radiology phd programs

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Radiology and Radiological Science

Educating Radiology's Future Leaders

The Russell H. Morgan Department of Radiology and Radiological Science places a strong emphasis on education and mentoring at every level. As part of The Johns Hopkins Hospital, we take advantage of being affiliated with a top-ranked hospital in the nation. And while rankings aren't everything, they have certainly helped us attract some of the brightest physicians, educators and students in the country.

We impart the highest quality education through a combination of theoretical training and practical hands-on clinical experience that prepares its students to become leaders in their chosen fields of specialty. Our Radiology Program ranked 1st by  U.S. News and World Report in their 2021 School of Medicine Department Specialty Rankings .

Learn about our residency programs in diagnostic radiology and nuclear medicine.

Fellowships

Apply for one of our subspecialty fellowships in radiology and radiological science.

Master’s in Medical Physics

The program is designed for those who wish to pursue a career as a medical physicist either as a researcher, as a certified clinical profession or in industry.

Technologist Programs

We offer full-time certificate training programs in medical imaging technology.

U.S. News and World Report Congratulations to Johns Hopkins Radiology

Ranked #6 in the World for Best Global University for Radiology, Nuclear Medicine and Medical Imaging

watch video Medical Physics Master’s Program

Watch division director and an array of faculty members at the Johns Hopkins Radiological Physics division discuss the Medical Physics Master’s Program with a Q&A session. Learn about cutting-edge areas including theranostic physics, the role of a clinical medical physicist, the value medical physics brings to research endeavors, and more.

e-Radiology Learning Online Supplementary Education in Radiology

e-Radiology Learning is an interactive educational program, which is hosted by the Johns Hopkins Department of Radiology and derived from our own radiology resident training program. It provides participants with core knowledge of normal anatomy, pathologic conditions and physics.

2021-2022 U.S. News & World Report Ranked #1 in the Nation

Ranked #1 in the nation according to U.S. News & World Report's 2022 Best Research-Oriented Medical School rankings. 

Radiology Trainees on the Front Lines of COVID-19

Andrew Kolarich, MD, is a first-year diagnostic and interventional radiology resident at Johns Hopkins Hospital, Baltimore was interviewed about his two weeks working in a COVID-19 medical ICU at Johns Hopkins Hospital and two weeks at Johns Hopkins Bayview Medical Center.

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PhD in Imaging Science

The PhD program in imaging science at Washington University in St. Louis is one of only two such programs in the U.S. and offers an interdisciplinary curriculum that focuses on the technology of imaging with applications ranging from cancer diagnosis and neuroimaging to advanced microscopy to augmented reality.

This interdisciplinary program brings together expert faculty from the  McKelvey School of Engineering  and the  School of Medicine  to provide students the freedom and flexibility to learn from leading imaging experts and engage in impactful research. This emerging academic discipline broadly addresses the design and optimization of imaging systems and the extraction of information from images. 

PhD application deadline: Dec. 15  Start your application today

Imaging science research news

Looking deeper with adaptive six-dimensional nanoscopy

With a $2 million NIH grant, Matthew Lew will develop smart microscopes to reveal dynamic interactions between individual biomolecules

Pushing the boundaries of the visible world

Washington University engineers, scientists and physicians team up to advance imaging science and improve human health

Patients with brain cancer may benefit from treatment to boost white blood cells

Blocking immune suppressor cells in mice with glioblastoma improved survival

Imaging Science by the numbers

Get an inside look at our imaging science labs and facilities:.

A multidisciplinary team at WashU has found an innovative way to use photoacoustic imaging to diagnose ovarian tumors.

Get a glimpse of the Medical Campus of Washington University in St. Louis

Take a look at inside the lab of Matthew Lew

Student profiles

Aahana Bajracharya

Sneha Das Gupta

Kaushik Dutta

Wiete Fehner

Yuanxin Qiu

Get involved in the imaging science community at WashU:

• Imaging Science Pathway
• Imaging Science Student Council
• Math Crash Course
• Spectra (student-led imaging society)

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Graduate Research in the Department of Radiology and Medical Imaging

A wide variety of research projects leading to PhD or Masters degrees are available in the Department of Radiology and Medical Imaging. Our primary and adjunct faculty are engaged in research dedicated to the detection, diagnosis, and monitoring of disease through advancement in medical imaging technology , including the development of new instrumentation, imaging procedures and protocols, image acquisition sequences, and image analysis techniques. Imaging research is being applied in both the pre-clinical (animal imaging) and clinical (human imaging) arenas, and in both structural (anatomic) and functional (molecular) domains. A number of labs have research that is translational in nature, in which devices or methodologies developed in the laboratory are then moved to early testing in humans.

Eligibility

Students enrolled in any graduate program at UVA are eligible. Imaging students have research advisors with primary or adjunct appointments in the Department of Radiology and Medical Imaging, and receive their degrees in the discipline of the program in which they are enrolled (for example a PhD in Engineering Physics, a Masters degree in Biomedical Engineering, a PhD in Physics, or a PhD in Electrical and Computer Engineering). Degrees that have been historically well represented include Physics, Biomedical Engineering, and Engineering Physics.

Students in the imaging program have substantial flexibility in their choice of research projects and coursework. Most imaging research is by nature highly interdisciplinary, involving interactions with imaging physicists, chemists, biologists, computer scientists, radiologists, surgeons, clinicians, clinical technologists, and patients. Accordingly, in addition to the core courses required by their home department students in the program usually take courses offered by several different departments (e.g. BME, ECE, Microbiology, Immunology, and Cancer Biology) over the course of their graduate work. Face-to-face meetings with potential medical imaging research advisors ( see Research Faculty ) are strongly recommended to help ensure the best match between student interests and available research projects.

For More Information

Visit the Faculty section for a list of researchers (including their research specialties) and contact the individual faculty members directly:  Medical Imaging Research Faculty

Related Graduate Programs

• MSTP (MD/PhD)
• Engineering Physics
• Electrical Engineering
• Microbiology/Immunology
• Cancer Biology
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• Imaging Services
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Course type

Qualification, university name, phd degrees in diagnostic imaging.

11 degrees at 9 universities in the UK.

