Magnetic resonance imaging (MRI) scans provide lots of data on the health of a person’s brain, not all of which is routinely used in clinical practice. This project will continue the development of tools to assess the brain scans of people with stroke.
Development of new magnetic resonance imaging (MRI) techniques to image vessel patterns and blood flow in patients with disease of their vertebral arteries
Co-funded by the Stroke Association, and published in the International Journal of Stroke, research suggests a new tool can better predict what level of memory and thinking (cognitive) problems patients will experience after stroke, than more time consuming methods.
The aim of this research programme is to develop a human brain bank to support biomedical research into the pathophysiology of human SVD that may be used nationally and internationally.
This research project aims to better understand how particular features of the CT scan can be used to make better treatment decisions for patients with ischaemic stroke, and whether we can accurately estimate the time since the stroke began.
The recovery of stroke survivors with language difficulties is famously variable. Some stroke survivors recover much more quickly or fully than others. Some respond to treatment much better than others.
No two strokes are alike - the damage from each stroke leaves its own unique signature on a person's brain and behaviour. The current project will investigate how different types of stroke affect a person's long term recovery or deterioration
Vision problems are common after stroke. This Lectureship will investigate the link between the tasks used in vision rehabilitation and everyday visual activities. It will also use brain scanning to investigate the effects of rehabilitation on activity in the areas of the brain responsible for vision.
Using transcranial magnetic stimulation (TMS) to enable activation of the damaged part of the brain to be more active in the recovery period after a stroke
In this study, we are testing the theory that by treating BP more intensively we will delay progression of the disease. We will also use state-of-the-art MRI imaging techniques to look at the mechanisms by which any beneficial effect of BP occurs.