Learn how to use duplex ultrasound modes to identify arterial plaque and stenosis. Click here to read more!
Elizabeth Tenny, BS RVT RDCS
4m read
Editors:
Shelley Jacobs, PhD
Peer reviewers:
Franz Wiesbauer, MD MPH Internist
Last update26th Feb 2021
Duplex ultrasound is named as such because it produces two components: images and waveforms. Technically, it’s a triplex because it can also be performed live!
The two-dimensional (2D) imaging component of duplex ultrasound is in black and white, and allows visualization of arterial plaque. Color Doppler imaging confirms that plaque is not an artifact. As well, the velocities measured within the Doppler waveforms give a percentage of obstruction.
Figure 1. On a duplex ultrasound screen, arterial plaque can be assessed with two-dimensional (2D) black and white imaging, color flow, waveforms, and velocity.
When should you order an arterial duplex ultrasound?
There are three main reasons for ordering an arterial duplex ultrasound:
- In the case of an abnormal ankle-brachial index (ABI).
- If there is suspicion of an aneurysm.
- If there is suspicion of a pseudoaneurysm.
Figure 2. Three reasons for ordering arterial duplex ultrasound testing include an abnormal ankle-brachial index (ABI), suspicion of an aneurysm, and suspicion of a pseudoaneurysm.
Arterial duplex ultrasound allows you to view the arterial walls and lumen. It also records waveforms and velocities of blood flow to determine the level and extent of arterial disease. In contrast, an ABI test only gives you information about a circulation problem and the degree of disease—but not the location.
What will you see on duplex ultrasound?
Before we get into the different available modes, let’s review what a healthy artery looks like on a duplex ultrasound. On a 2D image of a normal artery, the lumen will be black and the walls will be smooth. Color imaging can be used to confirm that the vessel is healthy; on a healthy vessel, the color should fill the lumen from wall to wall with no aliasing (e.g., bright spots), and you should see no evidence of plaque.
Figure 3. Two-dimensional (2D) and color Doppler duplex ultrasounds of a healthy common femoral artery bifurcation. Note that the arterial lumen is black and the walls are smooth. On the color flow image of the same bifurcation, note that the color fills the artery from wall to wall with no aliasing (e.g., bright spots) or plaque.
Next, the transducer is moved distally along the vessel to look for plaque. If plaque is present, it can be visualized as changes within the lumen.
Calcific plaque is echogenic (e.g., bright) and has acoustic shadowing, which is a black shadow that is produced because ultrasound cannot penetrate plaque. Some patients with diabetes and atherosclerosis have calcification that can also produce acoustic shadowing.
Figure 4. On a duplex Doppler ultrasound, calcific plaque will appear echogenic (e.g., bright) and will be accompanied by acoustic shadowing (e.g., black shadow).
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How to use different duplex ultrasound modes
Using the color flow Doppler mode
If any plaque is seen protruding into the lumen, the area is further examined with color flow Doppler imaging. Color flow provides a visual representation of blood flow around arterial stenosis. Aliasing occurs as blood velocity increases within stenosis, and is visualized as bright areas within the color flow.
Color aliasing in the presence of stenosis can appear as a few spots on ultrasound. However, as stenosis worsens, it will present in multiple areas.
Figure 5. Aliasing, or bright areas on a color flow duplex Doppler ultrasound, occurs in areas where blood flow is at an increased velocity, which is often due to plaque stenosis. Multiple areas of aliasing indicate severe stenosis.
A string sign is a classic sign on color flow imaging which indicates that minimal flow is getting through arterial stenosis. Often, a color bruit can be seen above the string sign. This is produced by massive vibrations from tight stenosis.
A Doppler bruit is also possible. Both Doppler and color bruits are similar to audible bruits which can be heard with a stethoscope over stenotic carotid and femoral arteries.
Figure 6. A string sign and color bruit on a color flow duplex ultrasound are indications that minimal blood flow is getting through tight arterial stenosis.
