• Undergraduate

Biomedical Informatics BSc (Hons)

Overview

Overview

Why study at the University of West London?
  • Ranked 30th university in the UK - The Guardian University Guide 2025
  • Number 1 London university for overall student satisfaction - National Student Survey 2024**
  • Best university for Student Experience and Teaching Quality in the UK - The Times and Sunday Times Good University Guide 2024
Why study this course?

This Biomedical Informatics degree allows you to develop knowledge and understanding of modern bioscience and informatics (the study of computational systems) with a specific emphasis on everyday healthcare solutions.

With the rapid advancement of digital technology in the healthcare industry, there is an ever-increasing demand for healthcare workers with specialised skills in applying information technologies in healthcare.

Throughout the Biomedical Informatics course, you will benefit from:

  • being part of a learning community conducting research into areas such as cancer, genomics, microbiology, food safety, ageing and memory, and translation medicine
  • access to brand-new facilities including equipment used in modern pharmaceutical, nutritional and clinical laboratories
  • option of a placement year to develop your employability and career prospects
  • final year research project - allows you to focus your studies on your specific interests and career goals.

A wide array of optional modules allow you to shape your studies to match your own interests and career ambitions.

Select your desired study option, then pick a start date to see relevant course information:

Study options:
We support flexible study by offering some of our courses part-time or via distance learning. To give you real world experience before you graduate, we also offer some courses with a placement or internship. All available options are listed here. Your choices may affect some details of your course, such as the duration and cost per year. Please re-check the details on this page if you change your selection.

Start date:

If your desired start date is not available, try selecting a different study option.

Why study Biomedical Informatics with us?

Why study Biomedical Informatics with us?

What our students say…

I like the community feel of UWL. You get to know all the people in your class. And all the lecturers are really lovely here, and I've got really good relationships with them.

Bethany Chapman
Next
Students in the biomedical sciences lab
Research areas include genomics, cancer, food safety, ageing and memory, microbiology, translation medicine
option of a placement year to develop your employability and career prospects
Biomedical facilities include equipment used in pharmaceutical and clinical laboratories
Course detail & modules

Course detail & modules

Integrating practical and theoretical aspects of using information technologies in healthcare and medicine, this Biomedical Informatics degree delivers a thorough understanding of the key concepts and principles of informatics.

The course aims to integrate practical and theoretical aspects of using information technologies in healthcare and medicine whilst promoting an awareness of the ethical, moral and social implications. 

The interdisciplinary nature of this biomedical course is reinforced by broad departmental expertise and research interests, particularly in areas of:

  • bioinformatics
  • cell biology
  • microbiology
  • pharmacology
  • person-centred health and social care.

Year One: You will cover a range of core modules introducing you to anatomy, physiology, biochemistry and bodily systems. You will also gain an overall picture of the human organism and its essential functions, including microbiology, the structural features of all cells that make up the living system, fundamental genetic mechanisms essential for the evolution of life and function, and the genetics and molecular biology underpinning human biology and health.

Year Two: You will build on your knowledge from the first year by exploring how information technologies can be applied to medicine to improve human health and treat diseases. To this end, three core modules are included at this level to introduce you to some important concepts and principles in informatics, such as medical imaging, computer programming, and computational statistics.

Year Three: You will continue to develop your knowledge and understanding of biomedical informatics through two core modules on healthcare informatics and the choice of two optional modules on diagnosis and treatment of human diseases. This is reinforced by a research project which allows you to explore unique topics of interest.

Placement Year*

You can choose to study a placement year module to develop your employability skillset and enhance professional development and career prospects. The module requires you to undertake 45 weeks of full-time employment relevant to Biomedical Sciences. The industrial placement year aims to enhance your employment prospects by developing industry-related skills in a real work environment. It also aims to enhance and develop your personal and interpersonal skills, knowledge and practical abilities through an individually negotiated portfolio of activities.

*There is no guarantee that you will be successful in securing a placement. If you choose a course with a placement route and a placement opportunity does not arise, the University will automatically transfer you to the non-placement route. This is to ensure you are still successful in being awarded a degree. The placement route for this course is open to UK students only.

Compulsory modules

  • Cell and Microbiology

    The aim of this module is to provide a comprehensive understanding of cell biology and microbiology, focusing on the structure, function, and dynamics of prokaryotic and eukaryotic cells, as well as the study of microorganisms. 

