phd topics in medical physics

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Ph.D. Abstracts submitted to Medical Physics

A PhD Thesis Abstract is a short description of a PhD research project of a recent graduate. PhD Thesis Abstracts should be submitted as Word documents via e-mail to the Editorial Office: [email protected] using the standard template. PhD. If the dissertation is available online, please include the URL. If not, please include references to any accessible publications by the author that relate specifically to the dissertation. Please do not include abstracts of papers presented at scientific meetings. Abstracts are published online only .

If you would like more information on a Ph.D. abstract, please contact the author.

• Design, Development and Characterization of a Hand-Held Radiation Detector for Radio-guided Surgery Muhammed Emin Bedir, PhD [Posted: 10/09/2024]
• Novel brachytherapy techniques for cervical cancer and prostate cancer Xing Li [Posted: 08/14/2024]
• Dosimetric Evaluation of Influence of Heterogeneity and Efficacy of Various Plan Algorithms in Intensity-Modulated Radiation Therapy (IMRT) and Volumetric Modulated Arc Therapy (VMAT) Radiotherapy Plans in Tumors of Thorax Atul Mishra [Posted: 01/18/2024]
• Radiation Therapy for Breast Cancer: A Dosimetric Comparison Among Advanced Planning Techniques Karunakaran Balaji [Posted: 11/28/2023]
• Optimization of Beamline Elements and Shielding in a Preclinical MV Bremsstrahlung FLASH Irradiator Andrew Rosenstrom [Posted: 10/10/2023]
• Radiation interaction properties of radiosensitizer doped tissues and suitable dosimeter for radiosensitizer enhanced radiotherapy Srinivasan Karthikeyan [Posted: 09/20/2023]
• Using Machine Learning to Predict Gamma Passing Rate Values and to Differentiate Radiation Necrosis from Tumor Recurrence in Brain Elahheh Salari [Posted: 08/23/2023]
• A framework for the robust delivery of respiratory motion adaptive arc radiotherapy Eric Jessie Christiansen [Posted: 06/02/2023]
• Intelligent feature analysis of FDG PET-CT images for more accurate diagnosis in large vessel vasculitis Lisa Mairi Duff [Posted: 03/20/2023]
• A Generalized, Modular Approach to Treating Moving Tumors with Ion Beams Michelle Lis [Posted: 02/09/2023]
• Quantification of dosimetric uncertainties in lung stereotactic body radiation therapy Carlos Huesa-Berral [Posted: 02/02/2023]
• Towards a Smarter Healthcare: The Role of Deep Learning Supporting Biomedical Analysis Moiz Khan Sherwani [Posted: 12/10/2022]
• Fat unsaturation quantification, including ω-3 measures, with in-vivo magnetic resonance spectroscopy Clara J. Fallone [Posted: 05/05/2022]
• Design of robotic hand-based intervention with brain stimulation applications for post stroke neurorehabilitation Neha Singh [Posted: 02/22/2022]
• Development of a Robust LINAC-based Radiosurgery Program for Multiple Brain Metastases and Estimation of Radiobiological Response of Indirect Cell Kill Allison Palmiero [Posted: 01/27/2022]
• An investigation of plan-class specific reference (pcsr) fields and other strategies for improved dosimetry in modulated clinical linear accelerator treatments Vimal K. Desai [Posted: 01/25/2022]
• Anatomically Informed Image Reconstruction for Time of Flight Positron Emission Tomography Palak Wadhwa [Posted: 01/25/2022]
• Intravoxel Incoherent Motion (IVIM) and Multi-parametric MRI Analysis for Chemotherapy Response Evaluation in Bone Tumor Esha Baidya Kayal [Posted: 01/19/2022]
• Optimization and improving the precision of quantitative analysis in small animal PET imaging system (Xtrim-PET) Mahsa Amirrashedi [Posted: 12/14/2021]
• Development of an LED Array for Dosimetry in Diagnostic Radiology Edrine Damulira [Posted: 10/28/2021]
• Characterisation Studies of Proton Beamlines for Medical Applications and Beam Diagnostics Integration Jacinta S. L. Yap [Posted: 10/05/2021]
• Brain Magnetic Resonance Imaging for Investigation Hearing Loss and Environmental Enrichment Francis A.M. Manno [Posted: 08/30/2021]
• Evaluation of Different Dosimetric Parameters in Volumetric Modulated Arc Therapy Treatment Planning and Delivery Systems for Various Clinical Sites P. Mohandass [Posted: 08/02/2021]
• Determination of W air value in high energy electron beams Alexandra Bourgouin [Posted: 07/01/2021]
• Development and Clinical Validation of Knowledge-Based Planning Models for Stereotactic Body Radiotherapy of Early-Stage Non-Small-Cell Lung Cancer Patients Justin Visak, PhD [Posted: 07/01/2021]
• Demonstration of x-ray acoustic computed tomography as a radiotherapy dosimetry tool Susannah Hickling [Posted: 06/14/2021]
• Development of a Robust Treatment Delivery Framework for Stereotactic Body Radiotherapy (SBRT) of Synchronous Multiple Lung Lesions Lana Sanford Critchfield [Posted: 06/10/2021]
• Cherenkov emission-based in-water photon and electron beam dosimetry Yana Zlateva [Posted: 06/10/2021]
• Advanced quality assurance methodologies in image-guided high-dose-rate brachytherapy Saad Aldelaijan [Posted: 06/09/2021]
• Impact of Pinhole Collimation on SPECT Image Quality Metrics, and Methods for Patient-Specific Assessment of Noise and Standardization of Imaging Protocols Sarah Grace Cuddy-Walsh [Posted: 06/08/2021]
• Heterogeneous multiscale Monte Carlo models for radiation therapy using gold nanoparticles Martin P. Martinov [Posted: 06/08/2021]
• Dosimetry of a Miniature X-Ray Source Used in Intraoperative Radiation Therapy Peter G. F. Watson [Posted: 06/07/2021]
• Treatment plan optimization and delivery using dynamic gantry-couch trajectories Joel Mullins [Posted: 06/07/2021]
• Reference dosimetry of static, nonstandard radiation therapy fields: application to biology-guided radiotherapy and cranial radiosurgery generators Lalageh Mirzakhanian [Posted: 06/07/2021]
• Characterization of tumor microstructures with diffusion-weighted MRI Shu (Stella) Xing [Posted: 06/03/2021]
• Computational cell dosimetry for cancer radiotherapy and diagnostic radiology Patricia A. K. Oliver [Posted: 06/03/2021]
• High Frequency Percussive Ventilation (HFPV) For Tumor Motion Immobilization Marina (Ina) Sala [Posted: 05/25/2021]
• Radiation therapy outcome prediction using statistical correlations & deep learning André Diamant [Posted: 05/26/2021]
