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Taxonomy: IM/TH- Image registration : X-ray
BReP-SNAP-I-3 | Algorithm for Optimization of the X-Ray Beam and Filter Parameters in Dual-Energy Imaging Systems I Romadanov1*, M Sattarivand2, (1) Nova Scotia Health Authority, Halifax, NS, CA, (2) Nova Scotia Cancer Centre, Halifax, NS, CA |
BReP-SNAP-I-4 | An Auto-Accessing Method for Reducing the Reading Time of Digital Breast Tomosynthesis with a Synthetic Mammogram H Kim*, S Cho, KAIST, Daejeon, KR |
BReP-SNAP-I-13 | Dedicated Breast CT: Comparative Evaluation of Multi-Scale Residual Dense Network and Residual Encoder-Decoder Network for Deep Learning-Driven Sparse-View Reconstruction Z Fu, H Tseng, S Vedantham*, A Karellas, A Bilgin, University of Arizona, Tucson, AZ |
BReP-SNAP-I-18 | Electronic X-Ray Field Alignment Detection E mckenzie1*, I Rutel2, (1) University of Alabama at Birmingham, Birmingham, AL, (2) University of Oklahoma Health Science Center, Oklahoma City, OK |
BReP-SNAP-I-25 | Implementing a Phase Space File Framework in MCGPU R Trevisan Massera1,2*, R Thomson2, A Tomal1, (1) University of Campinas, BR, (2) Carleton Univ, Ottawa, ON |
BReP-SNAP-I-30 | Investigation of the NPS as a Tool for Routine Quality Control of Digital X-Ray Systems M Ghorbanzade*, I Elbakri, CancerCare Manitoba, Winnipeg, MBCA, |
BReP-SNAP-I-33 | Maximum Likelihood-Based Charge Sharing Correction for Spectroscopic X-Ray Detectors R Lalonde1*, K Iniewski2, J Tanguay1, (1) Ryerson University, Toronto, ON, CA, (2) Redlen Technologies, Saanichton, BC, CA |
BReP-SNAP-I-52 | TG116 Exposure Index Calibration: Measured Variation as a Function of Beam Quality B Luckett1*, V Garcia1, D Gauntt2, I Rutel1, (1) University of Oklahoma Health Science Center, Oklahoma City, OK, (2) UAB Medical Center, Birmingham, AL |
BReP-SNAP-I-55 | Using Exposure Index to Develop Thickness-Based Technique Chart for Cross-Table Lateral Hip Radiography C Topbas*, G Fong, V Singh, K Hulme, X Li, Cleveland Clinic, Cleveland, OH |
BReP-SNAP-M-13 | A Novel Real-Time Markerless Target Tracking Pipeline Based On Faster R-CNN for Lung Cancer Radiotherapy L Deng1,4*, Z Dai2, X Liang3,4, H Zhao4, H Quan1, Y Xie4, (1) Wuhan University, Wuhan, Hubei, CN, (2) The Second Affiliated Hospital of Guangzhou University of Chinese Medicine, Guangzhou, Guangdong, CN, (3) Stanford Univ School of Medicine, Stanford, CA, (4) Shenzhen Institute Of Advanced Technology,Shenzhen, Guangdong, CN |
BReP-SNAP-M-27 | Beam-Energy and Depth-Of-Interaction Estimation in MV Imaging Using a Dual-Ended Readout M Myronakis1*, R Berbeco1, (1) Department of Radiation Oncology, Brigham and Women's Hospital, Dana-Farber Cancer Institute & Harvard Medical School, Boston, MA |
BReP-SNAP-M-28 | Beams-Eye-View Tracking of Prostate Fiducial Markers During VMAT Treatments A Mylonas1,2*, E Hewson1, P Keall1, J Booth3, D Nguyen1,2, (1) ACRF Image X Institute, Faculty of Medicine and Health, The University of Sydney, Sydney, NSW, Australia, (2) School of Biomedical Engineering, University of Technology Sydney, Sydney, NSW, Australia, (3) Northern Sydney Cancer Centre, Royal North Shore Hospital, Sydney, NSW, Australia |
