Photoacoustic Imaging of Atherosclerotic Plaques

Study Description

Brief Summary

Stroke is a major cause of death and disability worldwide. Stenotic carotid arteries can lead to stroke if the cause of the stenosis is a vulnerable atherosclerotic plaque. Recent studies reveal that if a patient has a plaque in the carotid artery it is highly probable that he/she will develop plaques in other superficial arteries like the femoral artery. Currently, duplex ultrasound is used to determine the grade of stenosis and is the main criterion for intervention (endarterectomy) planning. However, the stability, or instability of the plaque cannot be determined non-invasively. Photoacoustics is a novel, non-invasive imaging modality that uses pulsed laser light to generate laser induced ultrasound in the absorbing region of the tissue. Photoacoustic imaging provides optical contrast of biological tissue chromophores with an acoustic resolution and imaging depth, which is promising for visualization of plaque composition. The advantage of photoacoustics is the use of multiple wavelengths, since different tissues respond differently to different wavelengths. Hence, non-invasive, in vivo, morphology assessment is a future application of this new modality that would improve diagnosis and clinical decision making. The drawback is the limited penetration depth of the laser light and the signals generated by surrounding tissue.

A new, integrated photoacoustic device has been developed that meets all safety requirements and has an improved penetration depth, suitable for imaging of carotid arteries with the aim to distinguish between plaques with different morphology.

Detailed Description

Objective: The aim of this study is to investigate the feasibility of atherosclerotic plaque imaging using multispectral photoacoustic imaging.

Study design: This is a pilot study where 60 patients with a plaque in one of the carotids, scheduled for an endarterectomy procedure, will be included. Each subject will get a multi-wavelength photoacoustic examination of the carotid plaque. In one group (N = 30), photoacoustic imaging will be performed noninvasively at the TU/e laser lab, which is compliant with laser safety standards, to verify non-invasive, multi-angle, multi-wavelength photoacoustic imaging (Study A). In the second group (N = 30), photoacoustic imaging will be performed pre- and per-operatively (Study B) prior to plaque removal. Here, to ensure a 100% (laser) safe environment, all acquisitions will be performed in the operating theatre. The latter group will be subjected to additional Magnetic Resonance Imaging for validation. After carotid endarterectomie the plaque sample of each patient (Study A and B) will be transported to TU/e for in vitro PA scanning and histology analysis.

Study population: A total of 60 patients with carotid artery disease scheduled for endarterectomy (stenosis grade of > 70% and < 99%).

Intervention (if applicable): endarterectomy (following normal procedure), with an additional photoacoustic image acquisition after incision, before removal of the plaque.

Main study parameters/endpoints: The acoustic (i.e., echographic) and photoacoustic images will be analyzed to determine the ability of distinguishing between different plaque components (intraplaque hemorrhage, lipid pool, vessel wall), examine penetration depth, resolution, and contrast.

Study Design

Outcome Measures

Primary Outcome Measures

1. Assessment of vulnerable plaque [2 year]

   Demonstration of the feasibility of in vivo photoacoustic imaging of atherosclerotic plaques using multi-angle, multi-wavelength photoacoustics.

Eligibility Criteria

Criteria

Inclusion Criteria:

In order to be eligible to participate in this study, a subject must be an adult that is fully competent to give informed consent that has been under surveillance for a plaque in one of the carotid arteries with a stenosis grade between 70 and 99% (based on prior Duplex US examination in the vascular lab) In case of study A, the subject should physically be able to be seated in a chair without moving for 10 to 20 minutes.

Exclusion Criteria:

Minors or incapacitated adults will not be included in the study. Subjects that do not want to participate will also not be included. -

Contacts and Locations

Locations

Sponsors and Collaborators

• Marc van Sambeek
• Eindhoven University of Technology

Investigators

• Principal Investigator: Marc RHM van Sambeek, MD PhD, Catharina Ziekenhuis Eindhoven

Study Documents (Full-Text)

More Information

Publications