• Generation of pseudo-CT images from MRI images in pelvic and prostate regions for attenuation correction in PET/MRI system Abbas Bahrami [Posted: 05/25/2021]
• Assessment of Magnetic Field Effect in MRI-guided Carbon Ion Radiotherapy Using Monte Carlo Method Mahmoudreza Akbari [Posted: 05/25/2021]
• Development of an Efficient Algorithmic Framework for Deterministic Patient Dose Calculation in MRI-guided Radiotherapy Ray Yang [Posted: 05/10/2021]
• Functional, Volumetric, and Textural Analysis of Malignant Pleural Mesothelioma Using Computed Tomography and Deep Convolutional Neural Networks Eyjolfur Gudmundsson [Posted: 05/10/2021]
• Quantification of Respiratory Induced Pulmonary Blood Flow from 4DCT Nicholas Myziuk [Posted: 05/10/2021]
• Effects of magnetic hyperthermia using magnetic iron oxide nanoparticles coated with PAMAM dendrimer on cancer cells in vitro and in animal models of breast cancer Marzieh Salimi [Posted: 02/23/2021]
• Accurate Tracking of Position and Dose During VMAT Based on VMAT-CT Xiaodong Zhao [Posted: 02/09/2021]
• Towards optimizing quality assurance outcomes of knowledge-based radiation therapy treatment plans using machine learning Phillip D. H. Wall [Posted: 11/19/2020]
• Quantitative methods for improved error detection in dose-guided radiotherapy Cecile J.A. Wolfs [Posted: 10/26/2020]
• Endorectal Digital Prostate Tomosynthesis Joseph R. Steiner [Posted: 10/06/2020]
• Framework for algorithmically optimizing longitudinal health outcomes: Examples in cancer radiotherapy and occupational radiation protection Lydia J Wilson [Posted: 09/29/2020]
• Vector Extrapolation and Guided Filtering Methods for Improving Photoacoustic and Microscopic Images Navchetan Awasthi [Posted: 09/10/2020]
• Design and Construction of an active dosimetry based on Polystyrene - Carbon Nanotube Nanocomposite Armin Mosayebi [Posted: 09/10/2020]
• Microdosimetry applied to proton radiotherapy Alejandro Bertolet [Posted: 09/10/2020]
• Investigation and Correction for the Partial Volume Spill in Effects in Positron Emission Tomography Mercy Iyabode Akerele [Posted: 08/26/2020]
• Quantitative Scintillation Imaging for Dose Verification and Quality Assurance Testing in Radiotherapy Irwin Isaac Tendler [Posted: 08/17/2020]
• Optimisation of the treatment quality in head-and-neck radiation oncology Nicholas Lowther [Posted: 08/17/2020]
• Computer Aided Assessment of Colon Polyps in CT Colonography using Image Processing Techniques Manjunath K N, PhD [Posted: 04/30/2020]
• A model-based approach for tissue characterization of the uterine cervix using ultrasonic backscatter Andrew P. Santoso [Posted: 02/27/2020]
• Relative biological effectiveness in proton therapy: accounting for variability and uncertainties Jakob Ödén [Posted: 02/10/2020]
• Application development for personalized dosimetry in pediatric examinations of Nuclear Medicine based on Monte Carlo simulations and the use of computational models Theodora Kostou [Posted: 12/11/2019]
• Investigation of geometrical, clinical uncertainty and dosimetric studies in 3D interstitial brachytherapy of radical breast implants Ritu Raj Upreti [Posted: 10/29/2019]
• Modeling proton relative biological effectiveness using Monte Carlo simulations of microdosimetry Mark Newpower [Posted: 10/29/2019]
• Optimization based on models of image noise and kerma in air for Computed Tomography Rafael A. Miller-Clemente [Posted: 08/26/2019]
• Dynamic couch rotation during volumetric modulated arc therapy (DCR-VMAT) Gregory Smyth [Posted: 07/01/2019]
• Analysis of Electroencephalogram as a pre screening tool for identification of Schizophrenia B. Thilakavathi [Posted: 07/01/2019]
• Hybrid Kernelised Expectation Maximisation Reconstruction Algorithms for Quantitative Positron Emission Tomography Daniel Deidda [Posted: 04/03/2019]
• An algorithm to improve deformable image registration accuracy in challenging cases of locally-advanced non-small cell lung cancer Christopher L. Guy [Posted: 04/03/2019]
• Fabrication and characterization of a 3D Positive ion detector and its Applications P. Venkatraman [Posted: 03/13/2019]
• Optimisation of radiation dose, image quality and contrast medium administration in coronary computed tomography angiography Sock Keow Tan [Posted: 03/05/2019]
• Classification and Denoising of Objects in TEM and CT Images Using Deep Neural Networks Anindya Gupta [Posted: 11/01/2018]
• Dose savings in digital breast tomosynthesis through image processing Lucas Rodrigues Borges [Posted: 10/11/2018]
• Use of volumetric analysis and imaging parameters to improve mammographic imaging Susie Lau [Posted: 08/08/2018]
• The development of new anti-scatter grids for improving x-ray image diagnostic quality and reducing patient radiation exposure Abel Zhou [Posted: 05/24/2018]
• In-vivo dosimetry in Radiotherapy employing an Electronic Portal Imaging Device (EPID) Jaime Martínez Ortega [Posted: 05/01/2018]
• Biological tissues characterization by light scattering: cancer diagnosis applications Ahmad Addoum [Posted: 05/01/2018]
• Whole Body and Upper Extremity Ultra-High Field Magnetic Resonance Imaging: Coil Development and Clinical Implementation Shailesh B. Raval [Posted: 04/02/2018]
• 18 F-FDG PET/CT Based Radiomics For The Prediction Of Radiochemotherapy Treatment Outcomes Of Cervical Cancer Baderaldeen Abdulmajeed Altazi [Posted: 02/25/2018]
• Application of efficient Monte Carlo photon beam simulations to dose calculations in voxellized human phantoms Blake Walters [Posted: 02/25/2018]
• Voxel-level dosimetry of 177 Lu-octreotate: from phantoms to patients Eero Hippeläinen [Posted: 02/25/2018]
• Studies on the Usefulness of Biological Fingerprint in Magnetic Resonance Imaging for Patient Verification Yasuyuki Ueda [Posted: 01/03/2018]
• Introduction of Monte Carlo Dosimetry and Edema in Inverse Treatment Planning of Prostate Brachytherapy Konstantinos A. Mountris [Posted: 01/03/2018]
• Accurate relative stopping power prediction from dual energy CT for proton therapy: Methodology and experimental validation Joanne van Abbema [Posted: 01/03/2018]
• Development of Avalanche Amorphous Selenium for X-Ray Detectors James Scheuermann [Posted: 01/03/2018]
• Decision Making and Puzzled Response Assessment Using Visual Evoked and Event Related Potentials Ahmed Fadhil Hassoney Almurshedi [Posted: 10/09/2017]