BReP-SNAP-M-32 | Cardiac Substructure Tracking During Ablative Radiotherapy N Hindley1*, C Shieh2, S Lydiard1,3,4, T Reynolds1, P Keall1 (1) ACRF Image X Institute, University of Sydney, NSW, Australia (2) Brain and Mind Research Institute, University of Sydney, NSW, Australia (3) Ingham Institute for Applied Medical Research, NSW, Australia (4) Department of Radiation Oncology, Auckland District Health Board, AU, New Zealand |
BReP-SNAP-M-43 | Compton Scatter Imaging for Tumor Tracking - Initial Experiment with a Photon-Counting Detector K Yang1*, Y Huang2, X Jia2, X Li1, B Liu1, (1) Harvard Medical School, Massachusetts General Hospital, Boston, MA, (2) The University of Texas Southwestern Medical Ctr, Dallas, TX, |
BReP-SNAP-M-44 | Cone Beam CT-Guided Adaptive Strategy in Pre-Operative Gastric Cancer Radiotherapy M Bleeker1*, K Goudschaal1, A Bel1, J-J Sonke1,2, MCCM Hulshof1, A van der Horst1 (1) Amsterdam UMC, University of Amsterdam, Radiation Oncology, Meibergdreef 9, Amsterdam, NL,(2) Netherlands Cancer Institute, Radiation Oncology, Amsterdam, NL |
BReP-SNAP-M-53 | Deep Neural Network-Based Prediction of Dual-Energy Subtraction Images From Single-Energy X-Ray Fluoroscopy: A Feasibility Study J Wang1*, K Ichiji1, N Homma1, X Zhang2, Y Takai3, (1) Tohoku University, Sendai, JP, (2) National Institute of Technology, Sendai College, Sendai, JP, (3) Southern Tohoku BNCT Research Center, Koriyama, JP |
BReP-SNAP-M-68 | Evaluation of Synthetic Single Energy and Dual Energy Radiographs to Predict Markerless Tumor Tracking Accuracy J Roeske1*, H Mostafavi2, R Patel1, F Cassetta1, L Zhu2, (1) Loyola Univ Medical Center, Maywood, IL, (2) Varian Medical Systems,Palo Alto, CA |
BReP-SNAP-M-70 | ExacTrac Imaging Dose for Real Time Tumour Monitoring of Lung SBRT Patients Using Monte Carlo Simulation A Spurway1*, M Sattarivand2, (1) Nova Scotia Health Authority, Halifax, NS, CA, (2) Nova Scotia Cancer Centre, Halifax, NS, CA |
BReP-SNAP-M-99 | Markerless Lung Tumor Tracking Using AI-DE Imaging L Zhu1*, F Arrate2, P Baturin3, P Paysan4, H Mostafavi5, J van Heteren6, F Cassetta7, J Roeske8, S Scheib9, (1) Varian Medical Systems, Palo Alto, CA, (2) Varian Medical Systems, Palo Alto, CA, (3) Varian Medical Systems, Santa Clara, CA, (4) Varian Medical Systems Imaging Laboratory, Daettwil Ag, ,CH, (5) ,Palo Alto, CA, (6) Varian, Palo Alto, CA, (7) Loyola University Chicago, Westmont, IL, (8) Loyola Univ Medical Center, Naperville, IL, (9) Varian Medical Systems, Baden - DAttwil, ,CH |
BReP-SNAP-M-124 | Real Time Monitoring of Anatomy During IMRT and VMAT Breast Radiotherapy Using EPID Imaging B Zwan1*, C Stanton1, H Byrne2, A Briggs, J Booth1, P Keall2, (1) Northern Sydney Cancer Centre, Royal North Shore Hospital, Sydney, NSW, AU, (2) The University of Sydney, Sydney, NSW, AU. |
PO-GeP-I-33 | Anti-Scatter Grid Performance in 2D Breast X-Ray Imaging R Boggs*, M Yester, G Barnes, UAB Medical Center, Birmingham, AL |
PO-GeP-I-35 | Assessment of Image Quality and Dose Reduction Via Grid Elimination Using Statistical Pixel Angiography Over Digital Subtraction Angiography in Interventional Radiology E Olguin*, L Rill, M Arreola, Univ Florida, Gainesville, FL |
PO-GeP-I-54 | Clinical Impact Study of a New High Resolution Fluoroscopic Imager: Analysis of 400,000 Irradiation Events A Kuhls-Gilcrist*, M Hohn, N Xenos, D Marek, Y Hoi, Canon Medical Systems USA, Tustin, CA |
PO-GeP-I-55 | CNR Dependence On Spatial Resolution and Subject Contrast in Phase Contrast CT B Nelson*, S Leng, C McCollough, Mayo Clinic, Rochester, MN |