Customise your search

Select the start date, qualification, and how you want to study

About Postgraduate Diagnostic Imaging

Diagnostic imaging is a branch of healthcare technology which uses a variety of machines and methods to let doctors look inside the body to diagnose medical issues and prescribe treatments. It’s an important area of medicine as it allows for fast, non-invasive diagnosis and monitoring of health conditions and there is a range of imagine technologies to suit a diversity of use-cases, such as X-rays, CT scans, MRI technology and ultrasound.

PhD courses represent the highest formal academic level of study in this field and contain a significant research component. Applicants are generally expected to hold a minimum 2:1 undergraduate degree in a related medical or biological sciences subject area for entry to a PhD programme. Courses last two to four years full-time or can be studied part-time with a typical duration of four to six years. There are nine such courses available in the UK and provide strong preparation for roles as researchers, educators and advanced practitioners in the field of diagnostic imaging.

What to Expect

A diagnostic imaging PhD programme involves advanced research in medical imaging technologies, such as radiography, CT scans and MRI. Students conduct in-depth research on imaging innovations, diagnostic accuracy and patient outcomes and you can expect to be supervised by leading experts in both diagnostic and therapeutic radiography. Universities which run PhD courses generally have very strong connections with national and international patient groups, research centres and professional bodies.

Trans-disciplinary collaboration with industry partners and major teaching hospitals is also a regular feature of research degrees like this and after graduation, you’ll be ready to take on work at the very highest level of the professional field of diagnostic imaging.

Related subjects:

• PhD Diagnostic Imaging
• PhD Audiology
• PhD Biomedical Engineering
• PhD Cardiovascular Medicine
• PhD Dental Health Education
• PhD Dental Hygiene
• PhD Dental Technology
• PhD Dentistry
• PhD Dermatology
• PhD Emergency First Aid
• PhD Endocrinology
• PhD Endodontics
• PhD Epidemiology
• PhD Forensic Medicine
• PhD Gastroenterology
• PhD Geriatric Medical Studies
• PhD Haematology
• PhD Immunology
• PhD Medical Radiography
• PhD Medical Radiology
• PhD Medical Sciences
• PhD Medical Statistics
• PhD Medical Technology
• PhD Neurology
• PhD Obstetrics
• PhD Oncology
• PhD Ophthalmology
• PhD Optometry
• PhD Orthodontics
• PhD Orthopedics
• PhD Paramedical Services and Supplementary Medicine
• PhD Paramedical Work
• PhD Parenting and Carers
• PhD Pathology
• PhD Pediatrics
• PhD People with Disabilities: Skills and Facilities
• PhD Personal Health and Fitness
• PhD Pharmacology
• PhD Pharmacy
• PhD Prosthetics
• PhD Prosthodontics
• PhD Psychiatry
• PhD Psychoanalysis
• PhD Radiotherapy
• PhD Respiratory & Chest Diseases
• PhD Rheumatology
• PhD Sports Medicine
• PhD Surgery
• PhD Surgery, Medicine and Dentistry
• PhD Women's Health

• Course title (A-Z)
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• Price: low - high

Cardiovascular Sciences PhD,MPhil - Biomarkers

University of leicester.

The School of Cardiovascular Sciences offers supervision for the degrees of Doctor of Philosophy (PhD) - full-time and part-time Master Read more...

• 3 years Full time degree: £4,786 per year (UK)
• 6 years Part time degree: £2,393 per year (UK)

Medical Imaging MRes and MPhil/PhD

Ucl (university college london).

In partnership with our NIHR Biomedical Research Centres and Unit, PhD projects will be strongly multi-disciplinary, bridging the gap Read more...

• 3 years Full time degree: £6,035 per year (UK)
• 5 years Part time degree: £3,015 per year (UK)

Medical Physics and Imaging, PhD

Swansea university.

Our Medical Physics and Imaging PhD programme is available on a full-time or part-time basis, over 3 or 6 years. Do you want a career as a Read more...

• 3 years Full time degree: £4,800 per year (UK)

PhD Medical Imaging

University of exeter.

Our research based around four distinct themes • Diabetes, Cardiovascular risk and Ageing • Environment and Human Health • Health Services Read more...

• 4 years Full time degree: £4,786 per year (UK)
• 8 years Part time degree

Biomedical Imaging and Biosensing PhD

University of liverpool.

The Department of Cellular and Molecular Physiology builds on a long and prestigious history and remains a leading international centre Read more...

• 2 years Full time degree: £4,786 per year (UK)
• 4 years Part time degree: £2,393 per year (UK)

PhD/MPhil Biomedical Imaging Sciences

University of manchester.

Programme description Our PhD Biomedical Imaging Sciences programme enables you to undertake a research project that will improve Read more...

PhD in Cognitive Neuroscience and Neuroimaging

University of york.

As an internationally renowned research department we have a vibrant community of research postgraduates. We offer full-time and part-time Read more...

Neuroimaging Research MPhil/PhD

King's college london, university of london.

Neuroimaging at the IoPPN is world-renowned. The Department of Neuroimaging is embedded in the Centre for Neuroimaging Sciences, a joint Read more...

• 3 years Full time degree: £7,950 per year (UK)
• 6 years Part time degree: £3,975 per year (UK)

PhD / MPhil Imaging

Keele university.

The School of Allied Health Professions (SAHP) Research topics within SAHP are aimed at optimising technical elements of imaging Read more...

• 3 years Full time degree: £4,712 per year (UK)
• 6 years Part time degree: £2,356 per year (UK)

Biomedical Engineering & Imaging Sciences MPhil/PhD MD/(Res)

A diverse and talented group working across the whole Medtech sector, we advance research, innovation and teaching progress through our Read more...

• 3 years Full time degree: £6,540 per year (UK)
• 6 years Part time degree: £3,300 per year (UK)

PhD / MPhil Diagnostic Science

Specific research areas include Selected Ion Flow Tube mass spectrometry (SIFT-MS) for the trace gas analysis of breath and urine; Read more...

Course type:

• Full time PhD
• Part time PhD

Qualification:

Related subjects:.

Biomedical Imaging

The Master of Science in Biomedical Imaging Program is designed to provide STEM bachelor’s degree recipients with a comprehensive introduction to the physics, mathematics, radiochemistry, and engineering principles and methods that underly each of the major imaging modalities currently in use in clinical radiology and pathology.  The Program is highly interdisciplinary and includes faculty members with expertise in physics, radiology, engineering, mathematics, radiochemistry, and pathology.  Nearly all courses will be developed by faculty specifically for the Program.