• Sensitivity Analysis of the Integral Quality Monitoring System® for Radiotherapy Verification using Monte Carlo Simulation Oluwaseyi Michael Oderinde [Posted: 10/09/2017]
• Titanium-45: development and optimization of the production process in low energy cyclotrons Pedro Costa [Posted: 09/18/2017]
• Algorithm Development Methodology for MRI, US Image Processing, and Analysis for Hepatic Diseases Ilias Gatos [Posted: 09/18/2017]
• Bubble Wavelet Decorrelation based Ultrasound Contrast Plane Wave Imaging and Microvascular Parametric Perfusion Imaging Diya Wang [Posted: 07/26/2017]
• Innovative applications of kilovoltage imaging in image-guided lung cancer radiotherapy Chun-Chien (Andy) Shieh [Posted: 06/15/2017]
• Development of a three-dimensional dose calculation method in radioembolization treatment with yttrium-90 microspheres Fernando Mañeru Cámara [Posted: 04/04/2017]
• Integration of Shape Analysis and Knowledge Techniques for the Semantic Annotation of Patient-Specific 3D Data Imon Banerjee [Posted: 03/21/2017]
• An Investigation of Radiation Dose to Patient's Eye Lens and Skin During Neuro- Interventional Radiology Procedures Mohammad Javad Safari [Posted: 03/09/2017]
• Development and demonstration of 2D dosimetry using optically stimulated luminescence from new Al 2 O 3 films for radiotherapy applications Md Foiez Ahmed [Posted: 02/25/2017]
• Novel in-treatment dose verification methods for adaptive radiotherapy Lucas Persoon [Posted: 01/18/2017]
• A study on body phantom for improvement in dosimetry in modern radiotherapy techniques Om Prakash Gurjar [Posted: 01/18/2017]
• Medical Image Segmentation Using Level Sets and Dictionary Learning Saif Dawood Salman Al-Shaikhli [Posted: 09/27/2016]
• Location of Radiosensitive Organs, Measurement of Absorbed Dose to Radiosensitive Organs and use of Bismuth Shields in Paediatric Anthropomorphic Phantoms Stephen Inkoom [Posted: 09/20/2016]
• Investigation of PET-Based Treatment Planning in Peptide-Receptor Radionuclide Therapy (PRRT) Using a Physiologically Based Pharmacokinetic (PBPK) Model Deni Hardiansyah [Posted: 08/18/2016]
• Wideband Microwave Imaging System for Brain Injury Diagnosis Ahmed Toaha Mobashsher [Posted: 08/18/2016]
• Development of advanced computer methods for breast cancer image interpretation through texture and temporal evolution analysis Mohamed Abdel-Nasser [Posted: 07/27/2016]
• From Data to Decision. A Knowledge Engineering approach to individualize cancer therapy Erik (Hendrik A.) Roelofs [Posted: 06/22/2016]
• Modelling and verification of doses delivered to deformable moving targets in radiotherapy Unjin Adam Yeo [Posted: 05/11/2016]
• Methods and algorithms for the quantification of blood flow in the microcirculation with contrast enhanced ultrasound Damianos Christophides [Posted: 04/27/2016]
• 2D Transit Dosimetry Using Electronic Portal Imaging Device Yun Inn Tan [Posted: 03/29/2016]
• Research on Spatial Registration Theory and Algorithms for Neuronavigation Yifeng Fan [Posted: 02/29/2016]
• Magnetohydrodynamics Present in Physiological Signals and Real-Time Electrocardiography during Magnetic Resonance Imaging T. Stan Gregory [Posted: 02/24/2016]
• Evaluation of Diagnostic, Therapeutic and Dosimetric Applications in Nuclear Medicine, with the Development of Computational Models and the Use of Monte Carlo Simulations Panagiotis Papadimitroulas [Posted: 02/23/2016]
• Multinuclear Magnetic Resonance Imaging for in-vivo Physiological and Morphological Measurement of Articular Cartilage Dileep Kumar [Posted: 02/03/2016]
• CMOS active pixel sensors in bio-medical imaging Michela Esposito [Posted: 01/20/2016]
• Authentication of Absorbed Dose Measurements for Optimization of Radiotherapy Treatment Planning Khalid Iqbal [Posted: 10/21/2015]
• Incorporating Range Uncertainty into Proton Therapy Treatment Planning Stacey Elizabeth McGowan [Posted: 10/19/2015]
• Phase Imaging using Focusing Polycapillary Optics Sajid Bashir [Posted: 10/19/2015]
• Task-Based Optimization of Computed Tomography Imaging Systems Adrian A. Sánchez [Posted: 09/17/2015]
• Digital Holographic Interferometry for Radiation Dosimetry Alicia Cavan [Posted: 07/22/2015]
• Key Data for the Reference and Relative Dosimetry of Radiotherapy, Diagnostic and Interventional Radiology Beams Hamza Benmakhlouf [Posted: 06/01/2015]
• Magnetic resonance imaging –based radiation therapy Juha Korhonen [Posted: 06/01/2015]
• Stepping source prostate brachytherapy: From target definition to dose delivery Anna Dinkla [Posted: 05/07/2015]
• Hybrid diffuse optics for monitoring of tissue hemodynamics with applications in oncology Parisa Farzam [Posted: 05/06/2015]
• The use of proton radiography to reduce uncertainties in proton treatment planning Paul Doolan [Posted: 03/31/2015]
• Assessment of gene expression changes of P53, INF-G, TGF-B, XPA, G0S2, PF4 in peripheral blood lymphocytes of medical radiation workers Reza Fardid [Posted: 03/31/2015]
• Evaluation of the Radiation Detection Properties of Synthetic Diamonds for Medical Applications Nicholas Ade [Posted: 03/31/2015]
• Forecasting Longitudinal Changes in Oropharyngeal Tumor Volume, Position, and Morphology during Image-Guided Radiation Therapy Adam D. Yock [Posted: 01/08/2015]
• Experimental Dosimetry and Simulation of Computed Tomography Radiation Exposure: Approaches for Dose Reduction Stella Veloza [Posted: 07/30/2014]
• Small animal radiotherapy: Dosimetry & Applications Patrick V. Granton [Posted: 07/17/2014]
• Enhanced Dynamic Electron Paramagnetic Resonance Imaging Of In Vivo Physiology Gage Redler [Posted: 07/17/2014]
• The sensitivity of radiotherapy to tissue composition and its estimation using novel dual energy CT methods Guillaume Landry [Posted: 06/23/2014]
• Development of an in vivo MOSFET dosimeter for radiotherapy applications Osmar Franca Siebel [Posted: 06/12/2014]
• Non-uniform Resolution and Partial Volume Recovery in Tomographic Image Reconstruction Methods Munir Ahmad [Posted: 05/20/2014]
• Spatial Dosimetry with Violet Diode Laser-Induced Fluorescence of Water-Equivalent Radio-Fluorogenic Gels Peter A. Sandwall II [Posted: 04/29/2014]
• Enabling Interventional MRI Using an Ultra-High Field Loopless Antenna Mehmet Arcan Ertürk [Posted: 04/29/2014]
• Investigation of thermal and temporal responses of ionization chambers in radiation dosimetry Hussein ALMasri [Posted: 04/02/2014]
