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Contrast-enhanced Ultrasound (CE-US) and Magnetic Resonance Imaging (MRI): Evaluating Plaque Neovascularisation

Atherosclerosis Clinical Trial

Official title:
Contrast-enhanced Ultrasound and Magnetic Resonance Imaging for the Evaluation of Neovascularisation in Carotid Artery Plaques

Clinical Trial Summary

The first goal of this study is to investigate whether CE-US is able to accurately identify and quantify neovascularisation in carotid artery plaques. Since this is one of the first studies systematically evaluating the ability of ultrasound in combination with air bubbles to evaluate neovascularisation in carotid artery plaques, the examination will be performed twice with an interval of 1/2 hour on the day before surgery, thus studying the reliability of the method.

The second goal of this study is to investigate whether MRI at 3.0 T with a custom-designed 3T carotid coil, using a recently developed pulse sequence, is able to accurately identify and quantify neovascularisation. And the third goal of this study is to make an intermodality comparison of CE-US and MRI regarding their ability to identify and quantify plaque neovascularisation.

Clinical Trial Description

Atherosclerosis is a systemic disease of the large arteries and the leading cause of death in Western society. The development of atherosclerosis involves the accumulation of lipids, cells and extracellular matrix in the blood vessel wall. It is a progressive disease characterized by the formation of a fibrous cap by smooth muscle cell proliferation and migration, and the development of a necrotic/lipid core. This core develops due to the accumulation of lipids and apoptosis of lipid-loaded macrophages. In this process the intima, the innermost layer of the blood vessel, thickens. This will lead to narrowing of the lumen and obstruction of blood flow. The developed lesion of the vessel wall may become vulnerable to rupture of the fibrous cap. Cap rupture exposes the necrotic core to the blood leading to the formation of a thrombus. The thrombus may fully or partially obstruct the lumen and cause cardiovascular complications, such as myocardial infarction or stroke. Although atherosclerosis forms the origin of most cardiovascular diseases, at present much remains unknown of the atherogenic process. Therefore, it is essential that research is done to discover novel mechanisms of atherosclerotic development. Intimal neovascularisation has recently drawn much attention as a novel factor, likely contributing to atherosclerotic plaque growth and rupture. Neovascularisation occurs when the intima thickens and is associated with stenosis, plaque inflammation and hemorrhage. Because increased amount of neovascularisation may be associated with increased risk for stroke, it would be highly desirable to identify plaque neovascularisation by noninvasive imaging. At present, imaging of neovascular development in atherosclerotic lesions with conventional ultrasound is not feasible, since the vessel diameter is well below the resolution capacity of currently available ultrasound systems. Since almost a decennium, contrast-enhanced ultrasound (CE-US) with gaseous ultrasound contrast agents has been used for research purposes but is now also widely commercially available and registered for clinical use, which can be done safely. With the help of such a gaseous contrast medium containing air bubbles smaller than erythrocytes (microbubbles) it might be possible to depict neovascularisation in a carotid artery plaque, due to the strong signal that will be evoked even by a small number of air bubbles as compared to the signal from the surrounding tissue. So, the intensity increase of the ultrasound signal from the carotid artery plaque after administration of microbubbles might reflect the amount of neovascularisation. Until now, only case reports concerning this technique have been published, especially no comparison with histology has been performed. So, the first goal of this study is to investigate whether CE-US is able to accurately identify and quantify neovascularisation in carotid artery plaques. Since this is one of the first studies systematically evaluating the ability of ultrasound in combination with air bubbles to evaluate neovascularisation in carotid artery plaques, the examination will be performed twice with an interval of 1/2 hour on the day before surgery, thus studying the reliability of the method. Magnetic resonance imaging (MRI) is well suited for evaluating carotid plaques; it is widely available, provides excellent soft tissue contrast, multiplanar imaging capability, and is free of ionising radiation. Multisequence MRI has shown to be able to detect different carotid plaque components in vivo. However, only very little experience exists in identifying neovascularisation by MRI. Also, newer MRI systems (>1.5 T), newer coil systems, and better pulse sequences have recently become available. Therefore, the second goal of this study is to investigate whether MRI at 3.0 T with a custom-designed 3T carotid coil, using a recently developed pulse sequence, is able to accurately identify and quantify neovascularisation. Finally, the third goal of this study is to make an intermodality comparison of CE-US and MRI regarding their ability to identify and quantify plaque neovascularisation. ;

Study Design

Intervention Model: Single Group Assignment, Masking: Open Label, Primary Purpose: Diagnostic

Related Conditions & MeSH terms

Clinical Trial Details
NCT number NCT00677963
Study type Interventional
Source Maastricht University Medical Center
Contact
Status Completed
Phase N/A
Start date June 2009
Completion date April 2010
View Details
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