PO-GeP-I-56 | Comparing Radiation Output and Image Quality Between Factory-Default and Clinically-Used Protocols for a Single-Plane Flat-Panel-Detector Based Fluoroscopy System: A Call for Optimizing Equipment Performance J Dave1*, (1) Thomas Jefferson University, Philadelphia, PA |
PO-GeP-I-72 | Deep Learning-Based Model Observer for Image Quality Evaluation of Digital Breast Tomosynthesis S Choi1*, S Choi2, H Kim3, (1) Yonsei University, Wonju, Gangwon, KR, (2) Emory University School of Medicine, Atlanta, GA, (3) Yonsei University, Wonju, Gangwon, KR |
PO-GeP-I-75 | Design and Fabricating Diagnostic X-Ray Spectrum Unfolding Systems Based On HPGe Detector and CR Film A Mahjoob1, S Sina2*, R Faghihi1, (1)Nuclear Engineering department, School of Mechanical Engineering, Shiraz University, Shiraz, Iran(2) Radiation Research Center, Shiraz University, Shiraz, Iran |
PO-GeP-I-88 | Directly Measuring Peak Skin Dose During Fluoroscopically-Guided Neuroradiology Interventional Surgeries N Quails*, D Laurent, B Corliss, B Hoh, A Polifka, W Fox, L Rill, M Arreola, University of Florida, Gainesville, FL |
PO-GeP-I-91 | Does the Radiation Output From Mobile C-Arms of the Same Vendor Utilizing Different Image-Receptor Technology Differ? J Dave1*, (1) Thomas Jefferson University, Philadelphia, PA |
PO-GeP-I-107 | Estimation of X-Ray Energy Spectrum for CT Scanner From Percentage Depth Dose Measurement Y Hasegawa1*, A Haga1, D Sakata2, Y Kanazawa1, M Tominaga1, M Sasaki1, T Imae3, K Nakagawa3, (1) University of Tokushima, Tokushima, JP, (2) National Institute of Radiological Sciences, Chiba, JP, (3) The University of Tokyo Hospital, Tokyo, JP |
PO-GeP-I-108 | Evaluating Breast Tomosynthesis with a Multi-Projection Observer for Arbitrary Lesion Shapes JG Mainprize*, MJ Yaffe, Sunnybrook Research Institute, Toronto, ON, CA, |
PO-GeP-I-115 | Evaluation of Image Quality in Digital Radiography Based On Marginal Detectability A Scott*, Y Zhou, D Zhang, N Binesh, C Lee, W Bosteder, Cedars-Sinai Medical Center, Los Angeles, CA |
PO-GeP-I-117 | Evaluation of Phantom Image Quality with Curved and Flat Compression Paddle in 2D Mammography P Brunick*, J Yang, Kaiser Permanente Southern California Permanente Medical Group, Pasadena, CA |
PO-GeP-I-121 | Feasibility of An Analytical Medical Image Quality Assessment That Requires No User Input F Eashour*, S Pistorius, University of Manitoba, Winnipeg, MB, CA |
PO-GeP-I-122 | Feasibility of Anatomy-Specific Exposure Index in Clinical Digital Radiography Images Z Long*, L Littrell, B Schueler, Mayo Clinic, Rochester, MN |
PO-GeP-I-128 | Heel Effect and Its KVp Dependence in Mammography V Garcia*, C Stallcup, W Wang, University of Oklahoma Health Science Center, Oklahoma City, OK |
PO-GeP-I-145 | Left Ventricular Assist Device (LVAD) Artifacts in Digital Radiography J Wells*, L Washington, E Samei, Duke University Medical Center, Durham, NC |
PO-GeP-I-146 | Linear Regression for Modeling Common Fluoroscopy Dose Metrics in Cardiac Catheterization Procedures S Mann*, Z Wegermann, M Russ, T Wei, WS Jones, Duke University Medical Center, Durham, NC, |
PO-GeP-I-153 | Monte Carlo Simulation-Based Feasibility Study of Novel Digital Mammograpy System to Reduce Scattered Radiation Y Yoon1*, J Morishita1, J Kim2, K Kim2, (1) Department of Health Sciences, Faculty of Medical Sciences, Kyushu University, Fukuoka, JP, (2) School of Health and Environmental Science, Korea University, Seoul, KR |
