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Effect of a change in reactor power on response of murine solid tumors in vivo, referring to impact on quiescent tumor cell population.
International Journal of Radiation Biology 2018 December 18
PURPOSE: To examine the effect of a change in reactor power on the response of solid tumors, referring to impact on quiescent (Q) tumor cell population.
MATERIALS AND METHODS: Tumor-bearing mice received 5-bromo-2-deoxyuridine (BrdU) to label all proliferating (P) tumor cells, and were treated with boronophenylalanine-10 B (BPA) or sodium mercaptododecaborate-10 B (BSH). After reactor neutron beam irradiation at a power of 1 or 5 MW with an identical beam spectrum, cells from tumors were isolated and incubated with a cytokinesis blocker. The responses of BrdU-unlabeled Q and total (= P + Q) tumor cells were assessed based on the frequencies of micronucleation using immunofluorescence staining for BrdU.
RESULTS: After neutron irradiation with or without 10 B-carrier, radio-sensitivity was reduced by decreasing reactor power in both cells, especially in Q cells and after irradiation with BPA. The values of relative and compound biological effectiveness were larger at a power of 5 MW and in Q cells than at a power of 1 MW and in total cells, respectively. The sensitivity difference between total and Q cells was widened when combined with 10 B-carrier, especially with BPA, and through decreasing reactor power.
CONCLUSION: 5 MW is more advantageous than 1 MW for boron neutron capture therapy.
MATERIALS AND METHODS: Tumor-bearing mice received 5-bromo-2-deoxyuridine (BrdU) to label all proliferating (P) tumor cells, and were treated with boronophenylalanine-10 B (BPA) or sodium mercaptododecaborate-10 B (BSH). After reactor neutron beam irradiation at a power of 1 or 5 MW with an identical beam spectrum, cells from tumors were isolated and incubated with a cytokinesis blocker. The responses of BrdU-unlabeled Q and total (= P + Q) tumor cells were assessed based on the frequencies of micronucleation using immunofluorescence staining for BrdU.
RESULTS: After neutron irradiation with or without 10 B-carrier, radio-sensitivity was reduced by decreasing reactor power in both cells, especially in Q cells and after irradiation with BPA. The values of relative and compound biological effectiveness were larger at a power of 5 MW and in Q cells than at a power of 1 MW and in total cells, respectively. The sensitivity difference between total and Q cells was widened when combined with 10 B-carrier, especially with BPA, and through decreasing reactor power.
CONCLUSION: 5 MW is more advantageous than 1 MW for boron neutron capture therapy.
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