This course may be available through clearing
BSc Anatomical Sciences / Overview
Year of entry: 2019
Course unit details:
Role of Diagnostics in Medicine
|Unit level||Level 3|
|Teaching period(s)||Semester 2|
|Offered by||School of Biological Sciences|
|Available as a free choice unit?||No|
This new lecture unit will be delivered entirely by senior scientists from QIAGEN (inc. Vice Presidents) from their Global Development and Medical Diagnostics division. Students will learn about current diagnostic concepts as well as how to translate advanced molecular technologies into future diagnostic techniques – as explained by commercial scientists working at the cutting edge of this process. The unit will cover both the science and the regulatory requirements necessary for such developments. Though running conventionally (i.e. in Stopford, with Podcasts, Blackboard and an internal Unit Coordinator) the unit is otherwise a unique and extremely exciting opportunity to hear directly from very senior scientists working at a major international Life Sciences company. Given its nature, allowances should be made for possible late timetabling changes (e.g. depending on flights etc.) and the final syllabus remains to be absolutely finalised but will be broadly that shown below. This unit should be of special interest to the Biomedical Sciences (and related) and Biotechnology (and related) programmes as well as to those students doing an Enterprise project.
None. Helpful units include:
- BIOL21351: Molecules & Cells in Human Disease
- BIOL20902: Clinical Sciences RSM
To explore current approaches in medical diagnostics, as well as how to develop and obtain approval for future diagnostic techniques. To consider Translational Medicine and its possible impact on human healthcare.
(Not Yet Confirmed)
- Introduction to Medical Diagnostics
Why is it needed? Overview of existing diagnostics:
Patient interview (symptoms); In vivo imaging e.g. X-ray, PET, MRI; In vitro sampling (Blood, biopsy etc)
Diagnostics performance – Sensitivity, Specificity, Precision.
Positive & negative predictive values (PPV, NPV)
- Molecular Diagnostic (MDx) Technologies
DNA-based e.g. (q)PCR, Sequencing (Sanger, Pyro, Next Gen/NGS)
Protein-based e.g. ELISA, Immunohistochemistry
Metabolite-based e.g. Chromatography (LC-MS)
Diagnostic devices and formats; Companion diagnostics
- Medical Diagnostics – Regulatory Environments and Requirements
Why regulation is necessary. Regulatory agencies in EU/US/CN/JP/AUS
Approval process and requirements.
Overview of US regulations - ASR, CLIA, 510k, PMA.
Example of regulatory approval process for device and assay (FDA documents)
Typical development process and documentation requirements
Impact of regulatory processes – positive and negative on healthcare
- Translational Medicine Overview
Rationale: translate new discoveries into clinical practice - > improve human health. Definition (three pillars: benchside, bedside and community).
Combine disciplines, resources, expertise, and techniques within these pillars to promote enhancements in prevention, diagnosis, and therapies.
Future of Diagnostic Medicine
Mechanisms supporting this: Government, Commercial, Programs and organizations supporting translational science
2-hour written examination (90-100%), comprising 2 essays from a choice of 5.
- Blackboard Discussion Board - checked regularly by Unit Coordinator.
There are no specific textbooks for this unit.
|Scheduled activity hours|
|Assessment written exam||2|
|Independent study hours|
|Nicola High||Unit coordinator|