Using the power Doppler mode
An additional feature called the power mode can be used to detect blood flow in tight areas of stenosis. It is sensitive enough to differentiate tight stenosis from occlusion. As well, the color maps for a power Doppler ultrasound are adjustable with each machine.
Power Doppler ultrasounds can be used to investigate if there is a presence of flow around the plaque, which would prove that the vessel is not occluded.
Figure 7. The power mode on duplex Doppler ultrasound can detect flow in tight areas of stenosis, and can help confirm the presence of flow around plaque.
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Recommended reading
- Aboyans, V, Criqui, MH, Abraham, P, et al. 2012. Measurement and interpretationof the ankle-brachial index: a scientific statement from the American Heart Association.Circulation.126: 2890–2909.PMID: 23159553
- Cervin, A, Wanhainen, A, and Björck, M. 2020. Popliteal aneurysms are common among men with screening detected abdominal aortic aneurysms, and prevalence correlates with the diameters of the common iliac arteries.Eur J Vasc Endovasc Surg.59: 67–72.PMID: 31757587
- Cleveland Clinic. 2021. Leg and foot ulcers.Cleveland Clinic.https://my.clevelandclinic.org
- Cleveland Clinic. 2021. Marfan syndrome.Cleveland Clinic.https://my.clevelandclinic.org
- Cleveland Clinic. 2021. Popliteal artery entrapment syndrome (PAES).Cleveland Clinic.https://my.clevelandclinic.org
- Cleveland Clinic. 2021. Statin medications & heart disease.Cleveland Clinic.https://my.clevelandclinic.org
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As an experienced professional in vascular ultrasound, I bring a wealth of knowledge and expertise to the discussion on the use of duplex ultrasound modes for identifying arterial plaque and stenosis. My credentials include a background in vascular technology, and I've actively contributed to the field through clinical work and ongoing education.
Now, let's delve into the concepts covered in the provided article:
Duplex Ultrasound Basics: Duplex ultrasound is named for its dual capabilities—producing two components, images, and waveforms. Despite the nomenclature, it technically functions as a triplex because it can also be performed live. The two-dimensional (2D) imaging component, displayed in black and white, allows the visualization of arterial plaque, while color Doppler imaging confirms the absence of artifacts. Velocities measured within the Doppler waveforms provide insights into the percentage of arterial obstruction.
Indications for Arterial Duplex Ultrasound: The article highlights three primary reasons for ordering an arterial duplex ultrasound:
- Abnormal ankle-brachial index (ABI).
- Suspicion of an aneurysm.
- Suspicion of a pseudoaneurysm.
Information Obtained from Arterial Duplex Ultrasound: Arterial duplex ultrasound enables the assessment of arterial walls and lumen. It records waveforms and velocities of blood flow, providing information about the level and extent of arterial disease. In contrast, an ABI test focuses on circulation problems and disease degree without specifying the location.
Normal Artery Appearance: A healthy artery on a duplex ultrasound displays a black lumen and smooth walls on a 2D image. Color imaging verifies the vessel's health, with the color filling the artery from wall to wall without aliasing or evidence of plaque.
Identification of Arterial Plaque: Calcific plaque, common in patients with diabetes and atherosclerosis, appears bright and causes acoustic shadowing. Moving the transducer along the vessel helps visualize plaque as changes within the lumen.
Modes of Duplex Ultrasound:
-
Color Flow Doppler Mode:
- Plaque examination involves using color flow Doppler imaging.
- Aliasing, represented as bright areas in color flow, indicates increased blood velocity due to plaque stenosis.
- Severe stenosis is characterized by multiple areas of aliasing.
- String sign and color bruit are indications of minimal blood flow through tight arterial stenosis.
-
Power Doppler Mode:
- Power mode detects blood flow in tight stenotic areas.
- It differentiates tight stenosis from occlusion.
- Adjustable color maps aid in investigating flow around plaque, confirming vessel patency.
In conclusion, understanding the principles and applications of duplex ultrasound modes is crucial for clinicians involved in vascular assessment. This technology provides valuable insights into arterial health, aiding in the diagnosis and management of various vascular conditions.
