BSc Biomedical Sciences
Cardiff, United Kingdom
DURATION
3 Years
LANGUAGES
English
PACE
Full time
APPLICATION DEADLINE
Request application deadline
EARLIEST START DATE
Sep 2025
TUITION FEES
GBP 28,200 / per year *
STUDY FORMAT
On-Campus
* for overseas | for home year two and three: £9,250 / year one: £9,000
Introduction
Why Study this Course
Biomedical science is the science that underpins medicine and medical research. Our Biomedical Sciences degree gives you the opportunity to study a wide range of subjects including human physiology; human anatomy; disease processes and their treatment; biochemistry; genetics and microbiology.
The curriculum is informed by the extensive range of biomedical research undertaken within the School of Biosciences and at the University Hospital of Wales, enabling you to receive training in contemporary topics such as cancer biology, stem cells, tissue engineering, gene therapy and neurodegenerative diseases.
This programme offers a high degree of flexibility, offering you the freedom to shape your academic experience. Your degree title remains flexible up until your final year, allowing you to either continue with BSc Biomedical Sciences or switch to another of our bioscience courses. You can also choose to graduate with a more specialist degree title, including a BSc in Biomedical Sciences (Anatomy) and a BSc in Biomedical Sciences (Physiology).
Your final degree title will depend on module selection, and your Personal Tutor will guide you through the options available to you. You may also have the option of switching to our four-year MBiomed integrated master's degree, which forms an excellent basis for a future career in scientific research.
Our Biomedical Sciences degree offers strong training for research scientists. Our graduates have gone on to a range of exciting and fulfilling careers in both scientific and non-scientific related fields, including scientific publishing, medical research, healthcare, toxicology, pathological science, journalism, medicine, teaching and veterinary science. Many also choose to further their studies by pursuing a master’s degree or PhD.
As one of the recognised feeder degrees for Cardiff University’s Medicine: Graduate Entry (MBBCh) programme, our BSc Biomedical Sciences also offers a potential pathway into medicine.
There are a limited number of places available on the BSc Biomedical Sciences route to the MBBCh programme and eligibility is dependent on academic performance during the first year of your BSc degree. Specific modules must then be taken during the rest of the course.
You will need to graduate with a first or upper-second-class BSc Biomedical Sciences degree, achieving certain academic standards in all modules, and sit the UCAT admissions exam in order to apply for the Medicine: Graduate Entry (MBBCh) programme via UCAS.
Please check the MBBCh entry requirements for further information, including A-level results and equivalent international qualifications.
Distinctive Features
- Enjoy a flexible course structure that enables you to tailor your degree to match your interests and aspirations, including the option to spend a sandwich year on professional placement
- Experience the excitement of learning in the active research environment, with teaching staff who are leading researchers in their field
- Make use of the latest equipment, techniques and facilities in your project work
- We are one of the few universities in the UK, to combine cutting-edge digital methods with traditional human dissection. Specialist Anatomy modules involve human dissection under the direction of skilled experts within the Welsh Centre for Anatomical Education
- The School of Biosciences plays a lead role in the University's Neuroscience and Mental Health Research Institute and European Cancer Stem Cell Research Institute, offering access to a wide range of exciting training opportunities
Admissions
Scholarships and Funding
Loans and Grants
Financial support information for students.
Bursaries
We wish to ensure that financial circumstances are not a barrier to your undergraduate study opportunities.
Scholarships
We wish to recruit the very best students and to help us achieve this, we offer a number of scholarships.
Part-time Undergraduate Funding
Information about funding for part-time students.
Financial Support for Asylum Seekers
Information for asylum seekers about the financial support we offer undergraduates and options for funding from outside the University.
Curriculum
This BSc course is full-time over three academic years (four including the Professional Training Year option), with 120 credits attained in each year. Year one is made up of six 20-credit modules, with three 40-credit modules taught in year two. In the final year, the research project carries 30 credits and is accompanied by three 30-credit modules. While we aim to offer as much flexibility as possible in our courses, module choice may be restricted on the basis of Entry Degree to provide capacity on core modules which are required for some degree schemes.
