References
- Sakurai T, Sugiyama M, Sugita M, et al. The effect of irradiation combined with hyperthermia in the treatment of head and neck cancer. Head Neck Cancer 1984; 11: 172
- Ishida M. Cultured human cancerous cells. Established cell line originating from the human paranasal sinus. Jap J Otol 1978; 81: 587–603
- Gray J W, Coffino P. Cell cycle analysis by flow cytometry. Methods in enzymology. Academic Press, New York 1979; Vol. LVIII: 233–48
- Sugiyama M, Sakashita T, Cho J S, Nakai Y. Immunological and biochemical properties of tonsillar lymphocytes. Acta Otolaryngol (Stockh) 1984, Suppl 416: 45–55
- Westra A, Dewey W C. Variation in sensitivity to heat shock during the cell-cycle of Chinese hamster cells in vitro. Int J Radiat Biol 1971; 19: 467–77
- Henle K J, Dethlefsen L A. Time-temperature relationships for heat-induced killing of mammalian cells. Ann NY Acad Sci 1980; 335: 234–53
- Verma A K, Zibell J. Hyperthermia and polyamine biosynthesis: Decreased ornithine decarboxylase induction in skin and kidney after heat shock. Biochem Biophys Res Com 1985; 126: 156–62
- Gerner E W, Stickney D G, Herman T S, Fuller D JM. Polyamines and polyamine biosynthesis in cells exposed to hyperthermia. Radiat Res 1983; 93: 340–52
- Fuller D JM, Gerner E W. Sensitization to heat by polyamines and their analogs. Radiat Res 1983; 95: 124–9
- Miyakoshi J, Hiraoka M, Oda W, Takahashi M, Abe M, Inagaki C. Effects of methylglyoxal bis (guanylhydrazone) on tumour and skin responses to hyperthermia in mice. Int J Radiat Biol 1984; 46: 287–91
- Henle K J, Leeper D B. Effects of hyperthermia (45°) on macromolecular synthesis in Chinese hamster ovary cells. Cancer Res 1979; 2665–74
- Sato C, Nakayama T, Kojima K, Nishimoto Y, Nakamura W. Effects of hyperthermia on cell surface charge and cell survival in mastocytoma cells. Cancer Res 1981; 41: 4107–10
- Ven Bergen en Henegouwen PMP, Jordi W JR, Van Dongen G, Remarkers F CS, Amesz H, Linne-Mans W AM. Studies on a possible relationship between alterations in the cytoskeleton and induction of heat shock protein synthesis in mammalian cells. Int J Hypertherm 1985; 1: 69–83
- Kim S H, Kim J H, Hahn E W. The enhanced killing of irradiated HeLa cells in synchronous culture by hyperthermia. Radiat Res 1976; 66: 337–45
- Bhuyan B K, Day K J, Edgerton C E, Ogunbase O. Sensitivity of different cell lines and of different phases in the cell cycle to hyperthermia. Cancer Res 1977; 37: 3780–4
- Gerner E W, Schneider M J. Induced thermal resistance in HeLa cells. Nature 1975; 256: 500–2
- Henle K J, Leeper D B. Interaction of hyperthermia and radiation in CHO cells: Recovery kinetics. Radiat Res 1976; 66: 505–18
- Urano M, Rice L C, Montoya V. Studies on fractionated hyperthermia in experimental animal systems. II. Response of murine tumors to two or more doses. Int J Radiat Oncol Biol Phys 1982; 8: 227–33
- Ohtsuka K, Nakamura W. Modification of the thermal sensitivity of the murine foot and tumor by prior hypoxic treatment. Int J Hypertherm 1986; 2: 65–73
- Nielsen O S, Overgaard J. Influence of time and temperature on the kinetics of thermotolerance in L1A2 cells in vitro. Cancer Res 1982; 42: 4190–6
- Rhee J G, Song C W, Levitt S H. Changes in thermosensiti vity of mouse mammary carcinoma following hyperthermia in vivo. Cancer Res 1982; 42: 4485–9
- Rice G C, Gray J W, Dean P N, Dewey W C. Fluorescenceactivated cell sorting analysis of the induction and expression of acute thermal tolerance within the cell cycle. Cancer Res 1984; 44: 2368–76
- Read R A, Fox M H, Bedford J S. The cell cycle dependence of thermotolerance II. CHO cells heated at 45.0°C. Radiat Res 1984; 98: 491–505