Discrimination of human tumor radioresponsiveness using low-dose rate irradiation.
Affiliation
Department of Oncology, Sahlgrenska University Hospital, Gothenburg, Sweden.Issue Date
1998-12-01
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PURPOSE: Evaluation of the theoretical and practical value of using low-dose rate (LDR) irradiation to increase the resolution of radiosensitivity testing of primary human tumors using clonogenic assays. METHODS AND MATERIALS: Fourteen human tumor cell lines were assessed for surviving fraction at 2-8 Gy (SF2-SF8) using low-dose rate irradiation and a clonogenic assay. Further data were collected from the literature for 64 low-dose rate irradiation survival curves from human tumor cell lines. The data were grouped into five different radioresponsiveness categories (A-E). An analysis was made of the ability of the graded survival levels to discriminate between the different radioresponse groups and compared with previous analyses for high-dose rate SF2. Fifteen human cervical carcinoma specimens were analysed for SF2 and SF3.5 following high- and low-dose rate irradiation. RESULTS: Low-dose rate irradiation increased the spread of tumor cell line radiosensitivity data and the ability to discriminate between radioresponse groups was greater at low than at high-dose rates. Using low-dose rate irradiation on primary tumor specimens and a soft agar clonogenic assay decreased the success rate in obtaining data. The latter dropped from 70% for high-dose rate SF2 to 51% for low-dose rate SF3.5. CONCLUSIONS: The work on cell lines illustrates that low-dose rate irradiation does improve the ability of clonogenic radiosensitivity measurements to discriminate between tumors of different radioresponsiveness groups. However, using low-dose rate irradiation on primary human tumors with a soft agar clonogenic assay was not practical because of reducing the success rate for obtaining data for radiosensitivity measurements.Citation
Discrimination of human tumor radioresponsiveness using low-dose rate irradiation. 1998, 42 (5):1147-53 Int. J. Radiat. Oncol. Biol. Phys.Journal
International Journal of Radiation Oncology, Biology, PhysicsPubMed ID
9869242Type
ArticleLanguage
enISSN
0360-3016Collections
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