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| MO-E115-GePD-F1-3 | Fluoroscopy Xray Field to Image Receptor Alignment Comparing 3 and 4% SID Requirement to 80% Overlap Requirement Weiyuan Wang*, University of Oklahoma Health Science Center, Oklahoma City, OK |
| MO-I345-GePD-F1-2 | Calibration of a Thermoluminescent Dosimeter Worn Over Leadaprons in Fluoroscopy Guided Procedures A Quintero1,2 , G Patino2 , A Soriano3 , J Palma3 , J Vilar3 , M Pujades3 , N Llorca3 , F Ballester4 , J Vijande4*, C Candela3 , (1) Grupo de Fisica Nuclear Aplicada y Simulacion, Universidad Pedagogica y Tecnologica de Colombia (UPTC), Tunja (Boyaca), 150003, Colombia (2) Department of Atomic, Molecular and Nuclear Physics, Universitat de Valencia (UV),Burjassot (Valencia) 46100, Spain (3) Centro Nacional de Dosimetria (CND), Instituto Nacional de Gestion Sanitaria, Valencia 46009, Spain (4) Unidad Mixta de Investigacion en Radiofisica e Instrumentacion Nuclear en Medicina (IRIMED), Instituto de Investigacion Sanitaria La Fe (IIS-La Fe)-Universitat de Valencia (UV) and IFIC (CSIC UV), Burjassot 46100, Spain |
| MO-I345-GePD-F1-5 | Procedure-Room Scattered-Radiation Dose-Rate Distribution Variation with Gantry Angle and Phantom C Guo*, Z Xiong , J Troville , S Rudin , D Bednarek , university at Buffalo (SUNY) School of Med., Buffalo, NY |
| MO-I345-GePD-F6-5 | Review of Patients Undergoing Fluoroscopically-Guided Interventions and External Beam Radiation Therapy Within a Quaternary Care Medical Center A Zhao*, K Wunderle , A Godley , Cleveland Clinic Foundation, Cleveland, OH |
| SU-E-207-1 | Fetal Dose Estimation During Live Fluoroscopy Using a Real-Time Staff Dosimetry System C Morrison*, M Vanderhoek , Henry Ford Health System, Detroit, MI |
| SU-H300-GePD-F6-3 | Development of An Automatic Deep Learning Framework for the Detection of Fiducial Markers in Intrafraction Kilovoltage Images A Mylonas1*, P J Keall1, J T Booth2, T Eade2, D T Nguyen1, (1) ACRF Image X Institute, Sydney Medical School, University of Sydney, Camperdown, New South Wales, Australia, (2) Northern Sydney Cancer Centre, Royal North Shore Hospital, St Leonards, New South Wales, Australia |
| SU-I-GPD-T-20 | Filmless Method for HDR Brachytherapy Applicator Commissioning and Quality Assurance (QA) Using Fluoroscopic Images H Kang*, R Patel , M Mysz , J Roeske , Loyola university Medical Center, Maywood, IL |
| SU-K-KDBRC-1 | A Deep Learning Approach of the Image Based Acquisition of the Position and the Shape of a Lung Tumor Using X-Ray Color Fluoroscopic Images Y Kajihara1*, T Shiinoki2 , F Fujii1 , (1) Yamaguchi University, Ube, Yamaguchi, (2) Yamaguchi University, Ube,Yamaguchi |
| TH-CD-207-4 | Fluoroscopic Skin Dose Calculation Using Scatter Factors Fitted to Analytical Functions M DeLorenzo1*, A Goode2 , (1) University of Virginia Health Systems, Charlottesville, VA, (2) University of Virginia Health Systems, Charlottesville, VA |
| TH-CD-207-12 | Patient Brain-Dose Estimation for Fluoroscopically-Guided Neuro-Interventional Procedures Z Xiong*, C Guo, J Troville, S Rudin, D R Bednarek, The State University of New York at Buffalo, Buffalo, NY |
| TU-C930-GePD-F6-1 | A Robust Tracking Algorithm for Implanted Marker of Fluoroscopic Images in a Real-Time Tumor-Tracking System K Miyazaki1*, Y Fujii1 , T Umekawa1 , T Yamada1 , T FUJII2 , N Miyamoto2 , (1) Hitachi, Ltd., Hitachi-shi, Ibaraki,(2) Hokkaido University, Sapporo, Hokkaido |
| TU-E115-GePD-F8-1 | Comparing Radiation Dose Between Commercially Available State-Of-The-Art Interventional Fluoroscopy Systems in Vitro and in Patients L Trunz*, D Eschelman , J Dave , Thomas Jefferson University, Philadelphia, PA |
| TU-E115-GePD-F8-3 | Evaluation of Fluoroscopic Dose Metrics Predicted by Dose Management Software D Hintenlang1*, K Little2 , X Jiang3 , X Yang4 , N Fitousi5 , (1) Ohio State Univ, Columbus, OH, (2) Ohio State Univ, Columbus, OH, (3) Ohio State University, Columbus, OH, (4) The Ohio State University, Columbus, OH, (5) Qaelum, Leuven, Belgium |
| TU-E115-GePD-F8-4 | Insight On Patients Undergoing Repeated Fluoroscopically Guided Interventional (FGI) Procedures J Dave*, D Eschelman , Z Merritt , C Gonsalves , Thomas Jefferson University, Philadelphia, PA |
| TU-E115-GePD-F8-5 | Monte Carlo Based Reconstruction of Organ Dose in Patients Undergoing PICC and TIPS Fluoroscopically Guided Interventions J Brown1*, D Kwak2 , J Duncan3 , W Bolch4 , (1) ,Gainesville, FL, (2) University of Central Florida College of Medicine, Orlando, Fl, (3) Mallinckrodt Institute of Radiology, Washington University School of Medici, Saint Louis, MO, (4) university Florida, Gainesville, FL |
| TU-E115-GePD-F8-6 | Scatter Originating From Angiography X-Ray Tubes Is a Substantial Contributor to Occupational Radiation Dose A Tao*, D Miller , M Hindal , K Fetterly , Mayo Clinic, Rochester, MN |
| WE-AB-DBRA-3 | Deformable Registration to Align Prostate Brachytherapy Seeds Identified Using X-Ray Projections to MRI for Accurate Post-Implant Dosimetry WT Hrinivich1*, S Park2, D Song1, J Lee1, (1) Department of Radiation Oncology and Molecular Radiation Sciences, Johns Hopkins University, Baltimore, MD (2) Department of Diagnostic Radiology, Johns Hopkins University, Baltimore, MD |
| WE-C1000-GePD-F8-3 | Effects of Beam Modulation Schemes On Image Quality in Digital Tomosynthesis System D Kim*, D Lee , H Lee , H Kim , Z CHAO , M Lee , H Kim , Yonsei University, Wonju, Gangwon |
| WE-C930-GePD-F8-1 | Assessing Changes in Reference Point Air Kerma for Image Guided Interventions Following An X-Ray Angiography Equipment Upgrade M Supanich*, H Ai , Rush University Medical Center, Chicago, IL |