PO-GeP-I-163 | Organ Dose Estimation in Body CT Examinations Using a Mathematical Model Based On Planar Scan Range Average Dose R Faghihi1, S Sina2, M Masoudi1*, (1) Nuclear Engineering department,Shiraz University, Shiraz,Iran, (2) Radiation Research Center, Shiraz University,Iran |
PO-GeP-I-177 | Quantitative Analysis for Digital Radiography Systems with Various Grid Ratio Using Image Quality Indicators in Terms of ALARA Principle J Kim*, Y Kang, W Youn, M Park, W Chung, JPI Healthcare Co., LTD., Ansan-si, 41KR, |
PO-GeP-I-185 | Real Time Image Reconstruction Technique for Digital Breast Tomosynthesis-Guided Needle Biopsy P Singh1*, C Choi2, T Vent2, A Maidment3, (1) Radiation Oncology, Perelman School of Medicine, University of Pennsylvania, Philadelphia, PA, (2) Department of Bioengineering, University of Pennsylvania, Philadelphia, PA, (3) Department of Radiology, University of Pennsylvania, Philadelphia, PA |
PO-GeP-I-203 | Tailoring Diagnostic Physics Performance Evaluation to the Imager Technology in Digital Roentgen Ray Imaging: Assessing Image Quality I H Bercha, MSc, MSEE1*, (1) Radiology, University of Cincinnati Medical Center, Cincinnati, OH |
PO-GeP-I-204 | Technique Evaluation of Dose Area Product Measurements for Dual-Energy X-Ray Absorptiometer System J Jimenez*, A Thomas, W Erwin, UT MD Anderson Cancer Center, Houston, TX |
PO-GeP-I-213 | Theoretical Feasibility of Dual-Energy X-Ray Imaging of Respiratory Disease F Basharat*, J Tanguay, Ryerson University, Toronto, ONCA, |
PO-GeP-I-214 | Theoretical Framework for Evaluation of X-Ray Spectra Shape Effects On Dual-Energy Image Quality I Romadanov1*, M Sattarivand2, (1) Nova Scotia Health Authority, Halifax, NS, CA, (2) Nova Scotia Cancer Centre, Halifax, NS, CA |
PO-GeP-I-215 | Tomographic Reconstruction Camera - Clarifying and Visualizing Sources of X-Radiation Using Circular Penumbra Analysis J Brewer1*, A Nicholson1, R Walsh1, J Holzman1, T Bjarnason1,2,3, (1) University of British Columbia Okanagan, Kelowna, CA, (2) University of British Columbia, Vancouver, CA, (3) Interior Health, Kelowna, CA |
PO-GeP-I-223 | Upright Dedicated Cone-Beam Breast CT: Short-Scan, Non-Uniform, Sparse-View Angular Sampling for Radiation Dose Reduction H Tseng, S Vedantham*, A Karellas, University of Arizona, Tucson, AZ |
PO-GeP-I-224 | Usefulness of Novel Temporal Subtraction Technique with Small Region of Interest for Finding Suspicious Lung Nodule On Digital Chest Radiographs M Ozaki1*, J Morishita2, Y Shimizu3, Y Sasaki4,Y Yamashita1, Y Yoon2,H Yabuuchi2(1)Department of Health Sciences, Graduate School of Medical Sciences, Kyushu University, Fukuoka, Japan, (2) Department of Health Sciences, Faculty of Medical Sciences, Kyushu University, Fukuoka, Japan, (3) Department of Radiological Technology, Yamaguchi University Hospital, Ube, Japan,(4)Department of Radiology, Iwate Prefectural Central Hospital, Morioka, Japan |
PO-GeP-M-18 | A Machine Learning Based Fully Automatic Magnification Calculation Method for Hip DR Photography Y Jia1*, H Wang1, X Jin2, H Du1, W Chen1, B Yang2, (1) Shaanxi Key Laboratory of Network Data Intelligent Processing; UCLA School of Medicine, Xi'an, Shaanxi, CN, (2) Xian Honghui Hospital |
