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main:references [2020/05/11 17:17] bshirley |
main:references [2020/05/11 17:18] bshirley |
14. Li Y, Shirley BC, Wilkins RC, Norton F, Knoll JHM, Rogan PK. [[http://adcidewiki.cytognomix.com/files/pubs/LiRPD2019.pdf | RADIATION DOSE ESTIMATION BY COMPLETELY AUTOMATED INTERPRETATION OF THE DICENTRIC CHROMOSOME ASSAY]]. Radiation Protection Dosimetry, ncy282. doi: 10.1093/rpd/ncy282 (2019) | 14. Li Y, Shirley BC, Wilkins RC, Norton F, Knoll JHM, Rogan PK. [[http://adcidewiki.cytognomix.com/files/pubs/LiRPD2019.pdf | RADIATION DOSE ESTIMATION BY COMPLETELY AUTOMATED INTERPRETATION OF THE DICENTRIC CHROMOSOME ASSAY]]. Radiation Protection Dosimetry, ncy282. doi: 10.1093/rpd/ncy282 (2019) |
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15. Rogan PK. [[https://www.cytognomix.com/wp-content/uploads/2019/11/RoganMGMPublishedversion.pdf | Multigene signatures of responses to chemotherapy derived by biochemically-inspired machine learning]]. Molecular Genetics and Metabolism 128 (2019): 45-52. | 15. Rogan PK, Mucaki EJ, Lu R, Shirley BC, Waller E, Knoll JHM. [[https://doi.org/10.1371/journal.pone.0232008 | Meeting radiation dosimetry capacity requirements of population-scale exposures by geostatistical sampling]]. PLoS ONE 15(4): e0232008. doi: 10.1371/journal.pone.0232008 (2020) |
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16. Rogan PK, Mucaki EJ, Lu R, Shirley BC, Waller E, Knoll JHM. [[https://doi.org/10.1371/journal.pone.0232008 | Meeting radiation dosimetry capacity requirements of population-scale exposures by geostatistical sampling]]. PLoS ONE 15(4): e0232008. doi: 10.1371/journal.pone.0232008 (2020) | |