Abdominopelvic ultrasound
Bahnassy
1,294 views
137 slides
Mar 06, 2018
Slide 1 of 137
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
50
51
52
53
54
55
56
57
58
59
60
61
62
63
64
65
66
67
68
69
70
71
72
73
74
75
76
77
78
79
80
81
82
83
84
85
86
87
88
89
90
91
92
93
94
95
96
97
98
99
100
101
102
103
104
105
106
107
108
109
110
111
112
113
114
115
116
117
118
119
120
121
122
123
124
125
126
127
128
129
130
131
132
133
134
135
136
137
About This Presentation
basics of routine abdominopelvic ultrasound.
main pathologies to be diagnosed.
Slide Content
Abdominopelvic ultrasound
The essentials
Dr/Ahmed Bahnassy
consultant Radiologist
MBCHB-MSc-FRCR(UK)
The essentials
Dr/Ahmed Bahnassy
consultant Radiologist
MBCHB-MSc-FRCR(UK)
aim of the lecture
•Build a systematic and
rationale approach to routine
abdominopelvic ultrasound
examination,within reasonable
time frame,and without major
missings or avoidable errors.
•Build a systematic and
rationale approach to routine
abdominopelvic ultrasound
examination,within reasonable
time frame,and without major
missings or avoidable errors.
Scanning
technique
technique
1.Abdominal aorta
The normal aorta
Aortic displacement
Aortic dilatation
Abdominal aortic aneurysm
Aortic dissection
Aortic narrowing
Aortitis
2-The inferior vena cava
The normal IVC
Dilatation
Displacement
IVC masses
3.The liver
Scanning technique
Couinaud classification
•Used to describe functional liver anatomy.
•It is preferred over morphological liver
anatomy since it allows the division of the
liver into 8 independent functional units.
•Used to describe functional liver anatomy.
•It is preferred over morphological liver
anatomy since it allows the division of the
liver into 8 independent functional units.
•The separation of the units is based on the
fact that each has its own vascular inflow,
outflow and biliary drainage.
fact that each has its own vascular inflow,
outflow and biliary drainage.
•The classification system uses the vascular supply in the
liver to separate the functional units (numbered I to VIII):
–right hepatic vein divides the right lobe into anterior and
posterior segments
–middle hepatic vein divides the liver into right and left lobes:
this plane runs from the inferior vena cava to the gallbladder
fossa
–left hepatic vein divides the left lobe into a medial and lateral
part
–portal vein divides the liver into upper and lower segments: the
left and right portal veins branch superiorly and inferiorly to
project into the central of each segment
liver to separate the functional units (numbered I to VIII):
–right hepatic vein divides the right lobe into anterior and
posterior segments
–middle hepatic vein divides the liver into right and left lobes:
this plane runs from the inferior vena cava to the gallbladder
fossa
–left hepatic vein divides the left lobe into a medial and lateral
part
–portal vein divides the liver into upper and lower segments: the
left and right portal veins branch superiorly and inferiorly to
project into the central of each segment
Anatomic liver segments
caudate lobe
Segment I
Lateral segment left
lobe superior
Segment II
Lateral segment left
lobe inferior
Segment
III
Medial segment left
lobe
Segment
IV
Anterior segment right
lobe inferior
Segment V
Posterior segment right
lobe inferior
Segment
VI
Posterior segment right
lobe superior
Segment
VII
Anterior segment right
lobe superior
Segment
VIII
caudate lobe
Segment I
Lateral segment left
lobe superior
Segment II
Lateral segment left
lobe inferior
Segment
III
Medial segment left
lobe
Segment
IV
Anterior segment right
lobe inferior
Segment V
Posterior segment right
lobe inferior
Segment
VI
Posterior segment right
lobe superior
Segment
VII
Anterior segment right
lobe superior
Segment
VIII
–unit I is the caudate lobe and is situated
posteriorly.
•The remainder of the units (II to VIII) are
numbered in a clockwise fashion.
–units II and III lie lateral to the falciform
ligament with II superior to the portal venous
supply and III inferior.
–unit IV lies medial to the falciform ligament
and is subdivided into IVa (superior) and IVb
(inferior).
posteriorly.
•The remainder of the units (II to VIII) are
numbered in a clockwise fashion.
–units II and III lie lateral to the falciform
ligament with II superior to the portal venous
supply and III inferior.
–unit IV lies medial to the falciform ligament
and is subdivided into IVa (superior) and IVb
(inferior).
•Units V to VIII make up the right hemiliver.
–unit V is the most medial and inferior.
–unit VI is located more posteriorly, with
–unit VII above it.
–unit VIII sits above unit V in the superio-
medial position.
–unit V is the most medial and inferior.
