Develop a range of fundamental study and practical skills including numeracy, information literacy, writing abilities and essential study skills that will be applied throughout your degree and into your career.

You’ll develop laboratory skills, emphasise safety protocols and good laboratory practice, and acquire core competencies in the use of key laboratory equipment.

You’ll gain in-depth knowledge of cellular biology, encompassing the structural and functional features of both prokaryotic and eukaryotic cells.

You’ll examine an extensive range of human cell types in addition to stem cells and their specialisation.

Explore the structure and function of cellular organelles, the cell membrane, the cell cycle and the process of cellular division and study the contributions of distinct cell types to tissue function and the human anatomical structure.

You’ll be introduced to the human anatomy and physiology where you’ll explore the structure and function of key body systems including musculoskeletal, circulatory, respiratory, digestive, renal, urogenital, nervous and endocrine system.

You’ll cover the role of the immune system, the regulation and inter-dependence between tissues and organs of the systems in health and disease, the hormonal and neurological control mechanisms and the fundamentals of developmental and reproductive biology including infertility and embryology.

Practical sessions will contain a combination of both laboratory practical and sports laboratory experiments to cover a range of systems physiology, biochemistry, and microbiology experiments.

Develop the professional competencies essential in the field of Biomedical Science, encompassing data analysis and interpretation, presentation of data and an introduction to statistical analysis.

You’ll cover basic concepts of biophysics and chemistry relevant to Biomedical Science and explore concepts of disease cohorts, bioinformatics and handling extensive datasets.

You’ll take part in the University wide Professional Challenge which will help develop your collaborative, communicative and problem-solving skills through a series of tasks presented by external organisations.

Explore the structural and functional aspects of prokaryotic and eukaryotic microorganisms, including bacteria, fungi, protozoa and viruses.

Learn about the mechanisms governing gene transfer, microbial growth and survival, as well as the pivotal role of microorganisms in the disease, strategies for treatments and bacterial responses to antibiotics. Study the central dogma of DNA transcription, translation and replication as well as the mechanisms of inheritance and evolution. 

You’ll take part in laboratory practical sessions which will include techniques for growth, differentiation and identification of microorganisms. You’ll study techniques that identify types of microorganisms by their growth characteristics and responses to various chemicals including anti-microbial agents.

Understand the main macromolecules present in the human body in addition to an introduction to metabolic processes including how cells generate energy from the breakdown of carbohydrates.

You’ll be introduced to the concept of cell signalling with specific emphasis on the pivotal role played by enzymes.

Develop the key skills required to work in a biomedical research laboratory and to provide an understanding with practical experiences of the procedures used in the day-to-day running of a laboratory.

Develop a research project proposal based on a choice of potential projects and prepare a standard operating procedure for an appropriate technique.

You’ll take part in either a five-week Biomedical Employer-Led Challenge on-campus or an external professional placement activity to improve your employability and evaluate the skills your employers require.

Gain an understanding of immunological disease and disorders, transplantation, immunology, prophylaxis and immunotherapy.

You’ll cover immunological disorders and diseases, the spectrum of responses through hypersensitivity, immunodeficiency and autoimmunity, as well as the immune challenges of transplantation and cancer biology.

You’ll evaluate a range of laboratory tests used to diagnose and monitor the treatment of immunological conditions in linked practical sessions.

You’ll learn key haematology related disorders including anaemias, haematological malignancies and haemorrhagic and thrombotic diseases as well as transfusion science including core blood group systems, transfusion reactions and haemolytic diseases.

Study the evolutionary, functional and genetic aspects of histocompatibility and immunogenetics, together with their roles in transplantation and blood transfusion.

Study the pathogenic mechanisms of various bacteria, viruses and fungi within the body including screening, diagnosis, treatment and monitoring techniques for infectious diseases. You’ll also be introduced to the One Health concept regarding global infectious diseases.

You’ll gain an understanding on antimicrobial therapy and resistance, including antibiotics, antivirals, antifungals and antiparasitic treatments. You’ll learn the principles of public health microbiology including epidemiology and disease control.

The use of genetically mutated gene products as drug targets, and their influence on personalised medicine will be addressed.

Explore how to identify genetic mutations and polymorphisms and how these molecular changes influence disease processes.

You’ll focus on the application of molecular biology techniques and bioinformatics to identify and characterise mutations. You’ll also cover the effects of these mutations on protein structure and function and link to biochemical testing.

Explore the key aspects of clinical biochemistry used to help diagnose and manage disease through analysis of body fluids such as blood and urine.

You’ll learn about the most common tests and the disease processes that can be used to identify and manage.

You’ll study case studies that will illustrate key processes for use of the techniques in diagnosis of a range of disorders including kidney function, liver function, glucose metabolism and diabetes, genetically inherited conditions, hormone systems and common tests that are used in an Accident and Emergency setting.

Explore the key aspects of cytopathology and histopathology used to help diagnose and manage disease through analysis of cell and tissue samples.

You’ll learn methods that can be combine with cellular pathology to aid diagnosis, such as scanning and imagining techniques.

You’ll use case studies to illustrate key processes for the use of the techniques in the diagnosis of a range of disorders where cell and tissue samples can be obtained from biopsy.

You’ll perform an individual piece of research, generating your own data and analysing the significance of your findings. This may ben through laboratory research bioinformatics or computer modelling

As part of your project you’ll consider the relevant risk assessments, COSHH requirements and ethics for the work being undertaken.

You’ll be introduced to the key concepts of pharmacology relevant to practicing Biomedical Scientists.

Learn about the mechanisms of drug action to produce both therapeutic and adverse effects. Study the effects of route of administration on drug absorption, distribution and elimination as well as the metabolism of drugs and the effects of metabolites on the body function.

You’ll build on the knowledge gained in first two years of your studies and gain an understanding of the nature of cancer, its causes, epidemiology, mechanisms and treatment.

You’ll consider the change in the cell cycle during carcinogenesis, the changes in histology during cancer development and the various treatment options for different forms of cancer.

You’ll study the concept of commercial exploitation of biomedical science discoveries and medical technologies.

You’ll use a business model canvas to evaluate your own idea and work in group project to investigate the commercialisation of an idea linked to your research, you’ll then present your idea in a ‘Dragons Den’ style presentation to members of staff.

You’ll navigate hypothetical case studies from the first GP appointment through the diagnosis and treatment plans where you’ll learn how to extract key information from patient notes to direct you towards requesting specific laboratory tests plus therapies for the choices provided.

As you progress you’ll receive new information about the cases such as hypothetical test results, more patient information and unusual results.

You’ll apply the knowledge you have learnt throughout your entire studies to navigate your case effectively.