References
- Dale R.G. The application of the linear-quadratic dose-effect equation to fractionated and protracted radiotherapy. British Journal of Radiology 1985; 58: 515–528
- Hall E.J. Radiobiology for the Radiologistthird edition. J. B. Lippincott, Philadelphia 1988; 120–122
- Humm J.L. Dosimetric aspects of radiolabelled antibodies for tumour therapy. Journals of Nuclear Medicine 1986; 27: 1490–1497
- Marchese M.J., Hall E.J., Hilaris B.S. Encapsulated iodine-125 in radiation oncology. I Study of the relative biological effectiveness (RBE) using low dose rate irradiation of mammalian cell cultures. American Journal of Clinical Oncology (CCT) 1984; 7: 607–611
- O'Donoghue J.A., Wheldon T.E. Predicted allowable doses to normal organs for biologically targeted radiotherapy. British Journal of Radiology 1988; 61: 264–266
- Stewart F.A., Oussoren Y., Luts A., Begg A.C., Dewit L., Lebesque J., Bartelink H. Repair of sublethal radiation injury after multiple small doses in mouse kidney: an estimate of flexure dose. International Journal of Radiation Oncology, Biology and Physics 1987; 13: 765–772
- 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. Tissue repair capacity and repair kinetics deduced from multifractionated or continuous irradiation regimens with incomplete repair. British Journal of Cancer 1984; 49(VI)263–269
- Thames H.D., Ang K.K., Stewart F.A., van der Schueren E. Does incomplete repair explain the apparent failure of the basic LQ model to predict spinal cord and kidney responses to low doses per fraction. International Journal of Radiation Biology 1988; 54: 13–19