• In Vivo Human Right Ventricle Shape and Kinematic Analysis with and without Pulmonary Hypertension Jia Wu [Posted: 03/03/2014]
• Optimizing ultrasound detection for sensitive 3D photoacoustic breast tomography Wenfeng Xia [Posted: 03/03/2014]
• Evaluation of speed of sound aberration and correction for ultrasound guided radiation therapy Davide Fontanarosa [Posted: 02/28/2014]
• Retrieving information from scattered photons in medical imaging Abhinav K. Jha [Posted: 01/30/2014]
• Photo-activation Therapy with Nanoparticles: Modeling at a Sub-Micrometer Level and Experimental Comparison Delorme Rachel [Posted: 12/26/2013]
• Molecular imaging of spatio-temporal distribution of angiogenesis in a hindlimb ischemia model and diabetic milieu Konstadia Tsioupinaki [Posted: 12/17/2013]
• Robust optimization of radiation therapy accounting for geometric uncertainty Albin Fredriksson [Posted: 10/23/2013]
• Multicriteria optimization for managing tradeoffs in radiation therapy treatment planning Rasmus Bokrantz [Posted: 10/17/2013]
• Molecular imaging methodologies with radiolabeled nanoparticles for the quantitative evaluation of angiogenesis spatial distribution in malignant tumors Irene Tsiapa [Posted: 09/26/2013]
• Vascular Segmentation Algorithms for Generating 3D Atherosclerotic Measurements Eranga Ukwatta [Posted: 09/19/2013]
• Investigation of Advanced Dose Verification Techniques for External Beam Radiation Treatment Ganiyu Asuni [Posted: 09/16/2013]
• Evaluation of digital x-ray detectors for medical imaging applications Anastasios C. Konstantinidis [Posted: 09/04/2013]
• Total Iron Overload Measurement in the Human Liver Region by the Susceptometer Magnetic Iron Detector (MID) Barbara Gianesin [Posted: 09/04/2013]
• A study of the radiobiological modeling of the conformal radiation therapy in cancer treatment Anil Pyakuryal [Posted: 08/26/2013]
• New Methods for Motion Management During Radiation Therapy Martin F. Fast [Posted: 08/26/2013]
• Novel 3D radiochromic dosimeters for advanced radiotherapy techniques Mamdooh Alqathami [Posted: 08/19/2013]
• Respiratory-gated PET/CT protocols and reconstructions optimization Joël Daouk [Posted: 07/18/2013]
• The Role Of Tissue Sound Speed As A Surrogate Marker Of Breast Density Mark Sak [Posted: 06/05/2013]
• Aperture Modulated Total body irradiation Amjad Hussain [Posted: 04/23/2013]
• Monte Carlo simulation of modern techniques of intensity modulated radiation therapy (IMRT) Panagiotis Tsiamas [Posted: 03/04/2013]
• Monte Carlo treatment planning with modulated electron radiotherapy: framework development and application Andrew Alexander [Posted: 01/28/2013]
• Implementation of Silicon Based Dosimeters, the Dose Magnifying Glass and Magic Plate for the Dosimetry of Modulated Radiation Therapy Jeannie Hsiu Ding Wong [Posted: 01/28/2013]
• A uniform framework for the objective assessment and optimisation of radiotherapy image quality Andrew J Reilly [Posted: 01/09/2013]
• Uncertainties in prostate targeting during radiotherapy: assessment, implications and applications of statistical methods of process control Ngie Min Ung [Posted: 01/08/2013]
• Image analysis methods for diagnosis of diffuse lung disease in multi-detector computed tomography Panayiotis Korfiatis [Posted: 12/10/2012]
• Pulsed Magneto-motive Ultrasound Imaging Mohammad Mehrmohammadi [Posted: 11/25/2012]
• Image processing and analysis methods in thyroid ultrasound imaging Stavros Tsantis [Posted: 11/25/2012]
• Volumetric modulated arc therapy for stereotactic body radiotherapy: planning considerations, delivery accuracy and efficiency Chin Loon, Ong [Posted: 11/04/2012]
• Radiation Oncology Safety Information System (ROSIS): A Reporting and Learning System for Radiation Oncology Joanne Cunningham [Posted: 11/04/2012]
• Modeling digital breast tomosynthesis imaging systems for optimization studies Beverly A. Lau [Posted: 10/31/2012]
• A Study on Radiochemical Errors in Polymer Gel Dosimeters Mahbod Sedaghat [Posted: 10/09/2012]
• Use of Monte Carlo methods in characterizing the heterogeneities and their radiobiological impacts in brachytherapy Hossein Afsharpour [Posted: 09/18/2012]
• Optimization-Based Image Reconstruction from a Small Number of Projections Junguo Bian [Posted: 08/13/2012]
• Imaging neutron activated Sm-153 oral dose forms in the gastrointestinal tract Yeong Chai Hong [Posted: 07/11/2012]
• Maximizing the information content of dual energy x-ray and CT imaging Adam S. Wang [Posted: 05/08/2012]
• Monte Carlo and experimental small-field dosimetry applied to spatially fractionated synchrotron radiotherapy techniques Immaculada Martínez-Rovira [Posted: 04/30/2012]
• Statistical image reconstruction for quantitative computed tomography Joshua D. Evans [Posted: 04/26/2012]
• Measurement of kidney viscoelasticity with Shearwave Dispersion Ultrasound Vibrometry Carolina Amador Carrascal [Posted: 03/12/2012]
• Quantitative comparison of late effects following photon versus proton external-beam radiation therapies: Toward an evidence-based approach to selecting a treatment modality Rui Zhang [Posted: 03/12/2012]
• A Quantitative Method for Reproducible Ionization Chamber Alignment to a Water Surface for External Beam Radiation Therapy Depth Dose Measurements James D. Ververs [Posted: 02/22/2012]
• Quantification and tumour delineation in PET Patsuree Cheebsumon [Posted: 02/22/2012]
• Cyclotron Production of Technetium-99m Katherine M Gagnon [Posted: 02/13/2012]
• Assessment of the Dependence of Ventilation Image Calculation from 4D-CT on Deformation and Ventilation Algorithms Kujtim Latifi [Posted: 01/23/2012]
• New concepts for beam angle selection in IMRT treatment planning: From heuristics to combinatorial optimization Mark Bangert [Posted: 11/21/2011]
• Single-cell Raman spectroscopy of irradiated tumour cells Quinn Matthews [Posted: 11/07/2011]
• Advances in Biomedical Applications and Assessment of Ultrasound Non-Rigid Image Registration Ganesh Narayanasamy [Posted: 11/02/2011]
• Development and Validation of Quantitative Imaging Methods for Patient-Specific Targeted Radionuclide Therapy Dosimetry Na Song [Posted: 10/04/2011]
• Computer-Aided, Multi-Modal, and Compression Diffuse Optical Studies of Breast Tissue David Richard Busch Jr., Ph.D. [Posted: 08/29/2011]
• A Noninvasive Method for Quantifying Viscoelasticity of the Left-Ventricular Myocardium Using Lamb wave Dispersion Ultrasound Vibrometry Ivan Nenadic, Ph.D. [Posted: 08/17/2011]