The Master’s thesis portion of the program enables students to directly apply knowledge gained in the courses, either in one of the imaging research laboratories at Weill Cornell Medicine or Memorial Sloan-Kettering Cancer Center, or with a faculty member devoted to clinical service and innovation.  Graduates of the Program will be well positioned to secure jobs in academia, industry, and government, or further education in PhD or MD programs.

There has recently been tremendous growth in biomedical imaging research and clinical applications worldwide, and many faculty members participating in the Program are world leaders in the development of imaging biomarkers and their application to an extremely broad range of human diseases.  Weill Cornell Medicine and Memorial Sloan-Kettering Cancer Center are located on adjacent campuses, and together manage one of the most comprehensive inventories of imaging hardware and software in the world.  These scanners will provide a hands-on training environment to students.

A unique feature of the Program is the two-track structure.  While all students will enroll in the same courses, the Laboratory Track offers a traditional imaging research thesis project, while the Clinical Track offers a thesis project designed around innovations in the practice of Radiology.

Curriculum / Courses

Program features include:

• 24 months duration, full-time study
• cohesive interdisciplinary educational program
• individual mentored research project
• career development training

Imaging Resources

Both Weill Cornell Medical College and Memorial Sloan-Kettering Cancer Center operate large, well-funded imaging research Core facilities that will be available to all students enrolled in the Program.  At Weill Cornell, the Citigroup Biomedical Imaging Center and Microscopy and Image Analysis Core facilities support over 100 research groups and include MRI, PET, SPECT, CT, ultrasound and optical imaging for studies of human subjects, animal models of disease, and specimens.  At Memorial Sloan-Kettering, the Animal Imaging Core provides investigators with unique capabilities for the noninvasive detection, localization, and characterization of primary and metastatic cancer cells in vivo in small animal models.  This Core also contains MRI, PET, SPECT, CT, ultrasound and optical imaging scanners and offers image analysis services.

Program Requirements

The Program is designed for applicants holding a bachelor’s degree in physics, chemistry, mathematics or engineering. Applicants must have completed undergraduate-level coursework in multivariable calculus including Fourier analysis techniques, ordinary and partial differential equations, linear algebra, probability theory or statistics, and computer programming.

We seek applications from students with diverse undergraduate degrees and welcome applications from talented individuals of all backgrounds.   All application forms and supporting documents are submitted online. You will be asked to submit or upload the following:

• Personal Statement describing your background and specific interest in the MS-BI program.
• Résumé/C.V.
• Three letters of recommendation. Letters must be submitted electronically as instructed through the online application.
• Transcripts from all previously attended colleges and universities:
• Domestic Transcripts - Unofficial transcripts from U.S. institutions may be submitted for application review. Official transcripts will be requested from accepted students prior to matriculation.
• If using WES, please select the WES Basic Course-by-Course evaluation and choose "Cornell University - Manhattan NY" as the recipient with "Weill Graduate School of Medical Sciences" as the School/Division 
• Evaluations are accepted only from  current members of the National Association of Credit Evaluation Services (NACES) .  Official course-by-course evaluations are required for application review.
• $80 application fee
• Results of the General Graduate Record (GRE) examination are optional. The Institution Code Number is 2119.
• Scores from the  Test of English as a Foreign Language (TOEFL) ,  International English Language Testing System (IELTS) , or  Duolingo English Test . Test scores are valid for two years after the test date. To see if you qualify for an exemption, see below.
• To submit your official TOEFL scores, please go to  http://www.ets.org/toefl  and request your scores to be sent to Weill Cornell Graduate School using code 2119. Please monitor your application to ensure that your scores are populated by ETS. Note: If you have taken the TOEFL iBT test more than once within the last 2 years, ETS will automatically include your  MyBest scores  along with the traditional scores from your selected test date. If you would like us to consider your MyBest scores, please write to let us know.  While the Graduate School will consider your MyBest scores, individual programs may not accept them.
• IELTS scores are valid for two years after the test date. IELTS results must be submitted directly via e-delivery to “Weill Cornell Graduate School of Medical Sciences.”
• Results for the Duolingo English Test are valid for two years after the test date. Applicants must submit their results directly through Duolingo to “Weill Cornell Graduate School of Medical Sciences".

Tuition, Fees, and Scholarships

The student services website contains program-specific details on tuition and fees:  https://studentservices.weill.cornell.edu/student-accounting/tuition-fees-program .

New scholarship opportunity: The Biomedical Imaging program is proud to announce the John Evans Professorship Endowed Tuition Assistance scholarship. This endowed tuition assistance scholarship was established to help support the professional development of two students enrolled in the​ master's program in Biomedical Imaging who have a financial need and to support diversity and inclusion in the field of Radiology/STEM as a path to reducing healthcare disparities. Find more information about this scholarship here:  John Evans Professorship Scholarship

Please note that tuition and fees are set for the current academic year but are subject to change each year.

English Language Proficiency Exam

The English language proficiency requirement may be waived if an applicant meets at least one of the following criteria:

Citizenship/Permanent Residency

• If the applicant is a citizen or permanent resident of the United States or its territories (e.g., Puerto Rico), or a citizen of the United Kingdom, Ireland, Australia, New Zealand, or Canada, they are exempt.
• Applicants who are citizens of all other countries, including India, Pakistan, the Philippines, Hong Kong, Singapore, etc. are not exempt and must submit English language proficiency exam scores.

English-Language Instruction

• Applicants who, at the time of enrollment, have studied in full-time status for at least two academic years within the last five years in the United States, the United Kingdom, Ireland, Australia, or New Zealand, or with English language instruction in Canada or South Africa, are exempt.
• Applicants must submit a transcript that shows they studied in one of the approved locations, and that the academic program was at least two years in length.
• Even if English was the language of instruction of the course or institution, it must have been in one of the eligible locations, otherwise the applicant is not exempt from the requirement.

Application Timeline & Deadline

The application site for Fall 2024 admission is closed.

Program Address

Weill Cornell Graduate School of Medical Sciences 1300 York Ave. Box 65 New York, NY 10065 Phone: (212) 746-6565 Fax: (212) 746-5981

Upcoming Events

We're always working on putting events together. Be sure to check back soon for more event listings.

Student Stories

As a first-year graduate... I was amazed by the quantity and quality of our lab experience. 