Year one modules involve lectures and supporting tutorials providing background theoretical knowledge as well as practical classes. All of our degree schemes share a common year one, which covers all aspects of the biosciences and has the big advantage of giving you flexibility in degree choice. Classes provide students with IT skills for biologists along with an understanding of statistical analysis of data, and coursework is used to develop written and oral communication skills.
In year two, we offer modules across a wide range of subjects. There is one required module in ‘Concepts of Disease’, but beyond this, you have an almost free choice (subject to some constraints due to timetabling and numbers) to tailor the course to suit your interests. In all cases, extensive laboratory practicals help to develop practical skills and the ability to critically evaluate experimental data. Set assignments and reading are used to promote self-directed learning and the analysis of primary research literature.
The final year requires much more independent study, and all students must produce a substantial research-based (laboratory, literature, pedagogic or scientific engagement) report. Again we strive to offer as wide a choice as possible to allow you to tailor the degree to your study goals.
Year One
The first year is a common year, covering all aspects of the biosciences. This reflects the increasingly multi-disciplinary nature of bioscience research and has the added advantage of offering you the flexibility of degree choice.
The modern, modular syllabus is delivered through lectures, tutorials, presentations, and practical classes carried out in spacious, well-equipped laboratories. It provides a firm foundation in all the biological disciplines, including biological chemistry, cell biology, microbiology, genetics, evolution, anatomy and physiology, animal and plant biology, and ecology, as well as focusing on developing practical and academic scientific skills. Modules may begin by overlapping with A-level studies, but will soon progress to greater depth and scope.
Core Modules for Year One
- Skills for Science
- Structure and Function of Living Organisms
- Organisms and Environment
- The Dynamic Cell
- Biological Chemistry
- Genetics and Evolution
Year Two
The second year allows for more specialisation and will build on the knowledge and practical skills gained in the first year. There will be a focus on data analysis and scientific communication, as well as advanced laboratory and field techniques. Understanding experimental design, literature review, statistical analysis and critical analysis skills will act as a foundation for further study in year three.
Alongside a required module in ‘Concepts of Disease’, you will select two additional 40-credit modules from a choice of ten, leaving you free to pursue particular areas of interest. Available module topics include the brain and behaviour; stem cells; anatomy; developmental biology; neuroscience; and physiology.
Throughout the year you will continue to develop a broad but deepening knowledge of the biomedical sciences from which you can specialise further in the final year.
During year two, you can also opt to switch to the four-year degree with a Professional Training Year, which is taken after the second year, subject to an appropriate training place being identified.
Optional Modules for Year Two
- Animal Diversity and Adaptation
- Genetics and its Applications
- Ecology Part A
- Ecology Part B
- Cell Biology
- Biochemistry
- Developmental and Stem Cell Biology
- Molecular Biology of the Gene
- Physiology
- Concepts of Disease
- Practical Anatomy
- Brain and Behaviour
- Fundamental Neuroscience
Year Three
Our final year curriculum enables you to specialise in more detail within one of the major research themes of the School. This approach immerses you in the research culture of the biosciences by means of research-driven teaching and a final-year project that allows you to investigate a topic in much greater depth.
Application of core knowledge to the solving of problems and critical evaluation of models, ideas and current debate is a primary focus of the final year. This stage of the course will involve an extensive degree of self-directed study in order to develop skills in independent work and lifelong learning, which will help to prepare you for the professional environment.
As well as a 30-credit research project, you will complete three 30-credit modules (including a compulsory module in ‘Contemporary Topics in Disease’). Modules cover a range of topics including cancer mechanisms, diagnostics and therapeutics; infection biology; and advanced musculoskeletal biology and tissue engineering.