    You will explore various topics, including cell division, the cell as the fundamental unit of life, cell specialisation, microorganism structure and physiology, identification and classification of microorganisms, control of microorganisms, causes and pathology of common diseases, lifestyle impact on human health, investigation and diagnosis of diseases, therapeutic strategies, human life cycles and aging, and the role of stem cells in regenerative medicine. 

    By the end of the module, you will have acquired knowledge and skills necessary for understanding the intricate relationship between cells, microorganisms, and human health.

  • Essential Skills for Bioscientists

    This module has been designed to support you in developing the core technical and transferable skills required to study, undertake research, and communicate effectively on topics in the Biosciences. You will arrive at University with a wide range of skills and proficiencies, so this module aims to support your transition and equip you with the essential skills you need at later stages of the course.

  • Fundamentals of Chemistry

    The aim of this module is to provide an appropriate foundation in core concepts of physical and quantitative Chemistry for you across different disciplines including biochemistry, biomedical sciences, biological sciences, and pharmacology. 

    Using workshops and practical sessions, this module will deliver an integrated understanding of matter, and the connection between the structure of atoms, molecules and compounds and their physical and chemical properties (eg, bonding and energy). 

    It also supports you in developing quantitative skills for solving chemistry calculation problems that form the basis of many analytical methods eg, spectrophotometry, chromatography etc.

  • Fundamentals of Biochemistry and Molecular Biology

    The aim of this module is to provide you with a comprehensive understanding of the key principles, concepts and terminologies of biochemistry and molecular biology. It aims to explore the structure and function of biological molecules (DNA, RNA, protein, enzymes, lipids and carbohydrates) as well as the biochemistry of processes that support life and metabolism. These concepts will be taught using lectures, tutorials, and lab practicals.

  • Genetics and Disease

    This module provides knowledge and understanding of the structure of nucleic acids (DNA and RNA) and how these molecules encode the properties of cells – providing you with a basic grounding in the genetics and molecular biology underpinning human biology and health.

  • Human Anatomy and Physiology

    This module will introduce you to human anatomy. You'll gain insights into the relationship between the structure and function of the individual at the system level and as a fully integrated organism. Theory will be supported by a virtual practical activity.

Compulsory modules

  • Bioinformatics and Systems Biology

    The aim of this module is to provide you with a robust foundation in bioinformatics and computational biology. By combining the exploration of computational tools for high-throughput biological data analysis with in-depth network analysis and modelling, the module aims to foster critical thinking, practical skills, and interdisciplinary collaboration. 

    Through these learning experiences, you will be equipped to comprehend complex biological data, apply computational methods effectively, and interpret network properties, thereby preparing them to contribute meaningfully to the field of bioinformatics and systems biology.

  • Fundamentals of Pharmacology

    The aim of this module is to help you understand how drugs work in the body to prevent and treat diseases. You will learn about how drugs interact with the body, how doses affect responses, different ways drugs can be given, types of drugs, how the body processes and removes drugs, and the potential dangers. You will also explore methods for discovering new drugs and the idea of personalised medicine.

  • Research, Development and Leadership

    This module aims to equip you with comprehensive knowledge, skills, and practical experience in research, evidence-based practice, clinical audit, innovation, and collaborative teamwork in biomedical and biosciences contexts.

  • Infection and Immunity

    This module aims to provide you with an in-depth knowledge of the current concepts of basic immunology as well as continue to build on your infection knowledge from Level 4 with respect to diseases you may encounter in the clinic.

    Theoretical concepts are reinforced through laboratory practical sessions which will introduce you to diagnostic microbiological and basic immunological techniques and data analysis which are broadly used in a variety of clinical settings and scientific disciplines.

  • Genetics and Evolution

    This module provides an in-depth exploration of the fundamental principles of genetics, inheritance, and the mechanisms that drive evolution. Through the lens of various bioscience and biomedical sciences disciplines, you will explore the intricate world of genetics, gaining practical laboratory skills, an understanding and application of molecular biology, and the ability to analyse biological data. The module will also cover the integration of knowledge across bioscience/biomedical sciences disciplines to tackle complex biological inquiries and foster effective communication of scientific concepts.

  • Proteins and Enzymes

    This module provides a comprehensive introduction to modern protein science including investigating the relationship between protein structure and function, techniques for analysing protein sequences and for determining protein structure and function such as fluorescence, spectroscopy, and protein engineering. 

    The opportunities provided by genetic approaches to engineer proteins and their therapeutic and biotechnology applications will also be discussed. Enzyme mechanisms and regulation will be taught complementing learning content in the Cell Metabolism module. 

