The MSc in Biomedical Engineering delivers advanced modules informed by the active research expertise and industrial links of our academic staff.
The course prepares students for careers in advanced biomedical engineering. This includes biomedical engineering research institutions, medical device manufacturing, agencies for health technology assessment and medical device regulatory affairs, and clearly hospitals, where biomedical engineers oversee medical device clinical trials, purchasing and maintenance as responsible for clinical engineering services.
The Warwick Biomedical Engineering MSc spans the whole School of Engineering incorporating predictive modelling, medical device design, health technology assessment, signal processing, electronics, communication, software, hardware, systems thinking and machine intelligence.
Warwick has a unique systems approach to research and teaching and so modules are developed across disciplines in parallel to our research. This approach culminates in a group design project in which you will design a medical device. This, in the past two years included, a defibrillator, a pulmonary ventilator, an ECGph and wearable devices for SpO2 monitoring. Beyond that, you will be assigned an in-depth individual project which will allow you to work closely with an academic on state-of-the art biomedical engineering research and innovation, often linked with industry.
Core modules
Biomedical Imaging and Medical Devices
This module will introduce you to the fundamental principles and applications of medical imaging in the human body, and to imaging and sensing in the brain. Techniques include Magnetic Resonance Imaging (MRI), X-ray Computed Tomography (CT), Positron Emission Tomography (PET), Electroencephalography (EEG), Magnetoencephalography (MEG), and Ultrasound. The module will provide you with a firm grounding in the basic theory underpinning the core methods in clinical practice, as well as an awareness of emerging technologies and their applications.
Medical Device: Design, Maintenance and Assessment
On this module you will develop a firm understanding of the principles of modern design, maintenance and assessment of healthcare technologies, including: medical devices, novel treatment and therapeutic technologies, technologies for a healthy life-course, systems and environments for care delivery. This module will provide you with a firm grounding in methods and tools for design, management and assessment of health technologies for prevention, diagnosis, treatment and rehabilitation.
Biomedical Systems Modelling
This module gives you the opportunity to demonstrate that you have independently contributed primary data and/or a new analysis of secondary data, within your chosen advanced research topic. Projects will be highly variable in nature to reflect the range of topics within the programmes of study but all will provide you with an opportunity to achieve the learning outcomes. Thus, projects may entail experimentation, modelling, analysis and literary survey skills to develop advanced skills in the discovery and occasionally creation of new knowledge. The module also offers the chance for you to pursue curiosity driven work guided by an academic supervisor.
Individual Project
Research and Professional Skills in Biomedical and Clinical Engineering
This is an introduction to Biomedical Engineering for MSc students on this course. This module is held at the beginning of the term one and aims to quickly give you an overview of the biomedical various topics to help you choose an appropriate MSc project. The module will also equip you with the required background knowledge and skills for the MSc course.
Optional modules
Optional modules can vary from year to year. Example optional modules may include:
- Biomechanics
- Biomedical Signal Processing
- Biomedical Materials, Tissue Engineering and Regenerative Medicine
- Computational Synthetic and Systems Biology
- Computational Intelligence in Biomedical Engineering
- Systems Modelling and Control
- Affective Computing
- Signal Processing
