2. Carotid stenosis measured by
ultrasound
• B-mode imaging of carotid plaques
• Color-coded flow imaging of carotid
stenosis
• Angle corrected Doppler velocimetry of
carotid stenosis
3. B-mode imaging of carotid plaques
• Intima-media
thickness (IMT)
• Fatty streak or
soft plaques
• Small non-
stenotic plaque
4. Plaque description
1. location
2. length
3. Composition – assessed for its;
1. echogenicity (brightness)
2. texture
3. extent
4. edge
4. surface of the lesion: smooth or irregular
5. Composition of carotid plaque
Complicated atherosclerotic
Heterogenous process
neovascularity; calcification;
intraplaque hemorrhage;
Ulceration; Thrombosis
Without acoustic shadowing
Fibro-fatty lesion
Acoustic shadowing(+)
calcification
Anechoic or hypoechoic
regions : hemorrhage, lipid
deposits or necrotic regions
6. Composition of carotid plaque
Homogenous
Purely cellular in nature
No calcification
Significant cholesterol
deposition or hemorrhage
Commonly associated with
intimal hyperplasia
7. Advantages of B-mode grading of the
carotid stenosis
• Quantification of early atherosclerotic changes
• Visualization of plaque structure and extent
• The possibility of ‘on-site’ diameter reduction
measurements
• Disadvantages
– common imaging artifact
• inappropriate gain setting
• shadowing due to calcium deposition and scattering
– Inability to differentiate fresh clot from moving blood
8. Color-coded flow imaging of carotid
stenosis
CDFI alone should not be used
for grading of stenosis
: aliasing with inappropriate
velocity scale setting compared
to angle-corrected velocimetry
Use
• Identify vascular structures
and the tightest residual lumen
• Adjust the Doppler angle for
pulse-wave velocimetry
9. Color-coded flow imaging of carotid
stenosis
Power mode
• Used for same
purpose of CDFI
• display regardless
of flow direction and
velocity value
10. Angle corrected Doppler velocimetry
of carotid stenosis
• The velocity is
inversely proportionate
to the radius of the
residual lumen,
stenosis length, blood
viscosity and
peripheral resistance
• The Peak systolic
velocity (PSV)
Spencer and Reid, 1979
The relationship between arterial
stenosis, flow and velocity
11. Angle corrected Doppler velocimetry
• The Peak systolic
velocity (PSV)
: Mainly a function of
the radius of the
residual lumen, length
of stenosis, and
cardiac output
• Influenced by
various circulatory
conditions
ICA/CCA PSV ratio
12. Angle corrected Doppler velocimetry
• Advantages
– Direct physiologic measurement of flow
acceleration at the stenosis site
– Widespread use
– Availability of validated diagnostic criteria
• Disadvantages
– Operator dependency
– Velocity changes due to cardiac output, bilateral
stenosis, flow volume reduction
– Equipment dependency
13. Color flow
definition of ICA/CCA ratio
the residual
lumen
B-mode
Highest PSV
US finding
grading
of carotid
stenosis
14. Tabulated duplex US criteria used to quantify ICA stenosis according to
NASCET angiographic grades.
15.
16. Society of Radiologists in Ultrasound consensus criteria for
carotid stenosis measurements with duplex
19. Working Group Recommendations
(a) peak systolic velocity in the ICA (ICA-PSV)
(b) peak systolic ICA to peak systolic CCA ratio or
Peak Systolic Velocity Ratio (PSVR)
(c) peak systolic ICA to end-diastolic CCA ratio= St.
Mary’s Ratio