21
Journal of Ultrasound (2019) 22:13–25
1 3
cysts may be present. This aspect
is due to the presence of
numerous cysts that are too small to be displayed with probe
resolution [
53
,
54
].
On the color Doppler examination, the malformation is
a slow flow lesion. Vascular signals are generally absent. In
some cases, it is possible to identify arterial vessels confined
in the larger septa. At
the spectral examination, the arte-
rial flows show medium–low velocities and, above all, high
resistance indices (Fig.
17
). This
aspect distinguishes them
from hemangiomas where arterial resistance is low [
14
].
Arteriovenous malformation
Arteriovenous malformations consist of an abnormal net-
work of arterial and venous vessels with scarce or absent
presence of capillaries.
They are high-flow lesions and are often in differen-
tial diagnosis with hemangiomas.
The clinical evolution,
from quiescent lesion to hemorrhage and heart failure, is
described by the Schobinger classification.
1
On ultrasound examination, the arteriovenous malforma-
tions can have a very diversified appearance—from
a con-
glomerate of moderate-sized vessels that determine a lesion
that can be detected in soft tissues [
55
], up to a tangle of
vessels that do not determine a real “mass effect” and are
therefore poorly identifiable at the B-mode exam and can
only be highlighted with the color Doppler exam [
14
]. One
element to consider is the presence
of adipose tissue around
the arteriovenous malformation due to a fibroadipose pro-
liferation [
34
] that may result in a thin hyperechoic rim that
delimits the lesion (Fig.
18
).
At the color Doppler examination, the malformation is a
high flow lesion. There are numerous vessels showing “high
vascular density” with multidirectional flow. The spectral
Doppler analysis shows arterial
vessels with high-velocity
flow and low resistive index (RI) (Fig.
19
). Compared to
hemangiomas, the venous vessels have a higher average
velocity of flow, with an “arterialized” wave for the trans-
mission of the systolic pulse to
the venous bed due to the
lack of the capillary network [
1
,
7
,
14
,
39
] (Fig.
20
).
Dostları ilə paylaş: 
