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    MSc PG Certificate PG Diploma
    2025 start September 

    Advanced Cell and Gene Therapies

    Neuroscience, School of Medicine and Population Health, Faculty of Health

    Work with scientists and industry to study the genetics behind rare inherited diseases. Learn how discoveries in the lab are translated into innovative new stem cell and gene therapy treatments that offer precision and personalised medicine.
    MSc Advanced Cell and Gene Therapies

    Course description

    Lead academics: Professor Mimoun Azzouz and Professor Janine Kirby

    This course is designed to give you knowledge and training in a cutting-edge area of science, which you can apply to a wide range of roles in a growing industry. Whether you are a recent graduate or are already working in the field of cell and gene therapies, there are a range of qualifications and part-time options available, designed to support your studies.

    You can study the genetics behind rare inherited diseases, and how cell and gene therapies provide treatment options that can be tailored to individual patients. In the laboratory, you can explore a range of topics and techniques in molecular and cellular biology. You can also learn how scientists work with industry to translate discoveries into marketable healthcare products, with module content covering topics such as manufacturing, quality control, regulation, safety and clinical trials.

    As an Advanced Cell and Gene Therapies student, you will learn from the experts who run our Gene Therapy Innovation and Manufacturing Centre (GTIMC). Researchers at this multi-million-pound facility are working to accelerate the development of gene therapies into life-changing treatments. The Sheffield team works with pharmaceutical companies and other organisations in an expanding global gene therapy network, which creates unique learning opportunities throughout the degree. Some of our collaborators give lectures, and MSc and PGDip students may have the opportunity to be part of a project with one of our industry partners during a 20-week research project.

    You will be based within the Sheffield Institute of Translational Neuroscience (SITraN) – an internationally recognised centre of excellence, where top researchers are working on groundbreaking treatments to improve the lives of patients with neurodegenerative disorders.

    Intercalation

    We accept medical students who wish to intercalate their studies. Find out more on the School of Medicine and Population Health website.

    Advanced Cell and Gene Therapies bursaries

    We have a number of bursaries available for students planning to study our MSc Advanced Cell and Gene Therapies programme.

    Find out if you're eligible

    Do you have a question? Talk to us

    Book a 15-minute online meeting with our course tutor to find out more information and ask further questions.

    Book an appointment with Janine Kirby

    Modules

    A selection of modules is available each year - some examples are below. There may be changes before you start your course. From May of the year of entry, formal programme regulations will be available in our Programme Regulations Finder.

    Full-time MSc students will take all of the modules listed below over one year.

    Part-time MSc students will complete all modules over two years. In the first year, these include Principles of Gene Therapy, Omics Techniques, Beyond Cell and Gene Therapies, and the Literature Review.

    Students on the PG Diploma course will take 120 credits from the list below. Students on the PG Certificate course will take 60 credits. "Formulating a Scientific Research Proposal" is only available to PG Diploma students. "Research Project" is not available to PG Certificate students.

    If you are planning to study the PG Diploma or PG Certificate over two years, contact us to discuss your module options and which year you would take each module in.

    Introduction to Human Inherited Diseases

    This module provides a brief introduction to human genetics and the clinical presentation and manifestations of inherited diseases. The module will also illustrate how traditional and current advanced strategies and techniques have been used to identify genes responsible for both common multifactorial and rare inherited diseases. The module will also develop skills for communicating biomedical research to a lay audience.

    15 credits
    Omics Techniques

    This module will introduce 'omics' technologies, such as genomics, transcriptomics, proteomics and metabolomics, and how they are applied in disease areas such as cancer, rare inherited diseases and infectious diseases. Students will experience the experimental and bioinformatic pipelines used to evaluate pathogenicity of variants and learn about the use of different methodologies, such as microarrays and RNA sequencing in estimating levels of mRNA, micro RNAs and long non-coding RNAs. Students will also learn about the advantages and limitations of each method, to assess which is the best method for a particular experimental question.

    15 credits
    Principles of Gene and Cell Therapies

    This module will offer a comprehensive overview of the principles of advanced therapies (cell and gene therapies), including introduction to viral and non-viral vectors, vector design, gene editing, gene replacement, gene silencing, vector delivery, stem cell and pluripotency, tissue engineering, ex-vivo gene therapeutics and CAR T cell technology. Gene and cell therapeutics for monogenic rare diseases and other common diseases (e.g. cancer, heart, immune system) will be discussed. Students will be delivered tutorials on cell and gene therapy study design. They will also have a chance to learn about career opportunities in advanced therapeutics.

    15 credits
    Beyond Cell and Gene Therapy

    This module will offer an overview of advanced therapy approaches other than cell and gene therapy. These include small molecule drug development, intermediate molecules (protacs, peptide), antibody therapeutics and their variants, electroceuticals and scaffolding for regenerative medicine. The module will focus on the different stages of preclinical drug discovery and highlight any specific issues relating to toxicology and clinical trials for each approach. The module will also cover IP and commercialisation in and explore the growing fields of novel therapeutic modalities such as protacs and bicyclic peptides, applied to therapeutic areas, from neurology to cancer, and how this complements cell and gene therapy.

