You will cover some of the key skills required to become a laboratory scientist, including health and safety, COSHH, ethics of using human participants, good laboratory practice, writing standard operating procedures, writing CVs and postgraduate applications.

Develop the problem solving and analytical skills used in the diagnosis of infectious disease. You'll become familiar with laboratory techniques used routinely in a diagnostic microbiology laboratory.

Gain a critical understanding of the molecular basis, study and treatment of genetic diseases and immunological disorders.

Gain knowledge and understanding of the range of research designs and the analysis and interpretation of biomedical data. You will also be introduced to the use of SPSS for data analysis.

Investigate haematological diseases, their diagnosis and treatment. You'll also be introduced to transfusion science and why it’s an important treatment option.

Study the biochemical basis of disease. You'll begin to appreciate the importance of analysing and testing body fluids and tissues for patient diagnosis and monitoring of treatment. You'll identify diseases common in the UK to understand the properties of cell signalling, biomarkers and characteristics of enzymes and their importance in disease. You'll also gain laboratory skills to analyse enzymatic data important for diagnostics.

Understanding the metabolic pathways in cells is often disregarded as the whole organism is favoured in biomedical sciences. This module will provide general knowledge on enzymatic reactions involved in metabolic pathways and focus on their regulation. This will be complemented by laboratory work giving you hands-on experience on biochemical aspects of metabolism.

Explore the variety of means by which infectious diseases are transmitted to individuals and populations. You will investigate strategies that may be used to reduce the incidence of disease transmission at local and global levels.

Develop an appreciation of current concepts involved in the application of DNA technology in Biomedical Science. You will gain an understanding of, and practical experience in, the use of applied molecular techniques for genetic manipulation, rapid molecular diagnosis, screening for disease, epidemiology and therapies.

Demonstrate how knowledge of pharmacological principles can be used in the identification of drug products which are of potential benefit in treating disease. You will also examine some of the methods used for measurement of drug effects.

Gain an overview of the key aspects of clinical chemistry, the science behind many of the diagnostic tests used in medicine. You will examine how the measurements are performed and how they can be setup, and assessed to ensure reliability of results.

Demonstrate your ability to work independently and think critically through an extended piece of work. This could involve data generation and manipulation, laboratory investigations, surveys or literature searches, and will include reflective analysis and application.

Study the commercial exploitation of biomedical science discoveries and medical technologies with a focus on group work to identify and research a suitable discovery or technology.

Explore the diagnosis of diseases that affect major human body systems that are important in human health and therapeutic intervention. Through lectures, case-studies and laboratory-based practical sessions, you'll build an understanding of the mechanisms and consequences of a range of disorders. These will include heart diseases, neurological disorders, endocrine disorders, respiratory diseases and infertility. In addition, you'll be introduced to the concepts of preparing cells and tissues for examination in a pathology setting. You'll also discuss the importance of interdisciplinary teams in the diagnosis and monitoring of disease.

Study the causes and pathology of common diseases and the impact of lifestyle upon human health. You'll investigate the diagnosis and monitoring of human diseases and therapeutic strategies for these disease states. During your investigation, you'll focus on the roles played by different disciplines within biomedical science. This module will also examine human life cycles and ageing. You'll explore the roles stem cells and regenerative medicine may have in treating diseases associated with ageing.

This module addresses the nature of cancer, its causes, epidemiology, mechanisms and treatment. It considers the changes in the cell cycle during carcinogenesis. You will analyse the changes in histology during cancer development and evaluate the various treatment options for different forms of cancer. You will also examine in greater depth some of the most common types of cancer and use a case study approach to evaluate evidence.

Learn how biochemistry can be applied in biomedical science, in particular the engineering of various biomolecules and their use in biomedical science and nutrition. You'll develop your knowledge and begin to understand case studies of real-life events and research.

This module uses a case study approach to cover different infectious diseases from different sites in the body e.g. TB as a respiratory disease, HIV as a sexually transmitted disease, Malaria as a vector borne disease. There will be introductory lectures on each topic, followed by workshops using current literature on the topic. You will also develop advanced laboratory techniques for the diagnosis of infectious disease.

Gain an understanding of how biotechnology has played a role in the development of technologies used or relevant to medicine and human health.

Develop a spirit of enquiry and a critical approach to the evaluation of approaches to drug discovery and development. You will be able to relate pharmacological and toxicological principles to the drug discovery and development process.