• Burgess, Mark
• Deasy, Joseph
• Ketterling, Jeff
• Mahmood, Usman
• Mukherjee, Sushmita
• Niogi, Sumit
• Otazo, Ricardo
• Robinson, Brian
• Veeraraghavan, Harini

Douglas J. Ballon PhD Program Chair Professor of Physics in Radiology Director, Citigroup Biomedical Imaging Center Department of Radiology Weill Cornell Medical College 1300 York Avenue, Box 234 New York, NY 10021 (212) 746-5679 [email protected]

Andrew D. Schweitzer MD Program Director (Weill Cornell Medical College) Associate Clinical Professor of Clinical Radiology Department of Radiology Weill Cornell Medical College 1300 York Avenue, Box 234 New York, NY 10021 (212) 746-6711 [email protected]

Pat B. Zanzonico PhD Program Director (Memorial Sloan-Kettering Cancer Center) Attending Physicist and Member Co-Director, Small Animal Imaging Facility Department of Medical Physics Memorial Sloan-Kettering Cancer Center 1275 York Avenue New York, NY 10021 (646) 888-2134 [email protected]

Sarah Schaller Program Coordinator 1300 York Ave, Box 65 New York, NY 10065 [email protected]

Courses and Required Curricular Components

• Anatomy for Imaging Scientists
• Biomedical Imaging Master’s Thesis Research
• Career Development in Biomedical Imaging
• Health Literacy
• Machine Learning with Images
• Magnetic Resonance Imaging
• Optical and Electron Microscopy
• Physics in Nuclear Medicine
• Special Topics in Biomedical Imaging
• Ultrasound Imaging
• X-Ray Methods and Computed Tomography

Student Handbook

To view the MBIO Student Handbook, click here .

Weill Cornell Medicine Graduate School of Medical Sciences 1300 York Ave. Box 65 New York, NY 10065 Phone: (212) 746-6565 Fax: (212) 746-8906

Admission office: +7 969 2834820 [email protected]

Department of Radiology and Radiotherapy

MBBS in Russia | MBBS in Moscow | Study Radiology and Radiotherapy in Russia | Study Radiology and Radiotherapy in Moscow | Radiology and Radiotherapy Education in Russia | Radiology and Radiotherapy Education in Moscow | MBBS Admission in I.M. Sechenov First Moscow State Medical University | MBBS Fee in I.M. Sechenov First Moscow State Medical University | Radiology and Radiotherapy Admission in I.M. Sechenov First Moscow State Medical University | Apply for MBBS Admission in I.M. Sechenov First Moscow State Medical University | How to Get Direct Admission in MBBS in I.M. Sechenov First Moscow State Medical University | Study Radiology and Radiotherapy in I.M. Sechenov First Moscow State Medical University | About Radiology and Radiotherapy in I.M. Sechenov First Moscow State Medical University | Radiology and Radiotherapy Fee in I.M. Sechenov First Moscow State Medical University

The Department of Radiation Diagnostics and Radiation Therapy at the Faculty of Medicine is one of the oldest departments of the First Moscow State Medical University named after I.M. Sechenov, the history of the department has more than 80 years. The department has a rich historical experience in the organization of educational and professional activities of students, which is an integral part of the training and education of the modern doctor. Today, the department employs leading scientists and highly qualified teachers who are able to provide a high level of basic and professional training of students at the level of world requirements.

The priority areas of research activities of the Department in the composition of the NOC Center “Hybrid Technologies of Radiation Medicine” are:

1. Development and implementation of innovative hybrid technologies of radiation diagnosis and treatment in cardiovascular surgery. Planning and monitoring the effectiveness of hybrid heart and vascular operations. Development of new techniques in the study of myocardial perfusion in various diseases and conditions. 2. Development of the newest hybrid X-ray surgery technology. In particular, the introduction of modern technologies of endovascular diagnosis and treatment of coronary and other peripheral vessels. 3. Development of new algorithms for high-tech radiology in oral and maxillofacial surgery. The introduction of innovative systems of virtual planning and modeling of surgical treatment of diseases of the maxillofacial region. 4. Development and implementation of new non-invasive high-tech radiation research techniques in monitoring women’s health and reproduction. 5. Development and implementation of new hybrid radiation technologies in the diagnosis of socially significant diseases (traumatic, oncological) of various organs and systems, protocols and algorithms for their application. 6. The study and introduction of new features of radiation technologies in clinical practice: multispiral computed tomography, magnetic resonance imaging, cone-beam computed tomography, ultrasound and radionuclide diagnostics techniques, X-ray technology.

Now the name of the department “radiation diagnosis and radiation therapy” reflects the volume of the specialty that is taught at the department on the 3rd and 4th courses of medical, pediatric, dental and other faculties – this is a single department for the entire University. Every year more than 3,000 students study at the department. In addition, radiology internships, clinical residents of the first and second year, postgraduate studies in the specialty 14.01.13 “Radiology, radiation therapy” are trained at the department, they improve their qualifications and are confirmed by specialist practitioners’ certificates

Forms of education: full-time, part-time. Target as well as paid forms of postgraduate education are included.

The department oversees the medical work of all practical departments related to radiation diagnosis.

The department has a scientific circle that unites students who seek to master the skills of scientific material processing. In recent years, “Schools of Excellence” have become increasingly popular, in which students of 5 and 6 courses receive practical skills under the guidance of a young professor in the department.

In 2015, the University opened the Russian-Japanese Research and Education Center for Heart Imaging, in which new techniques and approaches to new diagnostics and minimally invasive treatment of socially significant diseases are being worked out.

Admission is open

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Admission 2021-2022 is open now. Join to thousands of happy students in First Moscow State Medical University

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Admission office for international students.

Adfress: 119991, Moscow, Trubetskaya street, house 8, building 2, Russia

Phone: +7 (969) 283-48-20

Email: [email protected]

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Stanford Radiology Residency Program Directors

Clinical training.

