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| MO-B-TRACK 6-3 | Predicting PD-L1 Expression Level in Non-Small Cell Lung Cancer On Computed tomography Using Machine Learning T Shiinoki*, K Fujimoto, Y Kawazoe, Y Yuasa, M Kajima, Y Manabe, T Hirano, K Matsunaga, H Tanaka, Yamaguchi University |
| PO-GePV-E-14 | Implementation of Ra-223 Radiopharmaceutical Program in Radiation Oncology at a Small Community Cancer Center S Lee*, G Lasio, M Guerrero, H Xu, S Chen, Y Kwok, University of Maryland School of Medicine, Baltimore, MD |
| PO-GePV-M-119 | Improvement of MVCT Image Quality for Adaptive Helical Tomotherapy Using CycleGAN-Based Image Synthesis with Small Datasets D Lee*1,3, H Cho1, Y Han2,3, (1) Yonsei University, Wonju, KR, (2) Sungkyunkwan University, Seoul, KR (3) Samsung Medical Center, Seoul, kr |
| PO-GePV-M-131 | Estimation of Uncertainty in Deformable Image Registration Based Daily Dose Accumulation for Head and Neck Cancer J Garcia Alvarez*, K Kainz, H Zhong, C Schultz, X Li, Medical College of Wisconsin, Milwaukee, WI |
| PO-GePV-T-177 | A New Generation of X-Ray Irradiator for Preclinical Research: Dosimetric Characterization M Rezaee*, J Wong, Johns Hopkins University, School of Medicine, Department of Radiation Oncology and Molecular Radiation Sciences, Baltimore, MD |
| PO-GePV-T-292 | Dose Prediction Using Three-Dimensional Convolutional Neural Network for Nasopharyngeal Carcinoma with Tomotherapy Y Liu1,3*, G Zhang1, Z Chen2, J Wang3, X Wang3, B Qu3,4, S Xu3,4, (1) Beihang University, Beijing, BJ, CN, (2) Manteia Medical Technologies, Xiamen, CN, (3) PLA General Hospital, Beijing, BJ, CN, (4) Beijing Advanced Innovation Center for Big Data-Based Precision Medicine, School of Medicine and Engineering, Beihang University, Beijing, 100191, China; and Key Laboratory of Big Data-Based Precision Medicine (Beihang University), Ministry of Industry and Information Technology |
| PO-GePV-T-318 | Field Junction Technique for Total Body Irradiation Using Tomotherapy with TomoDirect Mode Y Suetsugu1*, N Higashi2, Y Fukuyama3, K Inoue1, K Matsumoto4, H Terashima2, T Sasaki1, (1) Kyushu Univ. , Fukuoka-shi, Fukuoka-ken, JP, (2) Harasanshin Hosp. , Fukuoka-shi, Fukuoka-ken, JP, (3) Fukuoka Tokushukai Hosp. , Kasuga-shi, Fukuoka-ken, JP , (4) Kurume Univ. Hosp. , Kurume-shi, Fukuoka-ken, JP |
| PO-GePV-T-332 | Comparing Ideal and Realistic Surrogate Motions with the Radixact Synchrony System K Jeong*, L Goddard, W Tome, Montefiore Medical Center, Bronx, NY |
| PO-GePV-T-422 | Characterization of Single-Dose Radiotherapy (SDRT) Performance in a New High-Speed Ring Gantry-Based LINAC System OM Oderinde1*, S Khan1, A Da Silva1, S Tian2, X Yang2, K Higgins2, SM Shirvani1, G Kuduvalli1, (1) RefleXion Medical, Hayward, CA,(2) Emory University, Atlanta, GA |
| SU-F-TRACK 6-5 | BEST IN PHYSICS (MULTI-DISCIPLINARY): Real-Time Dose-Optimized Multi-Target MLC Tracking for Locally Advanced Prostate Cancer E Hewson1*, D Nguyen1,2,3, J Booth3,4, P Keall1, L Mejnertsen1, (1) ACRF Image X Institute, University of Sydney School of Health Sciences, Sydney, NSW, AU, (2) School of Biomedical Engineering, University of Technology Sydney, NSW, AU, (3) Northern Sydney Cancer Centre, Royal North Shore Hospital, Sydney, NSW, AU, (4) School of Physics, University of Sydney, Sydney, NSW, AU |
| SU-IePD-TRACK 6-6 | Verification of a Cost-Effective and Cerrobend-Free Workflow for Customized 3D-Printing Based Skin Collimation M Polizzi*, J Sohn, S Kim, Virginia Commonwealth University, Richmond, VA |
| SU-IePD-TRACK 6-7 | Correction Factors for a Planar Windowless Extrapolation Chamber Measuring Surface Absorbed Dose to Water From An Unsealed Thin-Film Alpha-Emitting Radionuclide A Khan*, W Culberson, L DeWerd, Department of Medical Physics, School of Medicine and Public Health, University of Wisconsin-Madison, Madison, WI |