PO-GeP-M-104 | CNN Based Organ Segmentation On Chest Radiograph Using Synthetic X-Ray Image Reconstructed From MDCT Sihwan Kim1*, Chulkyun Ahn1, Changyong Heo1,3, Jong-Hyo Kim1,2,3, (1) Seoul National University, Seoul, KR, (2) Seoul National Univ. Hospital, Seoul, KR, (3) Advanced Institutes of Convergence Technology, Suwon, KR |
PO-GeP-M-148 | Development and Evaluation of a Fast Patient Alignment Tool Using Megavoltage-Topogram On Helical TomoTherapy: A Pooled Analysis X Qi*, F Chu, D Low, UCLA, Los Angeles, CA |
PO-GeP-M-256 | Increased DQE Through Use of Light Field Cameras and Thick Scintillators in Megavoltage Imaging B Preusser1*, E Pearson1, P La Riviere1, R Wiersma2, (1) University of Chicago, Chicago, IL (2) University of Pennsylvania, Philadelphia, PA |
PO-GeP-M-348 | Quantification of Prostate Positioning Accuracy and Movement During SBRT with CBCT Imaging K Jones*, Z Grelewicz, J Van Schelt, A Templeton, D Wang, J Turian, Rush University Medical Center, Chicago, IL |
PO-GeP-M-362 | Real-Time Verification and Quantification of Breath-Hold Reproducibility During Treatment for Liver and Lung SBRT A Antolak*, N Woody, K Stephans, P Xia, B Guo, Cleveland Clinic Foundation, Cleveland, OH |
PO-GeP-M-388 | Study On Intelligent Treatment Planning for Left Breast Cancer X He*1, B Su2, R Zhao2, (1)Ruijin Hospital and Shanghai Jiaotong University School of Medicine,Shanghai,CN (2) Shanghai Pulmonary Hospital and Tongji University School of Medicine,Shanghai,CN |
PO-GeP-M-391 | Synthetic Fluoroscopic Image Generation for Tracking Accuracy Validation of Marker-Less Tumor Tracking in Radiotherapy K Miyazaki12*, T Fujii2, T Umekawa2, N Miyamoto1, K Umegaki1, (1) Hokkaido University, Sapporo-shi, Hokkaido, JP, (2) Hitachi, Ltd., Hitachi-shi, Ibaraki, JP |
PO-GeP-M-402 | The Use of Image Reject Analysis to Improve Imaging Within a Radiation Therapy Department L Buckley*, The Ottawa Hospital, Ottawa, ON, CA |
PO-GeP-M-426 | Validation of Intrafraction Motion Review Using Dual Surrogate in Prospective Clinical Study A Cetnar*, A Ayan, G Graeper, M Weldon, K Woods, N Gupta, Ohio State University - James Cancer Hospital, Columbus, OH |
PO-GeP-P-12 | Clinical Review of Radiography Reject and Repeat Rate Changes After Upgrading From CR to DR R Fisher1*, (1) MetroHealth, Cleveland, OH |
PO-GeP-P-26 | A Simple Test Tool to Optimize Protocol in Real Time Fluoroscopic Imaging R Livingstone*, B Pearline, A Singh, N Ahirwar, S Devasahayam, Christian Medical College, Vellore, TN IN, |
PO-GeP-P-32 | Evaluation of Spatial Resolution in Fluoroscopic Imaging Compared to Digital Subtraction Angiography D Ragan1*, T Maguire1, S Schafer2, S Tutton1, S White1, A Gorman3, Y Lu1, Y Liu1, (1) Medical College of Wisconsin, Milwaukee, WI, (2) SIEMENS Medical Systems, Madison, WI, (3) Froedtert Health, Milwaukee, Wi |
PO-GeP-P-52 | Is Average Body Diameter Helpful in Choosing Exposure Technique in PA Chest X-Ray? H Ai1*, (1) Rush University Medical Center, Chicago, IL |
PO-GeP-P-63 | Comparing Auto-Contouring Software Tools of Endometrial and Cervical Cancer Radiotherapy Planning L Shi1, Y Zhang2, Dan Liu1, L Zhang3*, (1) The fourth hospital of Hebei Medical University, Shijiazhuang, ,CN, (2) Cangzhou people's Hospital, Cangzhou, ,CN, (3) Cangzhou Medical College, ,,CN |