• Study on: Evaluation of Large Area Polycrystalline CdTe Detector for Diagnostic X-ray Imaging Xiance Jin, Ph.D [Posted: 07/18/2011]
• Studies on (i) Characterization of Bremsstrahlung spectra from high Z elements and (ii) Development of Neutron source using MeV pulsed electron beam and their applications Bhushankumar Jagnnath Patil, PhD [Posted: 06/13/2011]
• Monte Carlo Modelling of Small Field Dosimetry: Non-ideal Detectors, Electronic Disequilibrium and Source Occlusion Alison Scott [Posted: 06/06/2011]
• Radiation therapy treatment plan optimization accounting for random and systematic patient setup uncertainties Joseph A. Moore, Ph.D. [Posted: 05/17/2011]
• A Modular Data Acquisition System for High Resolution Clinical PET Scanners Giancarlo Sportelli [Posted: 05/17/2011]
• Study of Physical and Dosimetric Aspects of Intensity Modulated Radiotherapy Atul Tyagi [Posted: 05/16/2011]
• Development of stopping rule methods for the MLEM and OSEM algorithms used in PET image reconstruction Anastasios Gaitanis [Posted: 05/05/2011]
• Monte Carlo-based Reconstruction for Positron Emission Tomography Long Zhang [Posted: 04/21/2011]
• Development of supervised and unsupervised pixel-based classification methods for medical image segmentation Kostopoulos Spiros [Posted: 04/14/2011]
• Modeling Lung Tissue Motions and Deformations: Applications in Tumor Ablative Procedures Ali Sadeghi Naini [Posted: 04/14/2011]
• DNA Microarray image processing based on advanced pattern recognition techniques Emmanouil I. Athanasiadis [Posted: 04/14/2011]
• Feasibility Investigation of Virtual Patient Guided Radiation Therapy (VPGRT) Bingqi Guo [Posted: 04/06/2011]
• Investigation of Similarity Measures for Selection of Similar Images in Computer-Aided Diagnosis of Breast Lesions on Mammograms Chisako Muramatsu [Posted: 04/04/2011]
• Objective Tolerances in Clinical Radiation Therapy and Treatment Planning Alejandra Rangel [Posted: 04/04/2011]
• Quantitative Dynamic 3D PET Scanning of the Body and Brain using LSO Tomographs Matthew David Walker [Posted: 04/04/2011]
• Differentiating Multiple Sclerosis from Cerebral Microangiopathy based on Modern Pattern Recognition Techniques on Magnetic Resonance Image s Pantelis Theocharakis [Posted: 04/04/2011]
• Mechanistic Simulation of Normal-Tissue Damage in Radiotherapy Eva Rutkowska [Posted: 04/04/2011]
• Advanced Computer-Aided Diagnosis and Prognosis for Breast MRI Neha Bhooshan [Posted: 03/30/2011]
• Beyond the DVH --- Spatial and Biological Radiotherapy Treatment Planning Bo Zhao [Posted: 03/30/2011]
• Three dimensional simulation and magnetic decoupling of the linac in a linac-MR system Joel St. Aubin [Posted: 03/30/2011]
• Computer-aided histological analysis for prostate cancer diagnosis Yahui Peng [Posted: 03/30/2011]
• Image Segmentation, Modeling, and Simulation in 3D Breast X-ray Imaging Tao Han [Posted: 03/14/2011]
• Algorithms for Compensation of Quasi-periodic Motion in Robotic Radiosurgery Floris Ernst [Posted: 02/15/2011]
• Imaging for salivary gland sparing radiotherapy Anette Houweling [Posted: 01/24/2011]
• Exploiting tumor and lung heterogeneity with radiotherapy Steven Petit [Posted: 01/24/2011]
• Brachytherapy Seed and Applicator Localization via Iterative Forward Projection Matching Algorithm using Digital X-ray Projections Damodar Pokhrel, Ph.D. [Posted: 01/24/2011]
• Dosimetric Optimization of a Non-Invasive Breast Brachytherapy Applicator Yun Yang [Posted: 01/04/2011]
• Radiation Dose Reduction Techniques for Dynamic, Contrast-Enhanced Cerebral Computed Tomography Mark Patrick Supanich [Posted: 10/22/2010]
• Adaptive Radiation Therapy of Prostate Cancer Ning Wen [Posted: 10/22/2010]
• Design, Construction, and Evaluation of New High Resolution Medical Imaging Detector/Systems Amit Jain [Posted: 09/14/2010]
• Experimental characterization of convolution kernels for intensity modulated radiation therapy (in Spanish) Juan Diego Azcona, Ph. D. [Posted: 08/30/2010 ]
• Development of Renal Phantoms for the Evaluation of Current and Emerging Ultrasound Technology Deirdre M. King [Posted: 08/23/2010 ]
• Development of CT Scanner Models for Patient Organ Dose Calculations Using Monte Carlo Methods Dr. Jianwei Gu [Posted: 07/29/2010 ]
• Helical Cone-Beam Computed Tomography using the Differentiated Backprojection Dr.-Ing. Harald Schöndube [Posted: 07/28/2010 ]
• Computerized Segmentation and Measurement of Pleural Disease William F. Sensakovic [Posted: 07/28/2010 ]
• Pattern Recognition Applied to the Computer-Aided Detection and Diagnosis of Breast Cancer from Dynamic Contrast-Enhanced Magnetic Resonance Breast Images Jacob Levman [Posted: 07/06/2010 ]
• Influence of sequence protocol variations on MR image texture at 3.0 Tesla: Implications for texture-based pattern classification in a clinical setting Dr. med. univ. Marius E. Mayerhöfer [Posted: 05/24/2010 ]
• Development of a Prototype Synthetic Diamond Detector for Radiotherapy Dosimetry Gregory T. Betzel [Posted: 05/24/2010 ]
• Efficient Controls for Finitely Convergent Sequential Algorithms and Their Applications Wei Chen [Posted: 05/04/2010 ]
• A Direct Compensator Profile Optimization Approach for Intensity Modulated Radiation Treatment Planning Kevin J. Erhart, Ph.D. [Posted: 02/25/2010 ]
• Quantitative Assessment of Radiation Dosimetry from a MammoSite Balloon, FSD Applicator and a Newly Designed HDR Applicator for Treatment of GYN Cancers Using Monte Carlo Simulations Zhengdong Zhang [Posted: 02/22/2010 ]
• Computer-Aided Identification of the Pectoral Muscle in Mammograms K. Santle Camilus [Posted: 02/22/2010 ]
• Single Photon Counting X‑Ray Micro‑Imaging of Biological Samples Paola Maria Frallicciardi [Posted: 02/04/2010 ]
• Spectral Mammography with X-Ray Optics and a Photon-Counting Detector Erik Fredenberg [Posted: 01/20/2010 ]
• Image Derived Input Functions for Cerebral PET Studies Jurgen E.M. Mourik [Posted: 12/14/2009 ]
• Optimal Reconstruction Algorithms for High-Resolution Positron Emission Tomography Floris H.P. van Velden, PhD [Posted: 11/12/2009 ]
• Prostate Intrafraction Motion Assessed by Simultaneous KV Flouroscopy at MV Deliver Justus D. Adamson [Posted: 09/14/2009 ]
