Abstract:
The effect of hyperglycemia (elevated blood glucose level) on the response of a murine tumor to irradiation given alone or in combination with hyperthermia was studied. Tumors were early generation isotransplants of a spontaneous C3H/Sed mouse fibrosarcoma, FSa-II. Single-cell suspensions were transplanted into the foot, and irradiation was given when each tumor reached an average diameter of 7 mm. Following irradiation, the tumor growth time to reach 1000 mm3 was studied and the dose-response curve between the tumor growth time and radiation dose was fitted. Preadministration of glucose increased the size of the hypoxic and chronically hypoxic cell fractions without altering the slope of the dose-response curve where the chronically hypoxic cell fraction is determined as the fraction of cells which were not oxygenated under hyperbaric oxygen conditions. Hyperthermia given prior to irradiation enhanced the tumor response to irradiation, but simultaneously increased the size of the hypoxic and chronically hypoxic cell fractions. Similar results were observed following hyperthermia given after irradiation. When hyperthermia at 43.5 degrees C was given 24 h before irradiation, the size of the hypoxic cell fraction increased with increasing treatment time, while a substantial decrease in the chronically hypoxic cell fraction was observed. Administration of glucose 60 min before hyperthermia further increased the size of the hypoxic cell fraction. Possible mechanisms explaining why glucose administration increases the hypoxic cell fractions are discussed.
Urano, Todoroki, Kahn, Okunieff, , , , , (1987). The effect of hyperglycemia on the tumor response to irradiation given alone or in combination with hyperthermia. Radiation research, 1987 Sep;111(3):488-97. https://www.ncbi.nlm.nih.gov/pubmed/3659283