My groups’ primary research interests are in the genomics and molecular pathology of pancreatic cancer and the development of oncolytic virotherapy.
Our research aims to improve the efficacy of standard of care immunotherapy, chemotherapy and radiotherapy in human solid cancers by understanding the molecular mechanisms underlying tumour stromal contributions to tumour growth and therapy efficacy.
My clinical research interests include tissue banking, clinical trials, innovative surgical techniques, epidemiology, meta-analysis and patient care pathways. My translational research interests include pancreatic cancer stroma and tumour-stroma cross-talk including cell signalling, adhesion, metastasis and invasion.
I study the biology of tumour invasion with a particular focus on the roles of the adhesion molecules expressed on the cell surface that mediate this process. Our group concentrates on the study of integrins that are the principal family of adhesion molecules that mediate the interaction between cells and the extracellular matrix.
My research focuses on kinases regulating cancer cell growth and motility to understand how and when to target them with drugs. My group is currently examining the role of the PKN kinases in malignant progression.
My research interests lie in the area of translational bioinformatics. Current research projects are focused in high-throughput data analysis, integration with clinical data, databases and software development, particularly for pancreatic cancer and breast cancer.
My research focuses on molecular pathology of pancreatic cancer, in particular its development and progression. We are using this knowledge to develop biomarkers for early, non-invasive detection of this malignancy in urine specimens.
We are interested in understanding the cellular and molecular mechanisms that promote cancer cell plasticity and adaptation of tumour cells in metastatic niches and under therapeutic pressure.
We study the role of growth factor receptor signalling and intracellular trafficking (movement inside cells) in tumour growth and metastasis in the view of improving cancer therapy.
My focus is on detailed translational trials in pancreatic cancer, with a focus on targeting the tumour microenvironment. Our aim is to define what perturbations occur in tumours of patients receiving trial drugs.
We work on cancer prevention and immunotherapy using tumour-targeted replicating oncolytic viruses, in particular focusing on replicating adenovirus and vaccinia virus.
I am a clinical collaborator in numerous laboratory-based studies particularly the localisation of Lipiodol in Hepatocellular carcinomas, inflammatory and immune responses to surgery, and tumour-stroma interactions in pancreatic carcinoma. Clinical areas of interest have been video consultations in tertiary care, surgery for pancreatic tumours (especially NETs) and liver tumours, and tissue banking.
My work focuses on the global analysis of miRNA in pancreatic cancer and developing miRNA biomarkers for early detection of this malignancy.
My research is focused on studying the molecular mechanisms of integrin αvβ6-driven pancreatic ductal adenocarcinoma (PDAC) progression and metastasis.
My research focuses on understanding the relationship between chromosome instability mechanisms and tumour cells’ resistance to therapies.
Our research focuses on the principles of spatial biology, integrating digital pathology, multi-omic data, and various imaging modalities to explore tissue architecture and the tumour microenvironment.
The aim of my work is to develop clinically-relevant biomarkers that could aid in earlier disease detection, predict treatment response, and inform clinical management of patients.
My research focuses on Vaccinia virus (VACV) as a candidate for oncolytic virotherapy, an extremely effective strategy that can simultaneously target multiple features of the suppressive tumour microenvironment (TME) in cancer and sensitize the tumours to other forms of immune or traditional therapeutics.
My research is focused on cancer immunotherapy for pancreatic cancer, particularly immune-stimulatory molecules, armed oncolytic viruses and CAR T-cells.