Cancer Biomarkers and Therapeutics MSc/PGDip/PGCert | Middlesex University London
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Cancer Biomarkers and Therapeutics MSc/PGDip/PGCert

Learn about the course below
Code
PGB132
Start
October 2020
Duration
1 year full-time
2 years part-time
Attendance
Full-time
Part-time
Fees
£9,100 (UK/EU) *
£13,900 (INT) *
Course leader
Song Wen

This course is no longer accepting applications for 2019 entry. The next entry is 2020.

Our MSc programme will develop your knowledge and understanding of cancer diagnosis and therapeutics. The course will focus on up-to-date diagnostic techniques and emerging tumour markers and their potential applications in specific diagnostics for various types of cancers. In addition, you will be exploring drug delivery systems and learning to make drug carriers for targeting cancers using nanotechnology. You will also be trained to perform a range of molecular, cellular and proteomics laboratory techniques used for detecting tumour markers and monitoring therapeutic effects.

Why study MSc/PGDip/PGCert Cancer Biomarkers and Therapeutics at Middlesex University?

This programme will provide not only the necessary framework and general concepts in the cancer research field, but also an updated advanced knowledge of cancer diagnosis and treatment.

In addition, you will be led by experts who are in the front line of drug development and drug delivery and acquire useful novel laboratory skills using nanotechnology and Multiplex Immunoassay-NALIA system, which will equip you with the necessary/essential skills for pursuing a range of career options. You could also proceed to further scientific training or you would be well-equipped to carry out research.

A final dissertation project will be supervised by experts focusing on a variety of cancer research areas. You will be working in laboratories equipped with up-to-date instrumentation including matrix-assisted laser desorption ionization time-of-flight mass spectrometry (MALDI- Tof MS), liquid chromatography (LC)- MS, gas chromatography (GC)- MS, conventional and quantitative PCR, flow cytometry, Confocal microscopy, Licor Imaging system and fully equipped histopathology laboratory and tissue culture facilities.

Course highlights

  • Acquire laboratory research skills in drug delivery using nanotechnology and multiplex immunoassays which stand at the frontline of the cancer clinical research arena
  • Be taught by experts in the field of cancer research including academics and those working in the clinical area
  • Develop expertise in a variety of laboratory techniques in our modern and well equipped laboratories forming part of the Centre for Investigative & Diagnostic Oncology led by Prof Ivan Roitt and Prof Richard Bayford.

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What will you study on the MSc/PGDip/PGCert Cancer Biomarkers and Therapeutics?

The course content of this MSc programme comprises five core modules; advanced bio-analytical techniques, ethics, leadership, research methods and research project modules. Additionally, there are four 15-credit specialised cancer modules, covering cancer diagnosis and treatment.

The specialised modules are arranged as follows: you will take two modules in Term 1, which will provide you with the basic concepts of cancer, biomarkers, and general principles of cancer diagnosis and management and haemato-oncology. Then you will progress to Term 2 with a further exposure to the advanced knowledge and techniques in cancer diagnostic theories and laboratory practices along with drug delivery systems using nanotechnology. Finally, the research project that takes place in Term 3 will be based around the theme of cancer and your supervisor will be drawn from the University’s  research active staff with the appropriate expertise in cancer research.

  • Modules

    • Biomedical Ethics and Law (15 Credits) - Compulsory

      The module will provide you with an insight into a range of ethical and legal issues that relate to professional practice, to research with human and animal subjects and to human reproduction, particularly various forms of reproductive technology. It will also give you a broad overview of the relevant current UK ethical and legal regulations for research using human tissues. The module will further explore the ethical issues present in the rapidly developing area of genetic technology, including genetic testing and selection, genetic engineering, and the concept of genetic disease.

    • Advanced Bioanalytical Techniques (15 Credits) - Compulsory

      Through this module you will examine advanced bioanalytical techniques that are used in biomedical research, for the analysis of products, for improving disease understanding and for the analysis of disease biomarkers. It also will provide you with a detailed understanding of the principles, theory and practice of bioanalytical techniques, including safety, instrumentation, sample preparation techniques together with analysis and interpretation of analytical data.

    • Leadership and Management (15 Credits) - Compulsory

      The module will provide you with current theories and approaches to leadership and management in order that they can bring about effect positive changes in the team or organisation that they lead or manage.