PO-GeP-P-79 | Clinical Experiences with Varians Triggered Imaging Via Auto Beam Hold Function for Intra-Fraction Motion Monitoring of Soft Tissues with Implanted Fiducials M Hermansen1, M Baca1, T Origer1, L Cooper1, R Clayton1, T Sokolowski1, A Markovic2, A Sadeghi1*, (1) Banner MD Anderson, Gilbert, AZ, (2) Banner MD Anderson, Fort Collins, CO |
PO-GeP-T-76 | Accelerated Partial Breast Irradiation On Halcyon Linac K Yun*, J Snyder, M Bernard, D Pokhrel, University of Kentucky, Lexington, KY |
PO-GeP-T-308 | Does Radiomics Have the Potential to Assess KV-CBCT Image Performance Acquired From Phantom Data Used for Daily QA? M Shenouda*, N Baughan, J Cruz Bastida, E Pearson, H Al-Hallaq, The University of Chicago, Chicago, IL |
PO-GeP-T-394 | Evaluation of a Commercial Tungsten Eye Shield for Orthovoltage Beams Using Gafchromic Film M Shafiq ul Hassan1, H Chen1*, J Bond1, D Allen1, Z Chen1, (1) Department of Therapeutic Radiology, Yale University School of Medicine, New Haven, Connecticut, USA |
PO-GeP-T-458 | Feasibility Study Using Low-Energy X-Ray to Treat Superficial Lesions for Head Cases S Hoffman*, H Kang, S Gros, R Patel, Loyola Univ Medical Center, Oak Park, IL |
PO-GeP-T-492 | Impact of Rod Arrangements On Deriving CT to Material Calibration Curve with Dual-Energy Computed Tomography Technique P Wu1*, T Chao1, Y Tsai2, T WU3, W Hsu1, Y Chiang1, C Lee1, (1) Chang Gung University, Guishan Dist., TAO, TW , (2) National Taiwan University Hospital, Taipei, TPQ, TW, (3) Hong Kong Sanatorium & Hospital, Hong Kong, HK |
PO-GeP-T-769 | The Effect of Single-Walled Carbon Nanotubes Over the Efficiency of the Protective Garment Against Diagnostic X-Ray R Zohdiaghdam1, M Mahmoudian2, N Riyahi-Alam3*, s salimi4, (1) Urmia University of Medical Sciences, ,,IR, (2) Nanotechnology Research Institute, Urmia University, Urmia, Iran, ,,IR, (3) Department of Medical Physics & Biomedical Engineering, School if Medicine, Tehran University of Medical Sciences(TUMS), Tehran, Iran, Tehran, ,IR, (4) Urmia University of Medical Sciences, Urmia, Iran, ,,IR |
SU-B-TRACK 1-5 | (Un)Likelihood of Skin Injury When Substantial Radiation Doses Are Exceeded M Vanderhoek*, C Morrison, Henry Ford Health System, Detroit, MI |
TH-D-TRACK 1-1 | Clinical Translation of a Novel Megavoltage Multi-Layer Imager T Harris1,3*, J Seco2,3, D Ferguson1, P Huber4, M Lehmann4, M Shi1,5, M Jacobson1, I Valencia Lozano1, M Myronakis1, D Morf4, P Baturin6, R Fueglistaller4, R Berbeco1, (1) Brigham and Womens Hospital & Dana Farber Cancer Institute, Boston, MA, (2) BioMedical Physics in Radiation Oncology, DKFZ, Heidelberg, Germany, (3) Department of Physics, University of Heidelberg, Heidelberg, Germany, (4) Varian Medical Systems, Baden-Dattwil, Switzerland, (5) University of Massachusetts Lowell, Newton, MA, (6) Varian Medical Systems, Palo Alto, CA, |
TH-D-TRACK 1-7 | Benchtop Coherent X-Ray Scatter Projection Imaging: From Synchrotrons to X-Ray Tubes C Dydula*, P C Johns, Carleton University, Ottawa, ON, CA |
TU-A-TRACK 1-0 | The Robots Are Coming! AI for Breast Imaging Interpretation L Hadjiiski1*, I Sechopoulos2*, (1) University of Michigan, Ann Arbor, MI, (2) Radboud University Medical Centre, Nijmegen, NL |
TU-A-TRACK 1-1 | Breast cancer detection and characterization in the era of AI L Hadjiiski1*, I Sechopoulos2*, (1) University of Michigan, Ann Arbor, MI, (2) Radboud University Medical Centre, Nijmegen, NL |
