Journal Articles by Project

Computational Phantoms for Blood Dosimetry to Model the Impact of Radiotherapy on the Immune System

1. Correa-Alfonso, C.M., Withrow, J.D., Domal, S.J. et al. A mesh-based model of liver vasculature: implications for improved radiation dosimetry to liver parenchyma for radiopharmaceuticals. EJNMMI Phys 9, 28 (2022). https://doi.org/10.1186/s40658-022-00456-0
2. Xing, S., Shin, J., Pursley, J., Correa-Alfonso, C. M., Depauw, N., Domal, S., Withrow, J., Bolch, W., Grassberger, C., & Paganetti, H. (2022). A dynamic blood flow model to compute absorbed dose to circulating blood and lymphocytes in liver external beam radiotherapy. Physics in medicine and biology, 67(4), 10.1088/1361-6560/ac4da4. https://doi.org/10.1088/1361-6560/ac4da4
3. Shin, J., Xing, S., McCullum, L., Hammi, A., Pursley, J., Correa, C. A., Withrow, J., Domal, S., Bolch, W., Paganetti, H., & Grassberger, C. (2021). HEDOS-a computational tool to assess radiation dose to circulating blood cells during external beam radiotherapy based on whole-body blood flow simulations. Physics in medicine and biology, 66(16), 10.1088/1361-6560/ac16ea. https://doi.org/10.1088/1361-6560/ac16ea

MIRDcalc – A Community Tool for Reporting Patient Organ Doses in Nuclear Medicine, CT, and Hybrid Imaging

Implementation of the J45 Phantoms for RERF Survival Organ Dosimetry

Microscale Tissue Models for Alpha Particle Dosimetry

Dose Reduction in Pediatric Molecular Imaging – Digital Phantoms and Organ Dosimetry

Risk of Cancer in Children and Adolescence Associated with Medical Imaging