• Evaluation of a Diffraction-Enhanced Imaging (DEI) Prototype and Exploration of Novel Applications for Clinical Implementation of DEI Laura S. Faulconer [Posted: 09/08/2009 ]
• 3D dose verification for advanced radiotherapy Wouter van Elmpt [Posted: 09/01/2009 ]
• Air-kerma strength determination of a miniature x-ray source for brachytherapy applications Stephen D. Davis [Posted: 08/24/2009 ]
• Development and Validation of Parallel Three-Dimensional Computational Models of Ultrasound Propagation and Tissue Microstructure for Preclinical Cancer Imaging Mohammad I. Daoud [Posted: 08/03/2009 ]
• Strategies for Adaptive Radiation Therapy: Robust Deformable Image Registration Using High Performance Computing and its Clinical Applications Junyi Xia [Posted: 06/17/2009 ]
• SPECT imaging with rotating slat collimation Roel Van Holen [Posted: 06/04/2009 ]
• Development and Investigation of Intensity-Modulated Radiation Therapy Treatment Planning for Four-Dimensional Anatomy Yelin Suh, Ph.D. [Posted: 06/04/2009 ]
• The use of computed tomography images in Monte Carlo treatment planning Magdalena Bazalova [Posted: 04/29/2009 ]
• Applications of the Biologically Effective Uniform Dose to Adaptive Tomotherapy and Four-dimensional Treatment Planning Fan-chi Su [Posted: 04/28/2009 ]
• Development of analytical particle transport methods for biologically optimized light ion therapy Johanna Kempe [Posted: 02/19/2009 ]
• Small Animal CT with Micro-, Flat-panel and Clinical Scanners: An Applicability Analysis Dr. Wolfram Stiller [Posted: 02/10/2009 ]
• Gamma camera based Positron Emission Tomography: A study of the viability on quantification Lorena Pozzo [Posted: 01/29/2009 ]
• Dynamic Phase Boundary Estimation Using Electrical Impedance Tomography Umer Zeeshan Ijaz [Posted: 01/08/2009]
• Development and Role of Megavoltage Cone Beam Computed Tomography in Radiation Oncology Olivier Morin [Posted: 08/06/2008]
• Utilizing Problem Structure in Optimization of Radiation Therapy Fredrik Carlsson [Posted: 06/05/2008]
• In-vivo optical imaging and spectroscopy of cerebral hemodynamics Chao Zhou [Posted: 05/27/2008]
• Direct Statistical Parametric Image Estimation for Linear Pharmacokinetic Models from Quantitative Positron Emission Tomography Measurements Charalampos Tsoumpas [Posted: 05/12/2008]
• Advacnces in Magnetic Resonance Electrical Impedence Mammography Nataliya Kovalchuk, Ph.D. [Posted: 05/15/2008]
• Quantitative Measurement of Tumor Hypoxia Response to Mild Temperature Hyperthermia Treatment in HT29 Tumors Mutian Zhang [Posted: 04/15/2008]
• 3D Image Reconstruction for a Dual Plate Positron Emission Tomograph: Application to Mammography Mónica Vieira Martins [Posted: 04/01/2008]
• Impact of Geometric Uncertainties on Dose Calculations for Intensity Modulated Radiation Therapy of Prostate Cancer Runqing Jiang [Posted: 03/20/2008]
• Biologically conformal radiation therapy and Monte Carlo dose calculations in the clinic Barbara Vanderstraeten [Posted: 01/28/2008]
• Development and Evaluation of a Dedicated Breast CT Scanner Kai Yang, Ph.D. [Posted: 01/14/2008]
• A Generalized Least-squares minimization method for near infrared diffuse optical tomography Phaneendra K. Yalavarthy [Posted: 01/14/2008]
• A Novel Approach to Evaluating Breast Density Using Ultrasound Tomography Carri K. Glide-Hurst [Posted: 08/31/2007]
• Risk-Adaptive Radiotherapy Yusung Kim [Posted: 06/21/2007]
• Use of Stationary Focused Ultrasound Fields for Characterization of Tissue and Localized Tissue Ablation Brian Andrew Winey [Posted: 05/07/2007]
• Selective radiofrequency pulses in localization sequences for in vivo MR spectroscopy Gunther Helms [Posted: 04/15/2007]
• The use of Monte Carlo methods to study the effect of x-ray spectral variations on the response of an amorphous silicon electronic portal imaging device Laure Parent [Posted: 03/19/2007]
• Dosimetry for synchrotron stereotactic radiotherapy: Monte Carlo simulations and radiosensitive gels Caroline Boudou [Posted: 12/12/2006]
• Large-Angle Ionization Chambers for Brachytherapy Air-Kerma-Strength Measurements Wesley S. Culberson [Posted: 11/21/2006]
• Motion Correction Techniques for Three-dimensional Magnetic Resonance Imaging Acquired with the Elliptical Centric View Order or the Shells Trajectory Yunhong Shu [Posted: 09/21/2006]
• Evaluation and Mitigation of Geometric Uncertanties in Prostate Cancer Radiation Therapy through Image Guidance William Y. Song, Ph.D. [Posted: 09/13/2006]
• Development of the 256-slice CT scanner and its advantages in four-dimensional charged particle therapy Shinichiro Mori [Posted: 09/13/2006]
• A new Computer Aided System for the detection of Nodules in Lung CT exams Alessandro Riccardi [Posted: 08/17/2006]
• Mechanisms of Intrinsic Radiation Sensitivity: The Effects of DNA Damage Repair, Oxygen, and Radiation Quality David J. Carlson, Ph.D. [Posted: 07/25/2006]
• The Modelling and Optimisation of P-type Diodes for Dosimetry in External Beam Radiotherapy Simon Greene [Posted: 07/06/2006]
• Evaluation of dose-response models and parameters using clinical data from breast and lung cancer radiotherapy Ioannis Tsougos [Posted: 06/20/2006]
• Dual Energy Techniques with Contrast Media in Digital Mammography: SNR and Dose Evaluation Paola Baldelli [Posted: 05/10/2006]
• Dosimetric Verification of Intensity Modulated Radiotherapy with an Electronic Portal Imaging Device Sandra Vieira [Posted: 03/16/2006]
• Development of a Whole Body Atlas for Radiation Therapy Planning and Treatment Optimization Sharif Qatarneh [Posted: 03/01/2006]
• Monte Carlo dose calculations in permanent implant brachytherapy: study of a radioactive stent in intravascular brachytherapy and of radioactive seeds in prostate brachytherapy Jean-François Carrier [Posted: 02/14/2006]
• Development of a scintillating fiber dosimeter Louis Archambault [Posted: 01/30/2006]
• An EGSnrc investigation of correction factors for ion chamber dosimetry Lesley A. Buckley [Posted: 11/07/2005]
• An in silico spatiotemporal simulation model of the development and response of solid tumors to radiotherapeutic and chemotherapeutic schemes in vivo . Normal tissues response to radiotherapy in vivo. Clinical testing. Vassilis P. Antipas [Posted: 10/20/2005]
• Magnetic Field In Radiation Therapy: Improving Dose Coverage In Tumors Of The Head And Neck By Reducing Lateral Electronic Disequilibrium Shada J. Wadi-Ramahi [Posted: 12/07/2005]