TU-A-TRACK 1-2 | Evaluation and Optimization of AI for breast imaging: What can it do, and how good is it? L Hadjiiski1*, I Sechopoulos2*, (1) University of Michigan, Ann Arbor, MI, (2) Radboud University Medical Centre, Nijmegen, NL |
TU-B-TRACK 1-1 | Variations in Signal-To-Noise Characteristics of Tissue-Equivalent Attenuators for Automatic Exposure Control System Performance Evaluation in Mammography C Morrison*, E Macdonald, N Bevins, Henry Ford Health System, Detroit, MI |
TU-B-TRACK 1-3 | Protocol Optimization for Microcalcification Detectability in Breast CT: A Phantom Study Using Model Observers A Hernandez1*, A Becker2, S Lyu2, C Abbey3, J Boone1,4, (1) Department of Radiology, University of California Davis, (2) Biomedical Engineering Graduate Group, University of California Davis, (3) Department of Psychological & Brain Sciences, University of California Santa Barbara, (4) Department of Biomedical Engineering, University of California Davis |
TU-B-TRACK 1-4 | Breast Glandular Tissue Volume and Volumetric Glandular Ratio Using Dual-Energy Mammography J Castillo-lopez2, Y Villasenor-navarro2, M Brandan1, G Pacheco-guevara1*, (1) Instituto de Fisica, UNAM, Mexico City, MX (2) Instituto Nacional de Cancerologia, Mexico City, MX |
TU-B-TRACK 1-5 | A Quantitative Approach to Evaluate the Localization Accuracy of Tomosynthesis-Guided Stereotactic Breast Biopsy R Nosrati1,2,3*, D Zhang1,3, P Bell1,3, R Macdougall1,2, (1) Harvard Medical School, Boston, MA, (2) Boston Children's Hospital, Boston, MA, (3) Beth Israel Deaconess Medical Center, Boston, MA |
TU-B-TRACK 1-6 | Multiscale Monte Carlo Simulations for Advanced X-Ray Breast Imaging: Dosimetric Studies R Trevisan Massera1,2*, A Tomal1, R Thomson2, (1) University of Campinas, BR,(2) Carleton Univ, Ottawa, ON |
TU-B-TRACK 1-7 | Interim Annual QC Test Results for a Tomography Screening Trial A Maki*, M Yaffe, J Mainprize, G Mawdsley, O Alonzo-Proulx, Sunnybrook Research Institute, Toronto, ON CA, |
TU-D-TRACK 1-2 | Development of Cost-Effective Phantoms for 2D X-Ray Imaging Applications Using Stackable Binary Images From An Inkjet Printer J Cruz Bastida*, N Reiser, E Pearson, E Marshall, N Baughan, J George, H Al-Hallaq, K Feinstein, I Reiser, University of Chicago, Chicago, Illinois |
TU-D-TRACK 1-3 | Implementation of Flag Criteria to Establish Target Exposure Indices and Identify Practice Variation in Digital Radiography P Chaudhary1*, K Hulme2, X Li2, (1) Medical Physics Graduate Program, Cleveland State University, Cleveland, OH, (2) Imaging Institute, Cleveland Clinic, Cleveland, OH |
TU-D-TRACK 1-4 | Measurement of Spatial-Frequency-Dependent Pulse Height Spectra of X-Ray Scintillators Using Single X-Ray Imaging S Dow*, A Howansky, A Lubinsky, W Zhao, SUNY Stony Brook, Stony Brook, NY |
TU-D-TRACK 1-5 | New Development of Blocking Layer and Doping of Amorphous Selenium to Improve the Imaging Performance of Flat-Panel Imager with Avalanche Gain C Orlik1*, A Howansky1, S Leveille2, A Mishchenko2, J Stavro1, A Goldan1, J Scheuermann1, W Zhao1, (1) Stony Brook University, Stony Brook, NY, (2) Analogic Canada, Montreal, Canada |
TU-D-TRACK 1-6 | Assessing Digital Image Receptor Performance Using the Noise-Response Method: A Feasibility Study for Routine Quality Control G Fong*, K Wunderle, Cleveland Clinic Foundation, Cleveland, OH |