At the start of the final year, you have the option of applying to transfer to the four-year MBiomed course with an integrated Master’s, depending on satisfactory academic progress and space availability.
Core Modules for Year Three
- Biosciences Final Year Project
Optional Modules for Year Three
- Plants for the Future: Frontiers in Plant Science
- Evolution and Adaptation
- Biodiversity and Conservation Biology
- Infection Biology and Epidemiology
- Systems Biology
- The 'omics Revolution (Bioinformatics and Functional Genomics)
- Advanced Cell Biology and Imaging
- Genes to Genomes
- Synthetic Biology and Protein Engineering
- Current Topics in Development, Stem Cells and Repair
- Contemporary Topics in Disease
- Cancer: Cellular and Molecular Mechanisms and Therapeutics
- Advanced Anatomy
- Advances in Physiology and Pathophysiology
- Musculoskeletal System: Disease, Repair and Regenerative Medicine
- Neurobiology of Brain Disorders
- Systems Neuroscience
How Will I Be Assessed?
First and second-year modules are normally assessed through a combination of coursework and examinations. All modules include coursework assessments, which may take the form of written practical reports, structured reports, class tests, structured answer tests, group work, poster and oral presentations and computing/statistical problem-solving exercises. Assessments may be summative and count towards the final module mark, or formative, helping you to learn and practice key skills and knowledge through feedback. End-of-module exams comprise a machine-marked structured answer section (assessing the breadth of knowledge) and a written answer section (assessing the depth of knowledge in specific topics).
In the final year, taught modules are assessed by examination and extended analytical coursework. Your final year research project is assessed by a supervisor’s evaluation and a written report.
Program Outcome
What Skills Will I Practise and Develop?
Throughout the course, you will develop scientific competencies as well as key transferable skills that will be invaluable whatever your future career choice. These include:
- Independent learning and self-directed study
- Collating, organising and analysing information to create logical and persuasive arguments
- Analytical thinking and problem-solving
- Communicating complex ideas in a clear, effective way (using all media)
- Working effectively in a team and as an individual
- IT competency, including presentation, graphics and statistics packages
- Performing and interpreting statistical analyses of data
- Effective time management and organisational skills
As a result of engaging fully with this course, you should be able to:
- Critically analyse, synthesise and summarise information from a variety of sources
- Discuss the relationships between structure/formation and function/regulation of molecules, organelles, cells, tissues, organisms and populations
- Effectively communicate scientific, and other, information to a variety of audiences, including the general public, using a range of formats and approaches
- Discuss current issues of research, investigation and/or debate
- Synthesise an argument or point of view, based on solid data and evidence
- Determine the validity and rigour of statistical outcomes
- Build on knowledge and understanding of the role and impact of intellectual property (IP) within a research environment
- Work effectively within a group-based environment, both as a leader and a member of a team
- Demonstrate the skills necessary for independent lifelong learning (for example working independently, time management, organisational, enterprise and knowledge transfer skills)
- Identify, and work towards, targets for personal, academic, professional and career development
- Demonstrate leadership and planning skills for setting, and meeting, achievable goals within the workplace
Many also choose to further their studies by pursuing a master’s degree or PhD.
Program Tuition Fee
Career Opportunities
Our integrated master’s degree in Biomedical Sciences forms an excellent basis for a future career in scientific research. It also gives you the opportunity to develop science-specific and more general transferable skills which will be attractive to a wide range of both scientific and non-scientific employers.
Our Biomedical Sciences graduates have gone on to a range of exciting and fulfilling careers in a variety of different fields, including medical and scientific research, biological industries, healthcare, toxicology, medical or scientific publishing, pathological science, journalism, public service and management. A Biomedical Sciences qualification can also act as a stepping stone to further training in professional areas including teaching, medicine, dentistry, nursing, veterinary science and accounting.
Program Admission Requirements
Show your commitment and readiness for Grad school by taking the GRE - the most broadly accepted exam for graduate programs internationally.