OBJECTIVE: We propose and study a new model aimed at describing the low-dose hyper-radiosensitivity phenomenon appearing in the survival curves of different cell lines. METHODS: The model uses the induced repair assumption, considering that the critical dose at which this mechanism begins to act varies from cell to cell in a given population. The model proposed is compared with the linear-quadratic model and the modified linear-quadratic model, which is commonly used in literature and in which the induced repair is taken into account in a heuristic way. The survival curve for the MCF-7 line of human breast cancer is measured at low absorbed doses and the uncertainties in these doses are estimated using thermoluminiscent dosemeters. RESULTS: It is shown that these multicellular spheroids present low-dose hyper-radiosensitivity. The new model permits an accurate description of the data of two human cell lines (previously published) and of the multicellular spheroids of the MCF-7 line here measured. CONCLUSION: The model shows enough flexibility to account for data with very different characteristics and considers in a faithful way the hypothesis of the repair induction.
OBJECTIVE: We propose and study a new model aimed at describing the low-dose hyper-radiosensitivity phenomenon appearing in the survival curves of different cell lines. METHODS: The model uses the induced repair assumption, considering that the critical dose at which this mechanism begins to act varies from cell to cell in a given population. The model proposed is compared with the linear-quadratic model and the modified linear-quadratic model, which is commonly used in literature and in which the induced repair is taken into account in a heuristic way. The survival curve for the MCF-7 line of humanbreast cancer is measured at low absorbed doses and the uncertainties in these doses are estimated using thermoluminiscent dosemeters. RESULTS: It is shown that these multicellular spheroids present low-dose hyper-radiosensitivity. The new model permits an accurate description of the data of two human cell lines (previously published) and of the multicellular spheroids of the MCF-7 line here measured. CONCLUSION: The model shows enough flexibility to account for data with very different characteristics and considers in a faithful way the hypothesis of the repair induction.
Authors: Sarah A Krueger; George D Wilson; Evano Piasentin; Michael C Joiner; Brian Marples Journal: Int J Radiat Oncol Biol Phys Date: 2010-08-01 Impact factor: 7.038
Authors: Jackie Harney; Nihal Shah; Susan Short; Francis Daley; Nicki Groom; George D Wilson; Michael C Joiner; Michele I Saunders Journal: Radiother Oncol Date: 2004-03 Impact factor: 6.280
Authors: J J Gordon; K Snyder; H Zhong; K Barton; Z Sun; I J Chetty; M Matuszak; R K Ten Haken Journal: Phys Med Biol Date: 2015-08-21 Impact factor: 3.609