Additional file 1 of Multi-scale Monte Carlo simulations of gold nanoparticle-induced DNA damages for kilovoltage X-ray irradiation in a xenograft mouse model using TOPAS-nBio
posted on 2021-10-25, 03:14authored byAlexander P. Klapproth, Jan Schuemann, Stefan Stangl, Tianwu Xie, Wei Bo Li, Gabriele Multhoff
Additional file 1: Table S1.Simulation results and standard deviations - 100 kVp, front cell, without AuFeNPs. Table S2. Simulation results and standard deviations - 100 kVp, front cell, with AuFeNPs. Table S3. Simulation results and standard deviations - 100 kVp, center cell, without AuFeNPs. Table S4. Simulation results and standard deviations - 100 kVp, center cell, with AuFeNPs. Table S5. Simulation results and standard deviations - 100 kVp, back cell, without AuFeNPs. Table S6. Simulation results and standard deviations - 100 kVp, back cell, with AuFeNPs. Table S7. Simulation results and standard deviations - 200 kVp, front cell, without AuFeNPs. Table S8. Simulation results and standard deviations - 200 kVp, front cell, with AuFeNPs. Table S9. Simulation results and standard deviations - 200 kVp, center cell, without AuFeNPs. Table S10. Simulation results and standard deviations - 200 kVp, center cell, with AuFeNPs. Table S11. Simulation results and standard deviations - 200 kVp, back cell, without AuFeNPs. Table S12. Simulation results and standard deviations - 200 kVp, back cell, with AuFeNPs.
Funding
Deutsche Forschungsgemeinschaft Graduate School, Technische Universität München Division of Cancer Epidemiology and Genetics, National Cancer Institute