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Physiological Society Representative
Representative at NDCN
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Clinical Neurosciences Society
co-chair
Maddalena Comini
Post Doctoral Research Fellow, Stipendiary Lecturer, Junior Research Fellow
After completing my PhD in cellular biophysics at the Helmholtz Association of German Research Centre (Fz Jülich), I joined the lab of Prof. David Bennett at NDCN (Oxford), where I study the role of VGSC Nav1.7 and calcium-permeable TRPA1 in painful channelopathies. To pursue my research, I employ a multi-disciplinary approach, involving electrophysiological (patch clamp and MEA multi-electrode arrays) and molecular biology techniques. My aim is to get a better understanding of the molecular mechanisms underlying pain perception and sensitivity, in a variety of in vitro cellular models (HEK293T cells, mouse DRG and human iPSC-d sensory neurons), to finally identify novel therapeutic targets.
I am a Junior Research Fellow (Non Stipendiary) at St Catherine's College (University of Oxford), where I am employed as Stipendiary Lecturer in Neurophysiology and Experimental Psychology and Graduate College Adviser. In addition, I am a Tutor at Somerville College (University of Oxford), where I teach Neurophysiology to 1st year Experimental Psychology undergraduates.
I like to engage in social and fundraising activities, and I co-chair the Clinical Neurosciences Society at NDCN, which aims at creating an inclusive environment, and bringing people together in the departmnet, across multiple divisions.
Finally, I try and promote science and physiology-related research as Representative at NDCN for the Physiological Society UK, an international community which brings together scientists from a multicultural and diverse background
Recent publications
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Genetic associations of neuropathic pain and sensory profile in a deeply phenotyped neuropathy cohort
Journal article
BASKOZOS G. et al, (2024), Pain
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Neanderthal introgression in SCN9A impacts mechanical pain sensitivity.
Journal article
Faux P. et al, (2023), Communications biology, 6
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Investigating genotype-phenotype relationship of extreme neuropathic pain disorders in a UK national cohort
Journal article
Themistocleous AC. et al, (2023), Brain Communications
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Investigating genotype-phenotype relationship of extreme neuropathic pain disorders in a national cohort: ’NIHR Bioresources Rare Disease – Neuropathic Pain Disorders’
Journal article
THEMISTOCLEOUS A. et al, (2022), Brain Communications
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CLC anion/proton exchangers regulate secretory vesicle filling and granule exocytosis in chromaffin cells
Journal article
Comini M. et al, (2022), The Journal of Neuroscience