• Clinical Fellowships
• Diagnostic Radiology Residency
• Nuclear Medicine Residency
• IR-DR Integrated Residency
• Independent Interventional Radiology Residency

PhD Program

• Biomedical Physics (BMP)

CME Grand Rounds

Current Schedule »

2 nd  & 4 th  Fridays,  12:00 pm - 1:00 pm (except June - August)*

All CME Grand Rounds are via Zoom until further notice  

March-April 2020

Special Mini-Grand Rounds Schedule »

Margaret Lin, MD Director, Diagnostic Radiology Residency

Edward Lo, MD Associate Director

William Kuo, MD Director, Integrated IR/DR Residency

Gloria Hwang, MD Associate Director

Justin Tse, MD Associate Director (Research)

John Louie, MD Director, Independent IR Residency

Bryan Lanzman, MD Associate Director

Jayne Seekins, MD Associate Director

Benjamin Franc, MD, MS, MBA Director, Dual Pathway Nuc Med and DR Residency

Stanford Radiology Fellowship Program Directors

Cme courses.

Aya Kamaya, MD Body Imaging

Frandics Chan, MD, PhD Cardiovascular Imaging

Jeremy Heit, MD, PhD Neurointervention

Andreas Loening, MD, PhD Body MRI

Robert Boutin, MD Musculoskeletal Imaging

Erika Rubesova, MD Pediatric Radiology

Sarah Pittman, MD Breast Imaging

Eric Tranvinh, MD Neuroimaging

Ann Leung, MD Thoracic Imaging

Research Training

Advanced Residency Training at Stanford Program (ARTS)

The Advanced Residency Training at Stanford (ARTS) Program offers residents and clinical fellows the opportunity to combine their clinical training with advanced research training to complete a PhD degree during or upon completion of residency or clinical fellowship. The program begins with one or more years of postgraduate clinical training, followed by research training in one of twenty graduate programs from the Schools of Medicine, Engineering, or Humanities and Sciences. Through the ARTS Program that provides individuals with the tools needed to move freely between the laboratory and the clinic, Stanford demonstrates its commitment to the emerging disciplines of translational medicine and precision medical care.

Visit the ARTS website

Cancer-Translational Nanotechnology Training Program (Cancer-TNT)

The Cancer-TNT Program is a synergistic three-year postdoctoral training program bringing together 25 faculty and nine departments from the Schools of Medicine, Engineering, and Humanities and Sciences to train the next generation of interdisciplinary leaders in cancer nanotechnology research and clinical translation. Trainees complete coursework and research with two complementary mentors to bridge multiple disciplines such as chemistry, molecular biology, bioengineering, molecular imaging, nanoengineering, and clinical medicine to advance cancer nanotechnology translation research, diagnosis, and treatment.

Visit the Cancer-TNT website

Cancer Systems Biology Scholars Program (CSBS)

The CSBS program is a two-year postdoctoral training program at Stanford University focused on innovative, multidisciplinary cancer research education that seamlessly integrates experimental and computational biology to systematically unravel the complexity of cancer. The program brings together 36 Stanford faculty mentors from 19 departments or divisions bridging the Schools of Medicine, Engineering, and Humanities and Sciences. The CSBS Program has trained five inaugural scholars and completed candidate recruitment for the next trainee cohort that started on September 1, 2017.

Visit the CSBS website

Stanford Cancer Imaging Training Program (SCIT)

The SCIT Program is a two-year program that offers a unique research opportunity in cancer imaging. Currently in its 25th year of training, the program, initially called the Advanced Techniques for Cancer Imaging and Detection Program, was designed and directed by Dr. Gary Glazer, former chair of the department. The goal of the program is to provide MD and PhD research fellows advanced training in cancer-related imaging research with a focus that is primarily driven by physics and technology development and application. Since its inception in 1992, the SCIT program has provided support for the training of more than 40 fellows.

Visit the SCIT website

Stanford Molecular Imaging Scholars Program (SMIS)

The SMIS Program is a three-year interdisciplinary postdoctoral training program at Stanford University. The centerpiece of the SMIS program is the opportunity for trainees to conduct innovative molecular imaging research that is co-mentored by faculty in complementary disciplines. The SMIS program, with its distinctive focus on biology and chemistry, is in its 12th year and has provided training and support for 31 fellows to date.

Visit the SMIS website

Training in Biomedical Imaging Instrumentation (TBI2)

The TBI2 program, jointly led by faculty in Radiology and Bioengineering, offers unique multidisciplinary predoctoral research training in biomedical imaging technologies across all spatial scales, spanning magnetic resonance, computed tomography and radiography, optical imaging, ultrasound, PET, and hybrid imaging such as X-ray/MR and PET-MR, as well as image processing and analysis for diagnosis, radiation therapy, and basic science. Since recruitment began in 2010, the program has supported and trained 20 graduate students.

Visit the TBI2 website

Ongoing Education

Seminars & Conferences

Clinical Conferences

Nuclear Medicine & Molecular Imaging Case Conference

Nuclear Medicine & Molecular Imaging Clinical Lectures

Basic Science Lecture

Tumor Boards

Biomedical Seminars Calendar

Center for Cancer Systems Biology (CCSB)

Early Detection Seminar Calendar

IMAGinING the FUTURE Seminar Series

Integrative Biomedical Imaging Informatics at Stanford (IBIIS)

Radiological Sciences Lab (RSL)

Radiology Special Lectures

Annual Symposia

Center for Cancer Systems Biology (CCSB) Symposium

Training in Biomedical Imaging Instrumentation (TBI2) Symposium

Stanford Explore Courses    

Explore Radiology Courses

Radiology Classes

• BIOE/RAD 220  Intro to Imaging and Image-based Neuroanatomy (RAD 220)
• BIOE 222/RAD A   Instrumentation and Applications for Multimodality Molecular Imaging of Living Subjects
• BIOE 224/RAD B  Probes and Applications for Multi-modality Molecular Imaging of Living Subjects
• BIOE 229/RAD C  Advanced Research Topics in Multi-modality Molecular Imaging of Living Subjects
• BIOE 325  Intro to Ultrasound Imaging and Therapeutic Applications (RAD 225)
• CompMed/RADO 121  Imaging Anatomy in Animal Models.
• RAD 101  Readings in Radiology Research
• RAD 203  Introduction to Interventional Radiology
• Rad 223  Physics and Engineering of X-ray Computed Tomography
• RAD 226  In Vivo Magnetic Resonance Spectroscopy and Imaging
• RAD 227  Functional MRI Methods (BIOPHYS 227)
• RAD 228  Magnetic Resonance Imaging Programming Topics
• RAD 229  MRI Signals and Sequences
• RAD 280  Early Clinical Experience in Radiology
• RAD 299  Directed Reading in Radiology
• RAD 301A  Diagnostic Radiology and Nuclear Medicine Clerkship
• RAD 302A  Nuclear Medicine Clerkship
• RAD 303A  Specialty Clerkship in Diagnostic Radiology
• RAD 304A  Pediatric Radiology Clerkship
• RAD 305A  Introduction to Interventional Radiology Clerkship
• RAD 398A  Clinical Elective in Diagnostic Radiology & Nuclear Medicine

