Radiobiological studies on the importance of tumor oxygenation for anti-neoplastic therapy

摘要

The aim of the twelve studies included in the present thesis was to determine the importance of hypoxia for various anti-neoplastic treatment modalities, and to evaluate possible ways of overcoming the hypoxia problem by combined modality therapy. The murine tumor systems were the C3H mammary carcinoma with 5-12% hypoxic cells, and the SCCVII squamous cell carcinoma with 2% hypoxic cells. The radiation response was significantly improved by the use of hypoxic cell radiosensitizers such as nimorazole or misonidazole, or by allowing the mice to breathe oxygen or carbogen during irradiation. In contrast, the radiation response was significantly impaired by carbon monoxide breathing at a level comparable to what has been observed in heavy smokers. The clamped TCD(sub 50) assay was used to classify cancer chemotherapeutic drugs according to their preferential cytotoxicity towards the different tumor subpopulations. Methotrexate had no effect on hypoxic cells and was only borderline toxic towards aerobic cells. Three drugs had significant effect against oxic cells only (5-fluorouracil, bleomycin and cisplatin). Similarly, three drugs were toxic towards hypoxic cells only (etoposide, carmustine, and mitomycin c). Three drugs were effective towards both cell types (vincristine, adriamycin, cyclophosphamide). Hypoxic cells in areas with insufficient blood supply, poor nutrition and increased acidity is known to be highly sensitive to hyperthermia. In a study where cisplatin, heat and x-rays were given together, the local tumor control was not improved when compared to radiation + heat, apparently due to a lack of enhancement in the killing of hypoxic cells. These studies have demonstrated the influence of tumor oxygenation on tumor response to treatment with drugs, hyperthermia and irradiation. New strategies targeted also against perfusion-limited hypoxia is needed. (Abstract Truncated) (Atomindex citation 26:036864)