Biomedical Engineering, MSc

Medical Technology & Bioengineering

Biomedical Engineering student in the lab

Course Overview

The degree will teach you how to use engineering techniques to understand bio-medical systems or to develop devices that interact with biomedical systems. This applies to the large scale of populations or the entire human body, to the smaller scales of cells or even nanoparticles. We provide two course streams that can be chosen by the students:

  1. Biomechanics; With an emphasis on biosolid mechanics, biofluid dynamics and medical device design.
  2. Biomaterials; With an emphasis on the development of and interaction with biomaterials at the micro and nanoscale.

Both streams will provide the students with the analytical and complementary experimental skills to tackle typical problems encountered in biomedical engineering. The student will be trained through practical hands-on experiences for data acquisition and through advanced data-analytical techniques to study collected data.

The MSc programme provides a great postgraduate experience for students with an undergraduate Biomedical Engineering degree but is also an excellent opportunity for those with undergraduate degrees in other engineering or related disciplines to study as a conversion course. Either way, this course sets you up well for an engineering career in life sciences or the medical device industry.

Why Biomedical Engineering at Swansea?

  • 100% world-leading and internationally excellent environment – Research Excellence Framework (REF) 2021

You will study in and around a thriving research community. This includes the Biomedical Engineering Simulation & Testing (BEST) Lab which is a fantastic space for interdisciplinary researchers to grow ideas from concept through to manufacture, instrumentation, and testing.

Your Biomedical Engineering Experience

The course aims to train students to become well-rounded engineers with a broad set of skills. Hence, the modules provided will integrate theoretical, experimental, and software skills along transferable soft skills such as group working, time/project management and communication.

Anticipated technical topics in the programme are Image-based Biomaterial Fabrication & Biomechanical Testing, Principles of NanoMedicine, Medical Imaging, Prosthetics and Design, Advanced Microfluidics, Medical Imaging & Informatics, Tissue Engineering, Computer-Aided Design, Nano-Scale Structures and Devices.

In addition, students will gain generic skills relevant in industry such as Research Methods, Strategic Project Planning Social, Environmental and Economic Context of Research.

Biomedical Engineering Employment Opportunities

Obtaining expert knowledge in Biomedical Engineering provides for a range of exciting career opportunities including:

  • Biomedical Engineer
  • Clinical Engineer/Scientist
  • Rehabilitation Engineer
  • Prosthetic Design Engineer
  • Application Engineer in Medical Devices
  • Bioinstrumentation Engineer

Our graduates go on to have interesting and varied careers at companies such as, Renishaw, Calon Cardio-Technology Ltd, Olympus Surgical Technologies, NHS, GE Healthcare and Royal Navy.

Modules

Anticipated technical topics in the programme are Image-based Biomaterial Fabrication & Biomechanical Testing, Principles of NanoMedicine, Medical Imaging, Prosthetics and Design, Advanced Microfluidics, Data Analytics, Tissue Engineering, Computer-Aided Design, Nano-Scale Structures and Devices.

In addition, students will gain generic skills relevant in industry such as Research Methods, Strategic Project Planning Social, Environmental and Economic Context of Research.