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Clinical Trial Summary

To determine whether PET-MRI can obtain comparable images to PET-CT in those with coronary artery disease.


Clinical Trial Description

Positron emission tomography (PET) is method of non-invasively imaging a metabolic process. It has been used in clinical medicine for many years with its primary use in identifying areas of increased metabolic activity as possible cancers. It involves the use of a radionuclide (or radiotracer) labelled to a chemical involved in a certain metabolic process. In order for the PET signal from the radiotracer to be detected by the scanner the radionuclide emits a small dose of ionizing radiation. Examples of commonly used radionuclides include 18FDG and 18 Sodium Fluoride (18NaF). In order to locate where exactly these areas of abnormal or increased metabolic activity were, Computerised Tomography (CT) has traditionally been used for anatomical correlation. Until recently PET-CT has largely been confined for use in oncology. More recently however PET-CT has been utilized to detect vulnerable plaques in those with coronary artery disease. In coronary artery disease 18F-fluoride acts as a marker of novel calcification activity within the plaque. Similar to other conditions, calcification in coronary atheroma occurs as a healing response to intense necrotic inflammation, making 18F- fluoride a useful marker of high-risk atherosclerotic plaque. This has been demonstrated in those with stable angina as well as localizing the culprit plaque in those with myocardial infarction in 90% of cases. Magnetic resonance imaging is being increasingly adopted in cardiovascular imaging and holds particular attraction due to its ability to provide information about soft tissue structures both with and without contrast agents, as well as its safety due to absence of exposure to ionising radiation and rapid imaging speed, which is useful in a moving organ like the heart. PET-MR works differently to PET-CT. PET relies on the annihilation of protons with electrons, generating 511 keV photons, which are absorbed in bodily tissues differently depending on their electron density (e.g. heart denser than lungs). Because of this PET images can appear brighter or darker in different tissues. To account for this, a technique of attenuation correction is employed. This is usually in the form of what is called a transmission scan (low intensity CT scan) which grades tissue density and corrects the PET signal accordingly. Given MRI measures proton density and not electron density different attenuation correction techniques are needed. It has not yet been established how best to do this despite multiple efforts using differing techniques. Previous single centre studies have demonstrated the feasibility of MRI-PET. The technique's translation to clinical practice has been limited due to the global lack of reliable attenuation correction methods. During his recent Clinical Research Imaging Fellowship in New York, co-investigator (Dr Dweck) developed a novel free breathing method of attenuation correction in a combined PET-MR scanner that reduced scanning time and improved efficiency and has shown immense promise. In Edinburgh a similar combined PET-MR scanner (mMR, Siemens, Erlangen, Germany) has been installed, but have not yet replicated or validated this technique. If the investigators can demonstrate and apply a method of attenuation correction that is acceptable and shows good comparability of MRI-PET to PET-CT images they may be able to use this imaging method as an alternative to PET-CT. Benefits which may translate clinically include superior soft tissue characterisation and significantly reduced radiation dosages. The technique could be applied across a range of medical conditions in addition to cardiovascular disease and oncology. The investigators are hopeful to establish a suitable attenuation correction method so that PET-MR can match or even supersede PET-CT as an imaging technique providing accurate biological, anatomical and functional information in those with cardiovascular disease with low radiation doses. ;


Study Design


Related Conditions & MeSH terms


NCT number NCT02988531
Study type Interventional
Source University of Edinburgh
Contact
Status Completed
Phase N/A
Start date February 9, 2017
Completion date December 7, 2017

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