 microns diameter microspheres. The SCK mammary carcinoma was induced subcutaneously in the leg or foot of A/J mice and the effect of PTX on the tumors was investigated: the blood perfusion in the leg tumors (7 mm in diameter) was determined with the 86Rb uptake method and that in the foot tumors (5 mm diameter) was determined with the laser Doppler flow (LDF) method. RESULTS: The blood flow in the R3230 AC adenocarcinoma significantly increased when measured 30 min after an IP injection of 50 mg/kg PTX while the blood flow in the normal skin and muscle remained unchanged. The 86Rb uptake in the SCK tumor slightly increased 30 min after an IP injection of 50 mg/kg PTX. The LDF in the SCK tumors grown in the foot began to increase 5-10 min after an injection of 25 mg/kg PTX reaching 1.5-2.0 times in 20-30 min and it returned to the original level at 60 min. CONCLUSION: The results in the present study together with our previous observation that PTX increases the tumor pO2 in rodent tumors strongly suggest that PTX may be useful for increasing the radiosensitivity of human tumors.