©2024, American Association of Physicists in Medicine. Individual readers of this journal, and nonprofit libraries acting for them, are freely permitted to make fair use of the material in it, such as to copy an article for use in teaching or research. (For other kinds of copying see "Copying Fees.") Permission is granted to quote from this journal in scientific works with the customary acknowledgment of the source. To reprint a figure, table, or other excerpt, see " How to request Permission to Re-Use Wiley Content " form. In addition, AAPM may require that permission be obtained from one of the authors. Address all inquiries to the Editorial Office, Medical Physics Journal, AAPM, 1631 Prince Street, Alexandria, VA 22314 | [email protected]

***The views and opinions expressed in articles published in Medical Physics are those of the author(s) and do not necessarily reflect the official policy or position of AAPM, their staff or affiliates.***

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Stanford Biomedical Physics (BMP) PhD Program

Medical Physics Track Under BMP PhD Program

Program Overview

The Departments of Radiology and Radiation Oncology are proud to offer a new PhD program in Biomedical Physics (BMP). This program, supported by and integrating faculty from these two departments, was formally approved by the university in May 2021 and welcomed its first class of students in fall 2022. This program aims to offer unique interdisciplinary training in physics and engineering applied to solve clinical problems. This burgeoning translational field integrates topics including medical physics, diagnostic imaging, and molecular imaging and diagnostics. Synergistic with multiple departments and institutes from the School of Medicine, Engineering, and Humanities and Sciences, the BMP program leverages Stanford’s outstanding faculty, research, and resources to create a world-class training program. It targets physics, bioscience, and engineering students seeking to become the next generation of leaders focused on addressing the technical challenges of clinical medicine.

Students admitted to the BMP PhD program can choose to complete a CAMPEP curriculum that will allow them to pursue medical physics residencies and certification by the American Board of Radiology (ABR) in preparation for a career in clinical physics. This subtrack of BMP is offered in collaboration with the Medical Physics Certificate Program.

Admission Requirements and Process

Prerequisites

All students pursuing the BMP PhD program will have to complete the requirements for the BMP PhD program. Undergraduates with a major or minor in physics or equivalent of a minor in physics are encouraged to apply if interested in pursuing the Medical Physics Track.

Degree Requirements

• The Medical Physics Track follows the BMP PhD degree requirement described on Stanford Bulletin , but with different course requirements. In addition to 3 listed core courses, students are required to finish 4 more courses including:
• BMP 251 Medical Physics and Dosimetry
• BMP 252 Radiation Therapy Physics
• BMP 269A Medical Imaging Systems l, and
• BMP 269B Medical Imaging Systems lI

Students must complete the BMP requirements and also take the required CAMPEP courses.

Medical Physics CAMPEP students

Enrolled in Program

No graduates at this time.

Admissions and Graduation Data

10-step guide

Radiation Therapy

Treatment planning, biological modelling , image guided radiotherapy.

Multi-centre/international comparisons

Clinical trials outcomes

At UWA, Medical Physics research is strongly aligned with improving treatment and diagnostic precision using localized and minimally invasive techniques that are aimed to improve patient outco mes.

Studying Medical Physics at UWA provides an exceptional opportunity to learn in a department with strong commitment to research. The research component of this programme allows students to develop valuable skills for practising and interpreting research.

Research opportunities are available for students. To submit an expression of interest for a research opportunity, fill out our form

Radiation Therapy (RT)

Biological modelling of tumour and normal tissue dose responses

Modelling the interaction of radiotherapy and immunotherapy

Intensity Modulated Radiation Therapy (IMRT)

3D printing application in radiation therapy

Intra-Operative Radiation Therapy (IORT)

Image Guided Radiation Therapy (IGRT)

Modelling, Simulation, and Prototyping

Development of monitoring devices

Assessment of impact of inaccuracy

Treatment planning optimization

Stereotactic Radiosurgery (SRS)

Tracking patient/organ motion

Treatment delivery accuracy

QA on treatment equipment

Small-animal radiotherapy

Robotics applications

Pre-clinical studies

Immunotherapy

3-D dosimetry

Drug studies

Nuclear Medicine (NM)

Implementation of a SPECT quality phantom QA regime in a nuclear medicine department

Creation of semi-automated image analysis tools for PET processing

Image analysis, dosimetry and theranostics radiopharmaceuticals

Radiation Biology (RB)

Bio-guided radiotherapy planning

Simulation of cancer tissue

Simulation of treatment effect

Optimisation of treatment

Patient-specific simulation

Radiation Protection (RP) and Medical Health Physics (MHP)

Identification and Quantification of Radioisotopes with a HPGe Gamma Spectrometer

Diagnostic Imaging (DI)

Realistic breast models for optimising electromagnetic gradiometric measurements

Molecular imaging

Bio-imaging with magnetic gradiometry

Other themes

Biostatistics

3D data processing

Machine learning methods

• Course Descriptions
• Diversity and Inclusion
• PhD Requirements
• Course Sequence
• Policy Handbook
• Careers in Medical Physics
• Graduate Program Statistics

Required and elective courses offered by the Committee on Medical Physics

MEMP PhD Program

Hst’s memp phd program, is this program a good fit for me.

HST’s Medical Engineering and Medical Physics (MEMP) PhD program offers a unique curriculum for engineers and scientists who want to impact patient care by developing innovations to prevent, diagnose, and treat disease. We're committed to welcoming applicants from a wide range of communities, backgrounds, and experiences.

How is HST’s MEMP PhD program different from other PhD programs?

As a MEMP student, you’ll choose one of 11 technical concentrations and design an individualized curriculum to ground yourself in the foundations of that discipline. You’ll study medical sciences alongside MD students and become fluent in the language and culture of medicine through structured clinical experiences. You’ll select a research project from among laboratories at MIT, Harvard, affiliated hospitals and research institutes , then tackle important questions through the multiple lenses of your technical discipline and your medical training. As a result, you will learn how to ask better questions, identify promising research areas, and translate research findings into real-world medical practice.

What degree will I earn?

You’ll earn a PhD awarded by MIT or by the Harvard Faculty of Arts and Sciences.

What can I do with this degree?

Lead pioneering efforts that translate technical work into innovations that improve human health and shape the future of medicine.

How long will it take me to earn a PhD in HST’s MEMP program?

Similar to other PhD programs in MIT's School of Engineering, the average time-to-degree for MEMP PhD students is less than six years.

What are the degree requirements?

Science / engineering.

Choose one of the established concentration areas and select four courses from the approved list for the chosen area. Current MEMP concentration areas are:

• Aeronautics & Astronautics
• Biological Engineering
• Brain & Cognitive Sciences
• Chemical Engineering
• Computer Science
• Electrical Engineering
• Materials Science & Engineering
• Mechanical Engineering
• Nuclear Engineering

Harvard MEMPs fulfill Basic Science/Engineering Concentration and Qualifying Exam through their collaborating department (SEAS or Biophysics).

Biomedical Sciences and Clinical Requirements

Biomedical sciences core.

