- UCAS course code
- F305
- UCAS institution code
- M20
Master of Physics (MPhys)
MPhys Physics
Join a physics Department of international renown that offers great choice and flexibility, leading to master's qualification.
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Duration: 4 years
Year of entry: 2025
UCAS course code: F305 / Institution code: M20
- Key features:
Scholarships available
Accredited course
- Typical A-level offer: A*A*A including specific subjects
- Typical contextual A-level offer: A*AA including specific subjects
- Refugee/care-experienced offer: AAA including specific subjects
- Typical International Baccalaureate offer: 38 points overall with 7,7,6 at HL, including specific requirements
Course unit details:
Physics of Medical Imaging
| Unit code | PHYS30431 |
|---|---|
| Credit rating | 10 |
| Unit level | Level 6 |
| Teaching period(s) | Semester 1 |
| Available as a free choice unit? | No |
Overview
Physics is critical in the application of medical imaging within healthcare and biomedical research. Consequently, physicists are employed within hospitals and research centres that conduct medical imaging. Different physical processes are exploited with different imaging modalities, with different ways that contrast can be manipulated within the images. The course covers a number of common imaging modalities such as: X-ray and X-ray computed tomography (CT); magnetic resonance imaging (MRI); ultrasound (US); nuclear medicine imaging (scintigraphy; single photon emission computed tomography (SPECT); positron emission tomography (PET)); electroencephalography (EEG); and magnetoencephalography(MEG). The course also covers some of the underpinning mathematics and image processing required for the reconstruction and analysis of medical images.
Pre/co-requisites
Pre-requisites: core physics
Aims
To understand how physics is applied, using medical imaging, to the problems of clinical measurement, diagnosis, patient management and biomedical research. To provide an understanding of the phenomena and processes of medical imaging.
Learning outcomes
On the successful completion of the course, students will be able to:
ILO 1
Describe the process of image acquisition and reconstruction for a range of medical imaging modalities.
ILO 2
Relate the properties of medical images to the underlying physical processes.
ILO 3
Predict the effect of a change in acquisition parameters and conditions on the appearance of images.
ILO 4
Design image acquisition strategies and calculate relevant parameters to achieve a specified outcome.
ILO 5
Compare the advantages and disadvantages of different medical imaging modalities and their configuration for a particular clinical application.
Teaching and learning methods
Two one hour, live in-person lectures per week where the core material will be delivered. Examples and questions to test knowledge will be provided in-person and through the learning management system (LMS), including model answers and feedback to quizzes relating to material covered in each lecture. Video recordings will be provided through the podcast system. In addition, historical recordings will be provided through the LMS. A Piazza discussion forum will be provided, where students can ask questions with answers provided by other students and the unit lecturers.
Assessment methods
| Method | Weight |
|---|---|
| Written exam | 100% |
Recommended reading
Introduction to Medical Imaging by Nadine Barrie Smith and Andrew Webb
https://ebookcentral-proquest-com.manchester.idm.oclc.org/lib/manchester/detail.action?docID=5120049
MRI from Picture to Proton by Donald McRobbie, Elizabeth Moore, Martin Graves and Martin Prince
https://www-cambridge-org.manchester.idm.oclc.org/core/books/mri-from-picture-to-proton/83CFA27533607FC2F45EFC48C0FC628B
Study hours
| Scheduled activity hours | |
|---|---|
| Lectures | 23 |
Teaching staff
| Staff member | Role |
|---|---|
| Andrew Tyler | Unit coordinator |
| Julian Matthews | Unit coordinator |
| Laura Parkes | Unit coordinator |