Teaching
Modules for 2024-25
Biomedical Sciences & Translational Medicine Research Project 1 (Full-Time)
Module code: BIOM703
Role: Teaching
Biomedical Sciences & Translational Medicine Research Project 2 (Full-Time)
Module code: BIOM704
Role: Teaching
Cardiovascular and Respiratory Pharmacology
Module code: LIFE313
Role: Teaching
Communication and Study Skills for the Life Sciences
Module code: LIFE130
Role: Teaching
Molecular Toxicology
Module code: LIFE316
Role: Teaching
PHARMACOLOGY RESEARCH PROJECTS
Module code: PHAR660
Role: Teaching
PRACTICAL PHARMACOLOGY
Module code: LIFE234
Role: Teaching
Pharmaceutical Toxicology
Module code: LIFE765
Role: Teaching
The Cardiovascular System in Health and Disease
Module code: LIFE330
Role: Module Co-ordinator
Supervised Theses
- Defining the importance of mitochondrial genotype in determining individual variation in hepatic fatty acid oxidation and dysregulation
- Development of a Spheroid Model to Investigate Drug-Induced Liver Injury
- Evaluating the Role of Mitochondrial Genetics in Adverse-Drug Reactions and the Application of iPSC-Derived Hepatocytes for Modelling Drug-Induced Liver Injury
- Functional maturation of human IPSC cardiomyocytes for increased predictivity of effects on contractility
- Identification of differentially expressed genes and their functional activity in rat vascular tissues
- Identification of differentially expressed genes and their functional activity in rat vascular tissues
- Identification of the high-risk patient in primary percutaneous coronary intervention: development and validation of a novel predictive index
- Investigating the molecular mechanisms driving NRF2- mediated protection against doxorubicin-induced cardiotoxicity
- Modulation of ion channels as cardioprotective targets in ischaemic injury
- The adipocyte plasma membrane proteome and its role in drug-induced metabolic toxicity
- The use of routinely recorded Hospital Episode Statistics data for determining outcome measures in clinical research
- Towards Improved Models for the Study of the Multi-mechanistic Toxicity of Drug-induced Liver Injury
- Towards a Greater Understanding of Ageing within the Cardiovascular System: Unravelling the Impact of Doxorubicin-Induced Ageing in Cardiovascular Cells and the Therapeutic Potential of NRF2 Activation and Senolytics
- Towards a Greater Understanding of Ageing within the Cardiovascular System: Unravelling the Impact of Doxorubicin-Induced Ageing in Cardiovascular Cells and the Therapeutic Potential of NRF2 Activation and Senolytics
- Understanding mitochondrial changes in chemotherapy-induced cardiac damage