TU-D-TRACK 1-7 | Real-Time Dual-Energy Pulmonary Angiography On An Interventional C-Arm E Nikolau1*, M Wagner1, S Schafer2, M Speidel1, (1) University of Wisconsin-Madison, Madison, WI, (2) Siemens Healthineers |
WE-B-TRACK 2-1 | A Dual-Energy Method for Automatic Verification of Patient Positioning in External Beam Radiotherapy M Jacobson1*, T Harris1, D Ferguson1, M Lehmann2, P Huber2, M Shi3, M Myronakis1, I Lozano1, P Baturin4, R Fueglistaller2, C Williams1, D Morf2, R Berbeco1 (1) Brigham and Women's Hospital, Dana-Farber Cancer Institute, and Harvard Medical School, Boston, MA (2) Varian Medical Systems, Baden-Dattwil, Switzerland (3) University of Massachusetts, Lowell, Lowell MA (4) Varian Medical Systems, Palo Alto, CA |
WE-B-TRACK 2-5 | Coded Aperture Scatter Imaging for Real-Time, Markerless Tracking of Lung Tumors A Mahl*, B Miller, C Altunbas, B Kavanagh, M Miften, B Jones, University of Colorado Anschutz Medical Campus, Aurora, CO |
WE-B-TRACK 2-6 | Evaluation of An Image-Based Weighting Approach for Megavoltage Multilayer Imagers I Valencia Lozano1*, M Shi2,1, M Myronakis1, P Baturin3, R Fueglistaller4, P Huber4, M Lehmann4, D Morf4, D Ferguson1, M Jacobson1, T Harris1, R Berbeco1, C Williams1, (1) Brigham and Womens Hospital & Dana Farber Cancer Institute, Boston, MA, USA (2) University of Massachusetts Lowell, Newton, MA, USA (3) Varian Medical Systems, Palo Alto, CA, USA (4) Varian Medical Systems, Baden, Switzerland |
WE-C-TRACK 1-6 | Improved Pileup Compensation Electronics for Photon Counting Detectors S Hsieh1*, K Iniewski2, (1) Mayo Clinic, Rochester, MN, AF, (2) Redlen Technologies, Saanichton, BC, CA |
WE-CD-TRACK 4-0 | Fluoroscopic Dose Tracking: Trials, Tribulations, and Successes R Fisher1*, O Christianson2*, B Schwarz3*, (1) MetroHealth, Cleveland, OH, (2) Landauer Medical Physics, Franklin Park, PA, (3) University of Florida, Gainesville, FL |
WE-CD-TRACK 4-1 | Fluoroscopy Dose Tracking: Experiences with homegrown, non-commercial solutions R Fisher1*, O Christianson2*, B Schwarz3*, (1) MetroHealth, Cleveland, OH, (2) Landauer Medical Physics, Franklin Park, PA, (3) University of Florida, Gainesville, FL |
WE-CD-TRACK 4-2 | Fluoroscopy Dose Tracking: A Guide from Acquiring Data to Creating National Benchmarks R Fisher1*, O Christianson2*, B Schwarz3*, (1) MetroHealth, Cleveland, OH, (2) Landauer Medical Physics, Franklin Park, PA, (3) University of Florida, Gainesville, FL |
WE-CD-TRACK 4-3 | An Example Pre-, Intra- and Post-Procedure Clinical Workflow for General Fluoroscopy and FGI Procedures R Fisher1*, O Christianson2*, B Schwarz3*, (1) MetroHealth, Cleveland, OH, (2) Landauer Medical Physics, Franklin Park, PA, (3) University of Florida, Gainesville, FL |
WE-F-TRACK 2-1 | Monte Carlo Simulation of a KV Scattered X-Ray Imaging-Based Real-Time In-Treatment Image Guidance Method for Radiation Therapy Y Huang1*, K Yang2, X Li2, B Liu2, H Liu1, Y Lai1, C Shen1, X Jia1, (1) The University of Texas Southwestern Medical Ctr, Dallas, TX, (2) Harvard Medical School, Massachusetts General Hospital, Boston, MA. |
WE-F-TRACK 2-7 | Markerless Lung Tumor Tracking Using a Dual Layer Flat Panel Detector On a Benchtop System L Shi1*, N Bennett1, H Bedi1, B Hartley1, J Star-Lack2, M Lu2, A Wang1, (1) Stanford University, Stanford, CA, (2) Varex Imaging Corp, San Jose, CA |