Dr Paula Cunnea is an Advanced Research Fellow based in the Ovarian Cancer Action Research Centre, in the Division of Cancer. Paula leads a research group with Professor Christina Fotopoulou, focused on investigating tumour heterogeneity in high grade serous ovarian cancer, developing different 3D models of ovarian cancer, and applying different bioengineering approaches to cancer research. Paula also runs multiple multidisciplinary projects in the area of platinum resistance and development of novel therapeutics to target platinum resistance.
Paula initially joined the Ovarian Cancer Action Research centre in 2012, to work on a collaborative FP7 European Union funded project (Ovarian Cancer Therapy – Innovative Models Prolong Survival, OCTIPS), aiming to identify and characterise the cell population within an ovarian tumour that causes the patient to relapse, and to develop novel therapies in innovative model systems to combat the development of resistance to chemotherapy.
Paula obtained her primary BSc degree in Biomedical Science/Applied Science from Dublin Institute of Technology and Trinity College Dublin, Ireland, in 1997. Paula achieved her PhD in December 2006 following post-graduate research in the Karolinska Institute, Stockholm, Sweden. Paula worked as a postdoctoral researcher in National University of Ireland Galway and Queen's University Belfast, in particular in the Ovarian Cancer Research Laboratory of Dr Hilary Russell and Professor Peter Hall.
et al., 2022, Novel ex vivo models of epithelial ovarian cancer: the future of biomarker and therapeutic research, Frontiers in Oncology, Vol:12, ISSN:2234-943X, Pages:1-17
et al., 2022, Clinicopathological characteristics and survival outcomes of patients with large cell neuroendocrine carcinoma of the uterine cervix: A systematic review and meta-analysis, European Journal of Obstetrics & Gynecology and Reproductive Biology, Vol:270, ISSN:0301-2115, Pages:212-220
et al., 2021, Validation analysis of the novel imaging-based prognostic radiomic signature in patients undergoing primary surgery for advanced high-grade serous ovarian cancer (HGSOC), British Journal of Cancer, Vol:126, ISSN:0007-0920, Pages:1047-1054
et al., 2022, Integrated digital pathology and single-cell analysis identify the spatial and temporal evolution of immune cells networks in epithelial ovarian cancer, ELSEVIER, Pages:S395-S395, ISSN:0923-7534
et al., 2022, Characterisation of Proteomic heterogeneity following platinum therapy in High-grade Serous Ovarian Cancer, WILEY, Pages:40-41, ISSN:1470-0328