    The module introduces you to the basics of bioinformatics, increasingly used in biological research and is a skill in high demand by employers. This module builds on the key concepts in Molecular Biology and Biochemistry taught at Level 4 which elucidate the importance of macromolecules in the cell.

Compulsory modules

  • Final Year Research Project

    The 40-credit module aims to equip you to plan and produce a small-scale research project relevant to your own area of interest. You will learn to develop an appreciation of how scientific knowledge advances through research including the challenges and limitations. With the support of a supervisor, and shared discussions with other students, you will work independently to carry out a research project to completion.

  • Data Science in Health and Well-being

    The aim of this module is to provide you with advanced knowledge and understanding of the application of data science in healthcare. The module will introduce a range of advanced statistical methods that are used in health data science, such as linear regression, logistic regression, survival analysis, and principal component analysis.

    The module also aims to develop your understanding of the whole data science process, including defining the question, obtaining a dataset, performing analysis, interpreting the results, and communicating the results to a wide audience.

  • Biomedical Signal Processing

    The aim of this module is to help you develop an in-depth understanding on analysing and processing biomedical signals that are produced by the physiological process of human body, such as electrocardiogram (ECG), electromyograph (EMG), blood pressure, and body movements. 

    You will learn how a physiological signal is processed and analysed to obtain key parameters for clinical diagnosis and intervention. This includes techniques such as sampling of analog signals, designing digital filters, conducting Fast Fourier Transformation (FFT), and measuring parameters such as heart rate, body temperature, and walking speed. 

    Laboratory sessions will be used to help you gain practical experience of using these techniques. In these sessions, you will have the opportunity to develop routines using programming language (e.g. Matlab, R, or Python) to process and analyse physiological signals.

  • Medical Image Analysis

    The aim of this module is to help you develop an in-depth understanding on the underlying principles of main medical imaging modalities such as radiograph (X-ray), ultrasound imaging, and magnetic resonance imaging (MRI). You will also learn methods on medical image enhancement, segmentation, visualisation, and how to extract key information from images. Laboratory sessions will be provided to help you gain practical experience of using these methods. In these sessions, you will have the opportunity to use imaging processing programs (e.g. ImageJ) to process and analyse medical images.

  • Digital and Mobile Health

    This module introduces you to the scientific, medical, and technical foundations for mobile health technologies, such as sensor technologies for health monitoring, processing and storage of health data, and human-machine interaction.

    You will also develop an in-depth understanding of the application of mobile health technologies for the prevention, diagnosis, and treatment of human diseases. The ethics and regulations related to mobile healthcare will also be discussed.

Entry requirements

Entry requirements

112 UCAS points required from level 3 qualifications

These can include:

  • A Levels at grade B, B and C, or above
  • BTEC Extended Diploma with Distinction, Merit, Merit
  • Access to HE Diploma
  • International Baccalaureate
  • T Levels

Your Level 3 qualifications must include one science subject.

You also need GCSE English, Maths, and two sciences or double science (grade 9 - 4 / A* - C) or Level 2 equivalent.

Looking for BSc (Hons) Biomedical Informatics with Foundation Year?

View Foundation Year course
Whether you are changing career or don't have the exact subjects and grades required for this course, you might want to choose this course with a foundation year. This will give you an extra year's study to prepare you for the standard degree programme, where you can go on to graduate with a full Honours degree. Follow the link to see full details of the course with foundation year.

Mature applicants (aged 21+): If you do not hold the qualifications listed but have relevant work experience, you are welcome to apply. Your application will be considered on an individual basis.

Looking for BSc (Hons) Biomedical Informatics with Foundation Year?

View Foundation Year course
Whether you are changing career or don't have the exact subjects and grades required for this course, you might want to choose this course with a foundation year. This will give you an extra year's study to prepare you for the standard degree programme, where you can go on to graduate with a full Honours degree. Follow the link to see full details of the course with foundation year.
6.0 IELTS or above

You need to meet our English language requirement - a minimum of IELTS 5.5 for each of the 4 individual components (Reading, Writing, Speaking and Listening). Visit our English language requirements page for information on other English language tests we accept. 

You also need academic qualifications at the same level as UK applicants. In some countries where teaching is in English, we may accept local qualifications. Check for local equivalents

We offer pre-sessional English language courses if you do not meet these requirements.

Find out more about our English Language courses.

Looking for BSc (Hons) Biomedical Informatics with Foundation Year?