• HST030 or HST034: Human Pathology
• HST160: Genetics in Modern Medicine
• HST090: Cardiovascular Pathophysiology

Restricted Electives - two full courses required*

• HST010: Human Anatomy
• HST020: Musculoskeletal Pathophysiology*
• HST100: Respiratory Pathophysiology**
• HST110: Renal Pathophysiology**
• HST130: Introduction to Neuroscience
• HST162: Molecular Diagnostics and Bioinformatics*
•  HST164: Principles of Biomedical Imaging*
• HST175: Cellular & Molecular Immunology

*  May combine two half-courses to count as one full course **Must choose at least one of HST100, HST110

Clinical Core

• HST201: Intro. to Clinical Medicine I and HST202: Intro. to Clinical Medicine II
• HST207: Intro. to Clinical Medicine

PhD Thesis Guide

Letter of intent #1:.

Research advisor and topic. Due by April 30 of 2nd year.

Letter of Intent #2:

Tentative thesis committee. Due by April 30 of 3rd year.

Thesis proposal:

Defended before thesis committee. Due by April 30 of 4th year.

Final Thesis:

Public defense and submission of final thesis document.

Harvard MEMPs must an electronic copy of the final thesis including the signed cover sheet. Harvard MEMPs should not register for HST.ThG.

Qualifying Exam

TQE: Technical qualification based on performance in four concentration area courses and Pathology

OQE: Oral examination to evaluate ability to integrate information from diverse sources into a coherent research proposal and to defend that proposal

Professional Skills

Hst500: frontiers in (bio)medical engineering and physics.

Required spring of first year

HST590: Biomedical Engineering Seminar

Required fall semester of first year. Minimum of four semesters required; one on responsible conduct of research and three electives. Topics rotate.

Required for all MEMP students. (Biophysics students may substitute MedSci 300 for HST590 term on responsible conduct of research.)

Professional Perspectives 

Required once during PhD enrollment 

What can I expect?

You’ll begin by choosing a concentration in a classical discipline of engineering or physical science. During your first two years in HST, you’ll complete a series of courses to learn the fundamentals of your chosen area.

In parallel, you’ll become conversant in the biomedical sciences through preclinical coursework in pathology and pathophysiology, learning side-by-side with HST MD students.

With that foundation, you’ll engage in truly immersive clinical experiences, gaining a hands-on understanding of clinical care, medical decision-making, and the role of technology in medical practice. These experiences will help you become fluent in the language and culture of medicine and gain a first-hand understanding of the opportunities for — and constraints on — applying scientific and technological innovations in health care.

You’ll also take part in two seminar classes that help you to integrate science and engineering with medicine, while developing your professional skills. Then you’ll design an individualized professional perspectives experience that allows you to explore career paths in an area of your choice:  academia, medicine, industry, entrepreneurship, or the public sector.

A two-stage qualifying examination tests your proficiency in your concentration area, your skill at integrating information from diverse sources into a coherent research proposal, and your ability to defend that research proposal in an oral presentation.

Finally, as the culmination of your training, you’ll investigate an important problem at the intersection of science, technology, and medicine through an individualized thesis research project, with opportunities to be mentored by faculty in laboratories at MIT, Harvard, and affiliated teaching hospitals.

Interested in applying? Learn about the application process here.

HST MEMP grad Carmen Martin Alonso looks ahead to a bright future as a medical researcher

Department of Radiation Oncology

Doctor of Philosophy (PhD) in Medical Physics

The Doctor of Philosophy (PhD) in Medical Physics program at Washington University in St. Louis provides for students to learn fundamental concepts and techniques, and perform academic research in the field of medical physics. The program is geared towards undergraduates with a strong background in physics and mathematics, graduate students with a physics and mathematics background from fields outside of medical physics, as well as continuing learners with a CAMPEP-accredited Master’s level degree in Medical Physics. Students in the program will be exposed to a wide array of diagnostic medical imaging, radiation therapy, nuclear medicine, and radiation safety approaches and techniques, and will perform cutting-edge research with renowned investigators. These experiences will equip students with the knowledge, skills and experiences necessary to further their careers in clinical and/or academic medical physics.

Graduates of the program will:

• Gain a solid academic foundation for a career in medical physics in any of the focus areas of medical physics, including medical imaging, radiation therapy, and nuclear medicine.
• Develop skills to become independent investigators and perform cutting-edge research.
• Pose new questions and solve problems in medical physics.
• Generate innovative ideas and conduct research to improve the quality and safety in clinical physics.

The program will also help develop the professional and interpersonal skills necessary for success in a collaborative, multidisciplinary environment. The program has adopted the  AAPM’s  philosophy of  medical physics 3.0 , which is based on developing intelligent tools and applications for the future of precision medicine, and has been developed based on anticipating the future needs of the medical applications of physics. Through a mixture of didactic training, research training, and hands-on experience, students in the program are introduced to a broad array of cutting-edge tools and techniques and their use in the various disciplines of medical physics and patient care.  Students in the PhD in Medical Physics program will furthermore learn how to develop new techniques, approaches, and technology to contribute to the continued evolution of the field of medical physics.

The objectives of the PhD in Medical Physics program are:

• To prepare students to become independent investigators in the field of medical physics and be able to drive their own research programs by exposing them to cutting-edge research and state-of-the art technology.
• To equip students with sufficient theoretical and practical background knowledge in medical physics to enable entry into CAMPEP-accredited clinical residency programs or to pursue careers in academic, industrial, or regulatory environments.

The Doctor of Philosophy in Medical Physics program endeavors to provide a welcoming and supportive environment for individuals of all backgrounds and lifestyles, in accordance with Washington University School of Medicine’s focus on fostering a diverse and inclusive environment.  Washington University School of Medicine’s culture of collaboration and inclusion is the foundation for success in everything it does. The School of Medicine recognizes that by bringing together people from varying backgrounds, experiences and areas of expertise, it can develop richer solutions to complex scientific questions, train culturally sensitive clinicians and provide health care in a way that best serves our diverse patient population. To support these values, the School of Medicine is deeply committed to building a diverse and inclusive community in which everyone is welcomed and valued. Washington University encourages and gives full consideration to all applicants for admission, financial aid and employment regardless of race, color, ethnicity, age, religion, sex, sexual orientation, ability, gender identity or expression, national origin, veteran status, socio-economic status, and/or genetic information. We implement policies and practices that support the inclusion of all such potential students, trainees and employees and are committed to being an institution that is accessible to everyone who learns, conducts research, works and seeks care on our campus and we provide reasonable accommodations to those seeking that assistance.

Program Format and Course Catalog

• Financial Information
• Program Faculty

Additional Resources

• Frequently Asked Questions

Living in St. Louis

• ACGME Clinical Residency Program
• Check out St. Louis
• Medical Physics Residency Program in Radiation Oncology (CAMPEP-Accredited)
• Program Format & Course Catalog
• Program Statistics – Doctor of Philosophy (PhD)
• Master of Science in Medical Physics (CAMPEP-Accredited)
• Post PhD Graduate Certificate in Medical Physics (CAMPEP-Accredited)
• Graduate Education & Training in Cancer Biology and Medical Physics
• Clinical Clerkship Opportunities for Medical Students
• Purdy Summer Research Fellowship Program