    • Experimental Design and Statistics (15 Credits) - Compulsory

      This module will provide you with the tools required to design effective and efficient experiments and to test scientific hypotheses. The module will also equip students with the tools necessary for statistical analysis in a hypothesis testing context.

    • Advances in Tumour Diagnosis (15 Credits) - Compulsory

      The module aims to provide you with an understanding for tumour pathogenesis, screening programme for cancers, and an advanced knowledge of cancer diagnostics. You will explore different types of tumour markers, both existing and emerging, and their applications with regard to diagnosing different types and stages of cancers. A variety of diagnostic techniques will be introduced, examined and evaluated including mass-spectrometry and Multiplex Immunoassay. Data interpretation following the diagnosis are explained.

    • Cancer Therapeutics (15 Credits) - Compulsory

      The module aims to provide you with the knowledge and understanding of management strategies for cancers. Gene therapy, immunotherapy and adjuvant complementary therapy will be introduced and discussed together with conventional therapeutics for cancers. You will be introduced to nanotechnology as a method for facilitating drug delivery and explore various drug carriers that can be used as drug delivery systems. You will also explore various molecular cellular pathology techniques used for evaluating the treatment outcomes.

    • Haemato- Oncology (15 Credits) - Compulsory

      You will be  introduced to specialist diagnostic techniques used in Haemato-Oncology, providing deep appreciation of the cellular and molecular mechanisms of leukaemias, lymphomas and myelomas. It will empower you with techniques to analyse the roles of the haematology laboratory in diagnosis and treatment of patients with these conditions.

    • Cancer (15 Credits) - Compulsory

      You will be provided with the knowledge and understanding of the principles of carcinogenesis, malignancy and metastasis. You will understand how to apply molecular techniques to the diagnosis and management of a range of common cancers and to apply cellular pathology techniques in cancer and gain experience of interpreting results from patient investigations.

    • Research Project (60 Credits) - Compulsory

      This module will empower you to develop your skills in planning and execution of an analytical, laboratory-based study and critical evaluation of real research results drawing on their acquired knowledge from other modules. In addition, it will enable you to develop your communication skills to enable them to communicate their findings in written and oral form.

You can find more information about this course in the programme specification. Optional modules are not offered on every course. If we have insufficient numbers of students interested in an optional module, or there are staffing changes which affect the teaching, it may not be offered. If an optional module will not run, we will advise you after the module selection period when numbers are confirmed, or at the earliest time that the programme team make the decision not to run the module, and help you choose an alternative module.

How will the MSc/PGDip/PGCert Cancer Biomarkers and Therapeutics  be taught?

Lectures will introduce you to key information and knowledge, which seminars will reinforce through group discussions and problem-solving exercises. Group or individual tutorials will be tailored addressing specific subject areas as the need arises with individual projects taking place in Term 3 and all projects will be supervised by experienced researcher actively working in a cancer research field. You’ll submit written work and give presentations, learn to carry out literature searches and analyse research literature, and undertake your own independent study in your spare time. This will include using a range of online resources which will be designed, to support the teaching provided by the lecturers.

Assessment

As well as practical and theoretical exams and your research project and dissertation, you will be assessed through presentations and written assignments. These will include essays, laboratory reports, data analysis exercises, and papers made up of a literature review, hypothesis and research question.

  1. UK & EU
  2. International
  3. How to apply
  1. UK & EU
  2. International
  3. Additional costs

Dr Song Wen
Senior Lecturer

Dr Wen is medically qualified and has extensive experience in HPV associated cancer therapeutics and drug delivery using liposomal nanotechnology.

Professor Stephen Dilworth
Professor

Professor Dilworth graduated from Cambridge University and worked as a researcher at a few prestigious universities before joined Middlesex University. Stephen's research focusses on identifying the essential changes that occur in cells as they become cancerous, using the oncogenic viral proteins made by the mouse polyoma virus as a model system.

Professor Richard Bayford
Professor

Professor Bayford- is a bio-physicist and has enormous knowledge and vast experience in both teaching and the research in designing devices in diagnosing and monitoring cancer development and therapeutic effects from drug delivering system using nanotechnology.

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Biomedical Science (Haematology and Transfusion Science) MSc/PGDip/PGCert

Start: October 2019, September 2019 (EU/INT induction)

Duration: 1 year full-time, 2 years part-time

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Biomedical Science (Clinical Biochemistry) MSc/PGDip/PGCert

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Duration: 1 year full-time, 2 years part-time

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