View Foundation Year course
Whether you are changing career or don't have the exact subjects and grades required for this course, you might want to choose this course with a foundation year. This will give you an extra year's study to prepare you for the standard degree programme, where you can go on to graduate with a full Honours degree. Follow the link to see full details of the course with foundation year.

Mature applicants (aged 21+): If you do not hold the qualifications listed but have relevant work experience, you are welcome to apply. Your application will be considered on an individual basis.

Looking for BSc (Hons) Biomedical Informatics with Foundation Year?

View Foundation Year course
Whether you are changing career or don't have the exact subjects and grades required for this course, you might want to choose this course with a foundation year. This will give you an extra year's study to prepare you for the standard degree programme, where you can go on to graduate with a full Honours degree. Follow the link to see full details of the course with foundation year.
Fees & funding

Fees & funding

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Please note:

  • Fees for the 2026/27 academic year and onwards may be subject to Government regulation and change.
  • Tuition fees are charged for each year of your course. If your course runs for two years or more, you will need to pay the fee for each academic year at the start of that year.
  • If your course runs for less than two years, the cost above is for your full course and you will need to pay the full fee upfront.
  • If no fee is shown above then the fees for this course are not available yet. Please check again later for updates.

Funding your studies

You may be eligible for a student loan to cover the cost of tuition fees, or a maintenance loan. Additional funding is available to some types of students, such as those with dependants and disabled students.

We offer generous bursaries and scholarships to make sure your aspirations are your only limit. In recent years, hundreds of students have received our Full-time Undergraduate Student Bursary. 

View full details, including conditions and eligibility.

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Please note:

  • Fees for the 2026/27 academic year and onwards may be subject to Government regulation and change.
  • Tuition fees are charged for each year of your course. If your course runs for two years or more, you will need to pay the fee for each academic year at the start of that year.
  • If your course runs for less than two years, the cost above is for your full course and you will need to pay the full fee upfront.
  • If no fee is shown above then the fees for this course are not available yet. Please check again later for updates.

International students - funding your studies

We offer scholarships for international students including International Ambassador Scholarships. 

Further information about funding and financial support for international students is available from the UK Council for International Student Affairs.

 

Teaching staff

Teaching staff

Jin Luo staff profile

Dr Jin Luo

Dr Jin Luo was awarded his PhD in Mechanical Engineering from Dublin City University, Ireland in 2004. He then worked as a Research Associate on spine biomechanics in the University of Bristol between 2005 and 2010. Dr Luo was a Senior Lecturer in Biomechanics in the University of Roehampton from 2010 to 2016, and then an Associate Professor in Medical Technology in London South Bank University. He joined the University of West London in March 2020.

Dr Jin Luo was awarded his PhD in Mechanical Engineering from Dublin City University, Ireland in 2004. He then worked as a Research Associate on spine biomechanics in the University of Bristol between 2005 and 2010. Dr Luo was a Senior Lecturer in Biomechanics in the University of Roehampton from 2010 to 2016, and then an Associate Professor in Medical Technology in London South Bank University. He joined the University of West London in March 2020.

Study & career progression

Study & career progression

Health professionals using tablet PCs around a table

What can I do with a degree in Biomedical Informatics degree?

Upon successful completion of the BSc (Hons) Biomedical Informatics course, you will be equipped to pursue a wide range of careers in fields such as:

  • healthcare data analyst
  • informatics consultant
  • medical research
  • forensic science
  • science writing
  • academia
  • pharmaceutical research
  • biomedical product marketing
  • NHS clinical data analyst
  • NHS data scientist.

You may also choose to further your studies with our MSc and PhD courses.

How to apply

How to apply

Important notes for applicants

Disclaimer

*Modern universities - defined as higher education institutions that were granted university status in, and subsequent to, 1992.

**The National Student Survey 2023 and 2024 - Average of answers to all questions by registered student population. Excludes specialist institutions.

Testimonials - our students or former students provided all of our testimonials - often a student from the course but sometimes another student. For example, the testimonial often comes from another UWL student when the course is new.

Optional modules - where optional modules are offered they will run subject to staff availability and viable student numbers opting to take the module.

Videos - all videos on our course pages were accurate at the time of filming. In some cases a new Course Leader has joined the University since the video was filmed.

Availability of placements - if you choose a course with placement/internship route we would like to advise you that if a placement/internship opportunity does not arise when you are expected to undertake the placement then the University will automatically transfer you to the non-internship route, this is to ensure you are still successful in being awarded a degree.