Other Courses of Interest

Basic Sciences Lecture Series

CHEM 26N  The What, Why, How and Wow's of Nanotechnology

BIOMEDIN 205  Biomedical Informatics for Medicine

INDE 230  Scientific Management Series

SURG 298  Procedure-based-specialty Preparation Boot Camp

EE 169  Introduction to Bioimaging

EE 225  Bio-chips, Imaging and Nanomedicine (MATSCI 382)

EE 261  The Fourier Transform and Its Applications

EE 369A  Medical Imaging Systems I

EE 369B  Medical Imaging Systems II

EE 369C  Medical Image Reconstruction

EE 469B  RF Pulse Design for Magnetic Resonance Imaging  

Journal Clubs

• Cancer Systems Biology Scholars (CSBS)
• Nuclear Medicine & Molecular Imaging Journal Club
• Molecular Imaging (MIPS)

Medical Imaging MRes + MPhil/PhD

London, Bloomsbury

This degree aims to train future leaders in AI-powered medical imaging innovations. From undertaking next-generation medical imaging research, development and enterprise, to producing intelligent, radical healthcare innovations focused on either imaging or imaging-enabled systems, this group of researchers are working to transform healthcare and medicine.

UK tuition fees (2024/25)

Overseas tuition fees (2024/25), programme starts, applications accepted.

Applications closed

• Entry requirements

A minimum of an upper second-class UK Bachelor’s degree in Physics, Engineering, Computer Science, Mathematics, or another closely related discipline, or an overseas qualification of an equivalent standard. Knowledge and expertise gained in the workplace may also be considered, where appropriate.

The English language level for this programme is: Level 2

UCL Pre-Master's and Pre-sessional English courses are for international students who are aiming to study for a postgraduate degree at UCL. The courses will develop your academic English and academic skills required to succeed at postgraduate level.

Further information can be found on our English language requirements page.

If you are intending to apply for a time-limited visa to complete your UCL studies (e.g., Student visa, Skilled worker visa, PBS dependant visa etc.) you may be required to obtain ATAS clearance . This will be confirmed to you if you obtain an offer of a place. Please note that ATAS processing times can take up to six months, so we recommend you consider these timelines when submitting your application to UCL.

Equivalent qualifications

Country-specific information, including details of when UCL representatives are visiting your part of the world, can be obtained from the International Students website .

International applicants can find out the equivalent qualification for their country by selecting from the list below. Please note that the equivalency will correspond to the broad UK degree classification stated on this page (e.g. upper second-class). Where a specific overall percentage is required in the UK qualification, the international equivalency will be higher than that stated below. Please contact Graduate Admissions should you require further advice.

About this degree

In partnership with our NIHR Biomedical Research Centres and Unit, PhD projects will be strongly multi-disciplinary, bridging the gap between engineering, clinical sciences and industry. Over 100 non-clinical and clinical scientists across UCL will partner to co-supervise a new type of individual, ready to transform healthcare and build the future UK industry in this area.

Who this course is for

As a multi-disciplinary subject at the interface of physics, engineering, life sciences and computer science, our postgraduate students have a diverse range of options upon graduation. Many choose to continue in academia through the subsequent award of a PhD studentship or a postdoctoral research post.

What this course will give you

The programme sits within i4health, a new centre for doctoral training focused on intelligent, integrated imaging in healthcare. The i4health centre aims to transform patient care through next-generation imaging tools and analysis. UCL's internationally leading positions in medical imaging and devices, data science and AI, robotics, and human-centred design, together with unique access to healthcare data and equipment, ideally place our centre to lead this transformation. UCL has significant activity in medical and biomedical imaging and several centres of excellence in their own right, and receives significant funding for its high-quality research. The Engineering and Physical Sciences Research Council (EPSRC) is a British Research Council which funds the i4health centre among other centres for doctoral training. UCL currently holds over 40% of the EPSRC funding portfolio in medical imaging more than any other university.

The foundation of your career

Postgraduate study within the department offers the chance to develop important skills and acquire new knowledge through involvement with a team of scientists or engineers working in a world-leading research group. Graduates complete their study having gained new scientific or engineering skills applied to solving problems at the leading edge of human endeavour. Skills associated with project management, effective communication and teamwork are also refined in this high-quality working environment.

Employability

A common career route is employment in industry where newly-acquired skills are applied to science and engineering projects within multi-national medical device companies, or alternatively, within small-scale start-up enterprises. A substantial number of graduates also enter the NHS or private healthcare sector to work as a clinical scientist or engineer upon completion of further clinical training.

Supervision and mentorship are available from scientists and engineers who have collaborated nationally and internationally across clinical, industrial and academic sectors. This provides natural opportunities to work in collaboration with a variety of external partners and showcase output at international conferences, private industry events and clinical centres to audiences of potential employers. Moreover, the department holds close working relationships with a number of charitable, research council and international organisations, for example, in new projects involving radiotherapy and infant optical brain imaging in Africa.

Teaching and learning

The MRes programme will be delivered through a combination of formal lectures, seminars, laboratories, workshop sessions and independent or group project work.

The MRes year consists of compulsory units and transferable skills (135 credits) and further optional modules (45 credits). The MRes project is a compulsory element and often (but not necessarily) forms the basis for PhD research. Students will be provided with a list of available projects before enrolment which will be subject to a selection process.

Advanced electives are available to all students in years two and three (MPhil and PhD) and are designed to enhance learning and skills.

Students are registered for the MPhil degree from year two and transfer to PhD status.

The modules of this MRes Programme will be assessed by a series of methods including exams, coursework, group work, lab sessions and project work.

Each taught MRes module typically consists of around 30-40 lectures over a ten-week term (excluding reading week). During each week, including problem classes, you should therefore expect about 10 contact hours. This time is made up of formal learning and teaching events such as lectures and problem classes. You will need to spend your own time in addition to the timetabled hours reviewing the material and completing coursework. You should expect to be spending at least 40 hours per week on your studies as a full-time student. A pro-rata rate should be used as a guide for part-time students. Lectures are timetabled between 9am and 6pm apart from Wednesday afternoon when there are no lectures.

