Trials / Completed

CompletedNCT06718465

Integrated Informatics-imaging Approaches to Cardiovascular Disease.

Development of Combined Imaging and Informatics Based Approaches to Understanding Cardiovascular Disease.

Summary

Hardening of the arteries (atherosclerosis) is a common disorder that causes heart attacks. In the United Kingdom heart attacks are the commonest cause of death. Combined positron emission tomography (PET) and computer tomography (CT) scans are a new way of assessing atherosclerosis. Using the radiotracer 18F-Fluoride, this study proposes to perform combined PET CT scans on post-mortem hearts from participants with or without a history of heart disease. It will then be able to compare the hot spots found on these scans with what investigators can see under the microscope when looking at heart artery specimens, assess which genes are switched on and proteins present in the hot spots. This will give us an insight into what hot spots on PET CT scans are identifying in areas of atherosclerosis. It will also provide new information relating to the underlying processes that give rise to atherosclerosis and the development of heart attacks. This will pave the way for the future development of new treatments.

Detailed description

Hardening of the arteries (atherosclerosis) is a very common health problem that can lead to fatal or disabling heart attacks or strokes. On many levels, it remains an incompletely understood illness. Until relatively recently, the only way of assessing the severity of, or risk posed by, atherosclerosis was to measure the degree to which it narrowed a particular blood vessel. This method only tells part of the story; investigators now know that frequently the 'culprit area' of atherosclerosis that causes a heart attack or stroke doesn't necessarily result in narrowing of the blood vessel i.e. if investigators only measure narrowness they will miss lots of 'bad' atherosclerosis. Combined PET CT scans not only provide more information about the composition and architecture of the atherosclerosis but can provide data about the processes (at the chemical and cellular level) that underlie the disease. Hardened arteries with areas of early calcification (deposits of calcium) are usually the culprits that lead to heart attacks. Early calcification can be detected using 18F-Fluoride PET CT scans. It has previously been described by the Chief Investigator and colleagues that hot spots on 18F-Fluoride PET CT scans are associated with rupture of hardened arteries in stroke patients. The aim of this study is to explore whether hot spots on 18F-Fluoride PET CT scans are identifying early calcification in heart arteries and to use 18F-Fluoride PET CT imaging to gain a deeper insight into the progression of atherosclerosis. It is not feasible to perform detailed examinations of heart arteries in living patients. For this reason post-mortem examination of heart arteries offers a valuable opportunity to correlate PET CT scan findings with biological processes in order to get an understanding of what 'hot spots' on PET/CT scans are actually representing at the tissue level. This study proposes to explore the biological processes in heart arteries identified with 18F-Fluoride PET CT imaging. Post-mortem hearts of patients both with and without a history of heart disease will be scanned to be able to define what is going on at the gene expression and protein level in the areas of 'hot spots' on CT PET scans.

Conditions

• Atherosclerosis
• Myocardial Infarction
• Sudden Cardiac Death

Timeline

Start date

2016-11-09

Primary completion

2020-11-09

Completion

2020-11-09

First posted

2024-12-05

Last updated

2024-12-05

Source: ClinicalTrials.gov record NCT06718465. Inclusion in this directory is not an endorsement.