| TH-C-TRACK 5-1 | A Novel 4D Dose Accumulation Algorithm for Predicting Dose to Organs at Risk During Motion Synchronized Treatments On Radixact W Ferris*, W Culberson, J Bayouth, L DeWerd, University of Wisconsin, Madison, WI |
| TH-CD-TRACK 8-0 | Therapy: Adaptive Therapy AI Software Planning Systems D Schofield1*, N Dwivedi2*, A Schulte3*, N Dogan4*, L Schulte5*, (1) AdventHealth Orlando, Clermont, FL, (2) Mim Software, Inc., (3) TheraPanacea, Paris, FR, (4) University of Miami, Miami, FL, (5) Siris Medical |
| TH-CD-TRACK 8-1 | The Ghost in the Shell: Understanding How AI Can Improve Adaptive Radiation Therapy Workflows D Schofield1*, N Dwivedi2*, A Schulte3*, N Dogan4*, L Schulte5*, (1) AdventHealth Orlando, Clermont, FL, (2) Mim Software, Inc., (3) TheraPanacea, Paris, FR, (4) University of Miami, Miami, FL, (5) Siris Medical |
| TH-CD-TRACK 8-2 | Automated Adaptive Assessment Utilizing On-Board Imaging and Monte Carlo Dose Calculation D Schofield1*, N Dwivedi2*, A Schulte3*, N Dogan4*, L Schulte5*, (1) AdventHealth Orlando, Clermont, FL, (2) Mim Software, Inc., (3) TheraPanacea, Paris, FR, (4) University of Miami, Miami, FL, (5) Siris Medical |
| TH-CD-TRACK 8-3 | Background of ART-Plan™ Proposal for ART-Plan™ D Schofield1*, N Dwivedi2*, A Schulte3*, N Dogan4*, L Schulte5*, (1) AdventHealth Orlando, Clermont, FL, (2) Mim Software, Inc., (3) TheraPanacea, Paris, FR, (4) University of Miami, Miami, FL, (5) Siris Medical |
| TH-CD-TRACK 8-4 | Varian's Adaptive Planning Solution - Online or Offline D Schofield1*, N Dwivedi2*, A Schulte3*, N Dogan4*, L Schulte5*, (1) AdventHealth Orlando, Clermont, FL, (2) Mim Software, Inc., (3) TheraPanacea, Paris, FR, (4) University of Miami, Miami, FL, (5) Siris Medical |
| TH-CD-TRACK 8-5 | InsightRT: Automated Adaptive Therapy Decision Support and Insurance Authorization D Schofield1*, N Dwivedi2*, A Schulte3*, N Dogan4*, L Schulte5*, (1) AdventHealth Orlando, Clermont, FL, (2) Mim Software, Inc., (3) TheraPanacea, Paris, FR, (4) University of Miami, Miami, FL, (5) Siris Medical |
| TH-CD-TRACK 8-6 | Q&A D Schofield1*, N Dwivedi2*, A Schulte3*, N Dogan4*, L Schulte5*, (1) AdventHealth Orlando, Clermont, FL, (2) Mim Software, Inc., (3) TheraPanacea, Paris, FR, (4) University of Miami, Miami, FL, (5) Siris Medical |
| TU-EF-TRACK 4-8 | Thermoacoustic Range Verification During Pencil Beam Delivery of a Clinical Plan to An Abdominal Imaging Phantom S Patch1*, C Nguyen2, M Cohilis3, K Souris4, J Lambert5, S Ono6, T Lynch7, G Janssens8, R Labarbe9, (1) UW-Milwaukee, Milwaukee, WI, (2) Uw-milwaukee, ,,(3) University catholique de Louvain, Bruxelles, ,BE, (4) UCL, Brussels, ,BE, (5) The Rutherford Cancer Centres, ,,(6) Computerized Imaging Reference Systems, Inc, ,,(7) CIRS, Norfolk, VA, (8) Ion Beam Applications SA, Louvain-la-neuve, ,BE, (9) Ion Beam Applications (IBA), Louvain-la-neuve, ,BE |
| TU-IePD-TRACK 3-1 | A Method to Select Optimal Candidates for Adaptive Radiation Therapy (ART) in Anal Cancer O Dona1*, D Horowitz1,2, M Savacool1, K Rayn1, F Li1, M Price3, C Wuu1, L Kachnic1,2, (1) Columbia University, New York, NY, (2) Herbert Irving Comprehensive Cancer Center, New York, NY, (3) Vanderbilt University Medical Center, Nashville, TN, |
| WE-IePD-TRACK 3-1 | Change in ADC as An Indicator of Radionecrosis M N Gwilliam*, T Muniz, J Xie, B Driscoll, M Butler, C Coolens, Princess Margaret Cancer Centre, Toronto, ON |
| WE-IePD-TRACK 5-7 | Validation of Monte Carlo Simulated Tc-99m Absorbed-Dose-To-Water Inside a Custom SPECT/CT Phantom Using Active and Passive Dosimeters: A Novel Approach to Benchmarking Monte Carlo Methods for Targeted Radionuclide Therapy Dosimetry A Bertinetti1*, M Rodrigues2, B Palmer1, C Hammer1, J Hull1, H Vija2, W Culberson1, (1) University of Wisconsin-Madison, Madison, WI, (2) Siemens Healthineers |
| WE-IePD-TRACK 6-3 | Development of Radioimmunotherapy for Brain Tumors Using In-Vitro Assays Y Walter*, A Hubbard, C Thiegs, K Djam, H Kramer, A Benoit, E Yank, O Salas, M Schwengler, S Mckinley, J Lewison, A Ekpenyong, Creighton University, Omaha, NE |