Research areas and structure

Our Methodological Research Portfolio is focussed around three major themes:

Imaging Technologies

• Imaging Devices
• Image Acquisition
• Image Reconstruction

Image Computing

• Image Analysis
• Computational Modelling

Integrated systems

• Actionable Analytic Systems
• Interventional Systems

Our Enabling Technology Portfolio includes:

• AI and Machine Learning
• Data Science and Health Informatics
• Robotics and Sensing
• Human-Computer Interaction

Finally, the eight clinical research programmes in our Translational Portfolio are:

• Cancer Imaging
• Cardiovascular Imaging
• Infection and Inflammation Imaging
• Neuroimaging
• Ophthalmology Imaging
• Paediatric Imaging
• Perinatal Imaging

Research environment

Our vision is to train the translational imaging research leaders of the future, filling a critical gap identified in academia, pharmaceutical and medical devices industries, while delivering internationally competitive research. Our innovative training has a strong focus on new image acquisition technologies, novel data analysis methods and integration with computational modelling.

The MRes degree is a 1 year programme followed by the research degree is a 3 year programme (full-time or 5 year part-time) which offers an MPhil or PhD outcome.

You are required to register for the MPhil degree and then transfer to PhD after successful completion of an upgrade Viva (9 -18 months after initial registration).

Upon successful completion of your approved period of registration you may register as a completing research student (CRS) whilst you write up your thesis.

Students are permitted to include an internship either via an interruption or in conjunction with their research - these opportunities are discussed with the supervisor and programme directors. Students are strongly encouraged to attend and present at conferences relating to their area of research.

Upon successful completion of your approved period of registration you may register as a completing research student (CRS) whilst you write up your thesis

Accessibility

Details of the accessibility of UCL buildings can be obtained from AccessAble accessable.co.uk . Further information can also be obtained from the UCL Student Support and Wellbeing Services team .

Fees and funding

Fees for this course.

The tuition fees shown are for the year indicated above. Fees for subsequent years may increase or otherwise vary. Where the programme is offered on a flexible/modular basis, fees are charged pro-rata to the appropriate full-time Master's fee taken in an academic session. Further information on fee status, fee increases and the fee schedule can be viewed on the UCL Students website: ucl.ac.uk/students/fees .

Additional costs

There are no additional costs associated with this programme.

For more information on additional costs for prospective students please go to our estimated cost of essential expenditure at Accommodation and living costs .

Funding your studies

Please visit the EPSRC Centre for Doctoral Training in Intelligent, Integrated, Imaging in Healthcare (i4Health) for current funding information. https://www.ucl.ac.uk/intelligent-imaging-healthcare/ For a comprehensive list of the funding opportunities available at UCL, including funding relevant to your nationality, please visit the Scholarships and Funding website.

For a comprehensive list of the funding opportunities available at UCL, including funding relevant to your nationality, please visit the Scholarships and Funding website .

Deadlines and start dates are usually dictated by funding arrangements so check with the department or academic unit to see if you need to consider these in your application preparation. In most cases you should identify and contact potential supervisors before making your application. For more information see our How to apply page.

Please note that you may submit applications for a maximum of two graduate programmes (or one application for the Law LLM) in any application cycle.

Got questions? Get in touch

Medical Physics and Biomedical Engineering

[email protected]

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Privacy Overview

Become a Radiographer in Idaho

Our nation’s population is aging, and there is an  ever-growing demand for medical professionals , including those in the field of radiologic technology. Employment opportunities for radiologic technologists (RTs) are expected to increase by 6% nationally in the next decade, according to the  U.S Bureau of Labor Statistics  (BLS, long-term forecast to 2031), making now a better time than ever to consider training for this profession.

( Leer esta información en español )

In Idaho, like in many low-populous states, the number of registered technologists is low 1,030 in 2020, according to the BLS), but it is expanding rapidly as employers seek out more of these professionals to fill a growing need.

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Highest level of education - Select One - Some High School High School Diploma (or GED) Some College (No Degree) Associate's Degree Bachelor's Degree Master's or Higher

Requirements in Idaho

The state of Idaho does not currently have any license or registration requirements for workers in the radiology field, except mammography technologists, who must meet the training and certification requirements for the federal Mammography Quality Standards Act (MQSA). However, aspiring radiological technologists should still pass the  American Registry of Radiologic Technologists (ARRT)  certification exam, as many hospitals and other employers require it. In addition, certified professionals in the radiology field are more likely to experience increased job security and more competitive salaries as the health sector grows.

Radiologic Technology Schools in Idaho

There are three school programs for radiography in the state of Idaho that is accredited by the Joint Review Committee on Education in Radiology Technology (JRCERT):

Boise State University : Located in Boise, this public university offers a Bachelor of Science (BS) in Diagnostic Radiography through its Radiography program. The program takes 38 months to complete, after which graduates are qualified to sit the AART exam and receive their certification. Certificate programs in Diagnostic Medical Sonography, Computed Tomography, and Magnetic Resonance Imaging (MRI) are also offered through the school’s Radiography department. The school’s  Online Imaging Sciences Degree  is designed for credentialed imaging practitioners who wish to advance their career potential by completing a bachelor’s degree.

College of Southern Idaho : This school is based out of Twin Falls and offers an  Associate of Applied Science  (AAS) degree in Radiographic Technology through its Radiography program, which takes 22 months to complete. Graduates of this program are eligible to receive certification after passing the AART exam.

North Idaho College : Students in this small college, located in Coeur d’Alene, may earn an Associate of Applied Science (AAS) degree in Radiography Technology through its program in Radiography, which takes 19 months to complete. Graduates of this program are eligible to take the AART exam and receive certification.

Other Schools to Consider Radiology Technology Program

Idaho State University: This 4-year public university offers a Bachelor of Science degree through its Radiographic Science program , in which all classes are held in a laboratory setting, with a period of supervised clinical experience. Upon completion of the program, each student will have completed over 1,500 hours of training in the clinical setting and will be prepared to take the national ARRT Radiography certification exam to receive the title of Radiologic Technologist RT(R).

