References
- Boyd A. L., Orme T. W. Transformation of mouse cells after infection with ultraviolet irradiation-inactivated herpes simplex virus Type 2. International Journal of Cancer 1975; 16: 526–538
- Hahn E. W., Alfieri A. A., Kim J. H. Increased cures using fractionated exposure of X-irradiation and hyperthermia in the local treatment of the Ridgeway Osteogenic Sarcoma in Mice. Radiology 1974; 113: 199–202
- Hahn E. W., Alfieri A. A., Kim J. H. The significance of fractionation regimens in radiation and combined hyperthermia using a murine fibrosarcoma. Cancer 1978; 42: 2596–2599
- Maher J., Urano M., Rice L., Suit H. D. Thermal resistance in a spontaneous murine tumour. British Journal of Radiology 1981; 54(648)1086–1090
- Meyer J. L., Van Kersen I., Becker B., Hahn G. M. The significance of thermotolerance after 41°C hyperthermia: in vivo, in vitro tumor and normal tissue investigations. International Journal of Radiation Oncology, Biology, Physics 1985; 11: 973–981
- Nielson O. S., Overgaard J., Kamura T. Influence of thermotolerance on the interaction between hyperthermia and radiation in a solid tumour in vivo. British Journal of Radiology 1983; 56(664)267–273
- Nielson O. S., Overgaard J. Importance of preheating temperature and time for the induction of thermotolerance in a solid tumour in vivo. British Journal of Cancer 1982; 46: 894–903
- Nutter R. L., Gridley D. S., Slater J. M., McMillan P. J. Responses of mouse spleen morphology to the growth of subcutaneously injected virally transformed cells. Anatomical Record (New York) 1980; 197: 363–368
- Wheldon T. E., Kingston E. C., Ledda J. L. Hyperthermia response and thermotolerance capacity of an experimental rat tumour with occluded blood flow. European Journal of Cancer and Clinical Oncology 1982; 18(10)1007–1015