    15 credits
    Clinical development in gene & cell therapeutics

    This module will offer a comprehensive overview of the translational pathway of advanced therapies (cell and gene therapies), including the regulatory requirement overseeing the clinical development of advanced therapies, Good Laboratory Procedures (GLP) pre-clinical regulatory studies, Good Manufacturing Procedures (GMP) for plasmid, vector and cell manufacturing, quality control and assurance. This module will also give an overview on procedures to secure clinical trial approval (CTA) and Market Authorisation for advanced therapy products. Students will have a chance to learn about career opportunities in regulatory and GMP manufacturing through interaction with industry.

    30 credits
    Formulating a Scientific Research Proposal

    Students will select a research project title from a list of projects relevant to advanced therapies or translational neuroscience (as appropriate). They will research the scientific literature to identify a gap in current knowledge and with assistance from an academic supervisor, formulate a hypothesis and series of specific aims that could be used to address the research problem.

    15 credits
    Research Project

    The aim of the module is to provide the opportunity to learn and apply research methodologies to test a specific scientific hypothesis. A list of projects will be made available and students will be asked to select their top choices. Having been assigned a project of their choice, the students will carry out a 20 week research project, culminating in an oral presentation and dissertation concisely written in the style of a scientific paper describing their research. Students will be expected to join in with the Departmental seminars, journal clubs and supervisor meetings, to learn and experience the role of a scientific researcher.

    75 credits

    The content of our courses is reviewed annually to make sure it's up-to-date and relevant. Individual modules are occasionally updated or withdrawn. This is in response to discoveries through our world-leading research; funding changes; professional accreditation requirements; student or employer feedback; outcomes of reviews; and variations in staff or student numbers. In the event of any change we'll consult and inform students in good time and take reasonable steps to minimise disruption.

    Open days

    An open day gives you the best opportunity to hear first-hand from our current students and staff about our courses.

    Book a space on our next open day on Wednesday 27 November

    This course is in our Medical Science session, which is about MSc courses that focus on the science of human health and disease, and the research that underpins a wide range of treatments and interventions.

    Duration

    • MSc: 1 year full-time or 2 years part-time
    • PGDip or PGCert: 1 year, or part-time over 2 years

    Teaching

    You will learn through lectures by academics and industry experts, seminars, tutorials, student-led group work, practical sessions, and research placements in clinical, regulatory and industry settings. You may also have the opportunity to attend a gene and cell therapies conference.

    Assessment

    You will be assessed through written assignments, coursework, short answer exams, posters, presentations and blogs. The research project is assessed by a dissertation and presentation.

    Your career

    Cell and gene therapies are a growing field, and there is a high demand for graduates with the specialist knowledge and skills this course provides. Potential employers include universities and research institutes where scientists are studying cell and gene therapies, organisations in the healthcare and pharmaceutical industries that are developing, manufacturing and trialling new treatments, and the government bodies that regulate medical products. The MSc course is also great preparation for a PhD.

    Our PGDip, PGCert and part-time options can support the professional development of people who are already working in cell and gene therapies. 

    Student profiles

    Rhiannon Brown

    The bursary has helped me to study and focus on my work without having to worry about my finances

    Rhiannon Brown Advanced Cell and Gene Therapies

    Rhiannon, who was the recipient of an Innovation Hubs for Gene Therapies bursary, says that she chose to study in Sheffield because of the high-quality research put out by the Sheffield Institute for Translational Neuroscience (SITraN).

    Maria-Lorena Gudurman

    I can’t say what I enjoyed most about the course; there are so many options

    Maria-Lorena Gudurman Advanced Cell and Gene Therapies

    Maria-Lorena discovered the Advanced Cell and Gene Therapies course during her undergraduate studies and says that she stayed in Sheffield because it felt like a second home to her.

    Entry requirements

    Minimum 2:1 undergraduate honours degree in a relevant subject

    Subject requirements

    We accept degrees in the following subject areas: 

    • Biology
    • Biomedical Engineering
    • Biomedical Science
    • Medicine
    • Neuroscience
    • Psychology

    We may consider degrees in other Medical, Engineering or Science subjects.

    We also consider a wide range of international qualifications:

    Entry requirements for international students

    We assess each application on the basis of the applicant’s preparation and achievement as a whole. We may accept applicants whose qualifications don’t meet the published entry criteria but have other experience relevant to the course.

    The lists of required degree subjects and modules are indicative only.  Sometimes we may accept subjects or modules that aren’t listed, and sometimes we may not accept subjects or modules that are listed, depending on the content studied.

    English language requirements

    IELTS 6.5 (with 6 in each component) or University equivalent.

    If you have any questions about entry requirements, please contact the school/department.

    Fees and funding

    Advanced Cell and Gene Therapies bursaries

    We have a number of bursaries available for students planning to study our MSc Advanced Cell and Gene Therapies programme.

    Find out if you're eligible

    Apply

    You can apply now using our Postgraduate Online Application Form. It's a quick and easy process.

    Apply now

    Any supervisors and research areas listed are indicative and may change before the start of the course.

    Our student protection plan

    Recognition of professional qualifications: from 1 January 2021, in order to have any UK professional qualifications recognised for work in an EU country across a number of regulated and other professions you need to apply to the host country for recognition. Read information from the UK government and the EU Regulated Professions Database.