Lewis-Clark State College: Students of this college, located in Lewiston, offer both an  Associate of Science degree through its 3-year Radiographic Science program and a Bachelor of Science , which can be earned with one additional year of study. This program is fully accredited by Joint Review Committee on Education in Radiologic Technology (JRCERT).

Looking outside the State, while  Montana ,  Wyoming  and  Oregon  provide few options, future students should examine the alternatives available in the  states of Washington ,  Oklahoma , and  Nevada .

Large Employers in Radiology

Several large hospitals in Idaho employ radiologic technologists, with most concentrated in Boise, Nampa, and other cities. While the majority of these professionals work for these larger facilities in urban areas, many others are employed by smaller healthcare clinics and doctors’ offices in more rural areas of the state.

Saint Luke’s Health System , Boise, Caldwell, Eagle, Fruitland, Jerome, Magic Valley, McCall, Meridian, Mountain Home, Nampa, Wood River 190 East Bannock Street Boise, Idaho 83712 208-381-2222

Saint Alphonsus Health System , Boise 1055 North Curtis Road Boise, ID 83706 208-367-2121

Gritman Medical Center , Moscow South Main Street Moscow, ID 83843 208-882-4511

Eastern Idaho Regional Medical Center , Idaho Falls 3100 Channing Way Idaho Falls, ID 83404 208-529-6111

Intermountain Hospital , Boise 303 North Allumbaugh Boise, ID 83704 800-321-5984

West Valley Medical Center , Caldwell, Middleton, Nampa, New Plymouth, Parma, Wilder 1717 Arlington Ave Caldwell, ID 83605 208-459-4641

Bingham Memorial Hospital , Blackfoot 98 Poplar Street Blackfoot, ID 83221 208-785-4100

Salaries for Radiologic technologists

Idaho is $71,140, which is slightly below the national average of $73,410. Salary percentiles for Idaho range from $56,000 at the 10th percentile to $93,490 at the 90th percentile. Regional differences within Idaho show variation in salaries, with Boise City having the highest median wage.

National vs. Idaho Salaries

Salaries by Region in Idaho

Radiologic technologist Trends in Idaho

Idaho employment trends for Radiologic Technologists and Technicians indicates that as of 2020, there were 1,030 individuals employed in this occupation in Idaho. By 2030, this number is projected to increase to 1,260, representing a 22% growth. Additionally, there are projected to be 80 annual job openings in Idaho from 2020 to 2030. Nationally, employment for this occupation is expected to grow by 6% from 2022 to 2032, with projected annual job openings of 13,100.

Employment Trends

Source of the data:

• Idaho : data for wages here and for employment trends here .
• U.S data: Bureau of Labour Statistics

Professional Organizations

For support, networking, and continuing education opportunities, radiologic technologists in Idaho should contact the  Idaho Society of Radiologic Technologists (ISRT) , which is the state affiliate of the  American Society of Radiologic Technologists (ASRT) . For information on schools, prospective students can visit the  Joint Review Committee on Education in Radiologic Technology (JRCERT) , which accredits radiology programs. For additional information on registration and licensing, radiologic technologist students and professionals should also visit the  American Registry of Radiologic Technologists (ARRT) .

JRCERT Accredited Radiography Programs in Idaho

Boise state university – radiography.

1910 University Drive, Boise ID 83725-1845

Tel:  (208) 426-5045

Program Name:   Radiologic Sciences

Program Type:  Bachelor of Science

Duration:  66 months

Program Effectiveness:  Completion Rate: 96%  Credential Examination Pass Rate: 100%  Job Placement Rate: 97.1%

Tuition Fees:  $6,876

College of Southern Idaho – Radiography

315 Falls Avenue, Twin Falls ID 83303-1238

Tel:  (208) 732-6719

Program Name:   Radiologic Technology

Program Type:  Associate of Applied Science

Duration:  29 months

Program Effectiveness:  Completion Rate: 100%  Credential Examination Pass Rate: 88.5%  Job Placement Rate: 100%

Tuition Fees:  $1,320 Resident, $3,360 Non-resident

Idaho State University – Radiography

Campus Box 8002, Pocatello ID 83209-8002

Tel:  (208) 282-2871

Program Name:   Radiographic Science

Program Type:  Bachelor of Radiologic Science

Duration:  44 months

Program Effectiveness:  Completion Rate: 100%  Credential Examination Pass Rate: 94%  Job Placement Rate: 98%

Tuition Fees:  $6,566 Resident, $17,870 Non-resident

Lewis-Clark State College – Radiography

500 8th Avenue, Lewiston ID 83501-2698

Tel:  (208) 792-2157

Program Type:  Associate in Radiologic Sciences

Program Effectiveness:  Completion Rate: 83.3%  Credential Examination Pass Rate: 97.1%  Job Placement Rate: 100%

Tuition Fees:  $6,000

North Idaho College – Radiography

1000 West Garden Avenue, Coeur d’Alene ID 83814

Tel:  (208) 676-7133

Program Name:   Radiography Technology

Duration:  10 months

Program Effectiveness:    Credential Examination Pass Rate: 100%  Job Placement Rate: 100%

Tuition Fees:  $4,913 Resident, $6,150 Non-resident

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PhD in Medical Physics | College of Engineering | University of Miami

The PhD in Medical Physics Program focuses on training students’ research ability and experience in the field of medical physics with an emphasis on radiation therapy, in addition to the course work required by the MS in Biomedical Engineering – Medical Physics Program. Students graduating from the program are required to take the American Board of Radiology (ABR) exam and to apply for medical physics residency programs. Students are encouraged to seek academic positions after graduating from the program.

Students will complete required coursework by the program and will join research projects in the Department of Radiation Oncology, or other collaborative departments or clinical sites. PhD students in the program will take two qualify exams. The first one is the general qualify exam required by the Department of Biomedical Engineering, usually after two-semester study and before the third semester starts. The second qualify exam is required by the Medical Physics Graduate Program, usually after all coursework has been completed.

The Medical Physics curriculum is designed to provide students with the technical and intellectual skills required for successful careers in the field of medical physics. In addition to the coursework required by the Biomedical Engineering PhD program, PhD students enrolled in the medical physics program must successfully complete 32 medical physics course credits, at least 12 credits in research dissertation (BME 830/840) in the field of medical physics, and other requirements by the BME PhD program.  Students who received MS in Medical Physics degree from other CAMPEP-accredited programs can transfer the medical physics coursework credits.  

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