Current projects
Details of active NICAD research projects can be found here.
Dissecting endothelial/neuronal crosstalk during neurovascular coupling
PhD Student: Karishma Chhabria
Supervisors:
- Dr Tim Chico (Department of Infection, Immunity and Cardiovascular Disease)
- Dr Clare Howarth (Department of Psychology)
- Professor Stephen Wharton (91Ö±²¥ Institute for Translational Neuroscience)
- Dr Paul Heath (91Ö±²¥ Institute for Translational Neuroscience)
Using state-of-the-art lightsheet imaging, this project combines Dr Chico’s expertise in zebrafish models with Dr Howarth’s expertise in cell-level imaging of the mechanisms underlying neurovascular coupling to establish novel zebrafish models of neurovascular coupling.
Professor Wharton and Dr Heath provide the expertise necessary to extend these studies in order to examine the effect of differential gene expression within endothelial cells, as occurs in ageing and cardiovascular disease.
Neurovascular breakdown in atherosclerotic mice
PhD Student: Currently vacant
Supervisors:
- Dr Jason Berwick (Department of Psychology)
- Professor Sheila Francis (Department of Infection, Immunity and Cardiovascular Disease)
- Dr Nigel Hoggard (Department of Infection, Immunity and Cardiovascular Disease)
This project combines atherosclerotic mouse models in Professor Francis’ group with state of the art multi-modal mouse neuroimaging methods that are already developed in Dr Berwick’s group in order to investigate how neurovascular function is altered by cardiovascular disease.
Dr Hoggard provides the expertise and supervision necessary translate findings to pilot human neuroimaging studies involving atherosclerotic patients.
Human neuroimaging biomarkers for cardiovascular disease
PhD Student: Maria Eleni Dounavi
Supervisors:
- Dr Iain Wilkinson (Department of Infection, Immunity and Cardiovascular Disease)
- Dr Chris Martin (Department of Psychology)
- Dr Aneurin Kennerley (Department of Psychology)
The first part of this project involves retrospective human MR data analysis (Professor Wilkinson) to develop a biomarker for vasodilatory functional status of the macro- and micro-vascular networks involved in blood supply and regulation to and within the human brain.
The second part will initiate a comparative animal neuroimaging model study (Dr Martin), applying the same MR imaging techniques (Dr Kennerley).