References
- Alper T. Cell Survival after Low Doses of Radiation, T. Alper. Institute of Physics and John Wiley, London 1975
- Alper T. Cellular Radiobiology. Cambridge University Press, Cambridge 1979
- Barendsen G.W. Variations in radiation responses among experimental tumours. Radiation Biology in Cancer Research, R.E. Meyn, H.R. Withers. Raven Press, New York 1980
- Barranco S.C., Romsdahl M.M., Humphrey R.M. The radiation response of human malignant melanoma cells grown in vitro. Cancer Research 1971; 31: 830–833
- Bender M.A., Gooch P.C. The kinetics of X-ray survival of mammalian cells in vitro. International Journal of Radiation Biology 1962; 5: 133–145
- Berry R.J. Population distribution in tumours and normal tissues: A guide to tissue radiosensitivity. The Biological and Clinical Basis of Radiosensitivity, M. Friedman. Charles C. Thomas, Illinois 1974
- Chadwick K.H., Leenhouts H.P. A molecular theory of cell survival. Physics in Medicine and Biology 1973; 18: 78–87
- Courtenay V.D., Smith I.E., Peckham M.J., Steel G.G. In vitro and in vivo radiosensitivity of human tumour cells obtained from a pancreatic carcinoma xenograft. Nature 1978; 263: 771–772
- Curtis S.B. Lethal and potentially lethal lesions induced by radiation—a unified repair model. Radiation Research 1986; 106: 252–270
- Deacon J.M., Peckham M.J., Steel G.G. The radioresponsiveness of human tumours and the initial slope of the cell survival curve. Radiotherapy and Oncology 1984; 2: 317–323
- Fertil B., Malaise E.P. Inherent cellular radiosensitivity as a basic concept for human tumour radiotherapy. International Journal of Radiation Oncology, Biology and Physics 1981; 7: 621–629
- Fowler J.F. What next in fractionated radiotherapy?. British Journal of Cancer 1984; 49(Suppl. IV)285–300
- Hall E.J. Radiation dose-rate: a factor of importance in radiobiology and radiotherapy. British Journal of Radiology 1972; 45: 81–97
- Kelland L.R., Steel G.G. Dose-rate effects in the radiation response of four human tumour xenografts. Radiotherapy and Oncology 1986; 5: 321–331
- Kellerer A.M., Rossi H.H. The theory of dual radiation action. Current Topics in Radiation Research 1972; 8: 85–158
- Peacock J.H., Cassoni A.M., McMillan T.J. Radiosensitive human tumour cell lines may not be recovery deficient. International Journal of Radiation Biology 1988; 54: 945–953
- Steel G.G. The radiobiology of human tumour cells. Megavoltage Radiotherapy 1937–1987, P.N. Plowman, A.N. Harnett, 1988; 116–120, British Journal of Radiology, Suppl. 22
- Steel G.G., Deacon J.M., Duchesne G.M., Horwich A., Kelland L.R., Peacock J.H. The dose-rate effect in human tumour cells. Radiotherapy and Oncology 1987; 9: 299–310
- Steel G.G., Peacock J.H. Why are some human tumours more radiosensitive than others?. Radiotherapy and Oncology 1989; 15: 63–72
- Thames H.D. An ‘incomplete-repair’ model for survival after fractionated and continuous irradiations. International Journal of Radiation Biology 1985; 47: 319–339
- Thames H.D., Withers H.R., Peters L.J., Fletcher G.H. Changes in early and late radiation responses with altered dose fractionation: Implications for dose-survival relationships. International Journal of Radiation Oncology, Biology and Physics 1982; 8: 219–226
- Weichselbaum R.R. Radiation response of human tumour cells in vitro. Radiation Biology in Cancer Research, R.E. Meyn, H.R. Withers. Raven Press, New York 1980
- Williams M.V., Denekamp J., Fowler J.F. A review of α/β ratios for experimental tumours: implications for clinical studies of altered fractionation. International Journal of Radiation Oncology, Biology and Physics 1985; 11: 87–96