Cardiac Imaging.

Our mission is to achieve more accurate diagnosis and better understand heart function through cutting-edge imaging technology

and use this to help predict treatment outcomes.

We study the basic physiological processes associated with cardiovascular diseases and create images to faithfully reflect these, allowing us to address major neurological and cardiovascular disorders.

What impact will this research have?

By using imaging techniques to better understanding cardiac disease, we hope to improve the accuracy and ease of diagnosis and use this knowledge to improve patient care. As Cardiac Imaging Group Leader, Professor Stuart Grieve says: “we’re aiming to make very sensitive and specific tests that can help with clinical decision making.”

Current projects and goals

Several cardiac conditions are of interest to the group, including the looming epidemic of diabetes-related diastolic heart failure.

4D-flow MRI

Generally, heart failure is only clinically apparent once the disease process is advanced, leaving the clinician with limited treatment options. A major focus of the group is the development of 4-dimensional flow magnetic resonance imaging (4D-flow MRI), a unique form of MRI that measures the fluid dynamics within the heart and vessels in a quick and non-invasive way. Recent advances in technology have made 4D-flow more feasible with the science is on the cusp of great change. “This technology is set to revolutionise not just cardiac imaging, but the daily practice of cardiology. The information that will be possible is far superior to anything that is currently available,” says Professor Grieve.

Aortic 4D & Computational Fluid Dynamics (CFD)

This project involves developing new translational image-based methods for better diagnosis and prognostication of aortic pathology. The aim is to provide new insights and update current approaches to aortic aneurysm; to generate clinically-practical approaches that influence current practice and improve healthcare outcomes for patients with aortic disease; and to generate and implement commercially viable models for these approaches.

Cardiac 4D & Computational Fluid Dynamics (CFD)

This project involves the development of novel translational image-based methods for diagnosis and prognostication of heart failure. Using an exciting new approach based on CFD analysis of 4D flow and cardiac dynamic MRI data, we hope to provide new insights to update the current approaches in the diagnosis and treatment of heart failure and generate clinically practical approaches. This has the potential to inform changes in current clinical practice and to therefore improve healthcare outcomes for patients with aortic heart failure.

Professor Stuart Grieve
Research group led by:
Research covers areas of:
Latest news

Healthy Whole Foods Easter Menu

One of the wonderful things about holidays and special celebrations is the food! There’s no need to get off track with your healthy habits just because it’s a long weekend. With an unusual abundance of chocolate about, we think it pays to whip up a healthy dinner party for your weekend entertaining rather than spending next week in a food coma because you overdid it. Here’s a nutritious, delicious, bursting with flavour Easter menu that consists of whole, fresh, unprocessed foods that  doesn’t overdo it on the calories. 

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