–unit VI is located more posteriorly, with
–unit VII above it.
–unit VIII sits above unit V in the superio-
medial position.
The enlarged liver-homogeneous
Look upwards
Look on each side
Normal hepatic veins doppler
tetrainflectional wave
Diagram illustrates normal hepatic venous flow direction and waveform. The direction of normal flow is
predominantly antegrade, which corresponds to a waveform that is mostly below the baseline at spectral
Doppler US. The term triphasic, which refers to the a, S, and D inflection points, is commonly used to
describe the shape of this waveform; according to D.A.M., however, this term is a misnomer, and the
term tetrainflectional is more accurate, since it includes the v
Diagram illustrates normal hepatic venous flow direction and waveform. The direction of normal flow is
predominantly antegrade, which corresponds to a waveform that is mostly below the baseline at spectral
Doppler US. The term triphasic, which refers to the a, S, and D inflection points, is commonly used to
describe the shape of this waveform; according to D.A.M., however, this term is a misnomer, and the
term tetrainflectional is more accurate, since it includes the v
Tricuspid regurge
Spectral Doppler image clearly shows increased pulsatility. Careful observation shows a pattern that is specific to
right-sided CHF without tricuspid regurgitation. The a wave is very tall, and the normal relationship between the S and
D waves is maintained (S [systole] is deeper than D [diastole]).
Right-sided CHF without tricuspid regurgitation.
right-sided CHF without tricuspid regurgitation. The a wave is very tall, and the normal relationship between the S and
D waves is maintained (S [systole] is deeper than D [diastole]).
Right-sided CHF without tricuspid regurgitation.
cirrhosis
Decreased hepatic venous phasicity. Diagrams illustrate varying
degrees of severity of decreased phasicity in the hepatic vein.
Farrant and Meire first described a subjective scale for
quantifying abnormally decreased phasicity in the hepatic veins,
a finding that is most commonly seen in cirrhosis.
Decreased hepatic venous phasicity. Diagrams illustrate varying
degrees of severity of decreased phasicity in the hepatic vein.
Farrant and Meire first described a subjective scale for
quantifying abnormally decreased phasicity in the hepatic veins,
a finding that is most commonly seen in cirrhosis.
Periportal brightness
enlarged liver with masses
metastasis
Lymphoma
The small liver
Focal lesions
Liver cysts
Haemorrhagic cyst
Hydatid cysts
Infected cyst
Calcified cysts
Multiple liver masses
Single solid liver mass
Liver
abscesses
patterns
abscesses
patterns
Liver abscess
Subphrenic abscess
Looking for pleural involvement
Liver trauma
4-gall bladder and biliary tract
Normal
full/contracted
The normal CBD
Non visualized gall bladder
Distended gall bladder
Gall stones
Mobile echoes
Non mobile echoes
Thick gall bladder wall-diffuse
Wall abnormality
Focal thickening
GB cancer
Small GB
Jaundiced patient
Dilated ducts
Cholangiocarcinoma
GB in jaundice
Mildly dilated ducts
Clonorhiasis
5-The pancreas
Normal pancreas
Decubitus
erect after water
Normal pancreatic size
Small pancreas
Diffuse large pancreas
Focal enlarged non cystic
Focal cystic masses
calcifications
Pancreatic duct dilatation
6-The spleen
Normal spleen
Normal scan
Splenomegaly
Splenic cysts
splenic abscess
splenic vein evaluation
splenic masses
Subphrenic abscess
Splenic trauma
Pitfalls
7-peritoneal cavity and GIT
The esophagus
The stomach
The bowel
Ascitis
Bowel masses
abdominal masses
Appendicitis
Intussusception
8-Urinary tract
probe orientation
Normal kidney
The adrenal
Renal
differential
differential
Absent kidney
Large kidney-uni or bilateral
unilateral
focal lesions
Surgical cysts
solid mass
Abscess versus mass
Small kidney
Renal calculi
ureteric stone
Renal trauma
Adrenal mass
9-The urinary bladder
ureteric jet
Generalized thickening
Localized thickening
Density within
Overdistended bladder
Small bladder
Categories
TechnologyDownload
Download Slideshow Get the original presentation fileQuick Actions
Statistics
- Views 1,294
- Slides 137
- Favorites 31
- Age 2828 days
Related Slideshows
11
8-top-ai-courses-for-customer-support-representatives-in-2025.pptx
JeroenErne2
44 views
10
7-essential-ai-courses-for-call-center-supervisors-in-2025.pptx
JeroenErne2
45 views
13
25-essential-ai-courses-for-user-support-specialists-in-2025.pptx
JeroenErne2
36 views
11
8-essential-ai-courses-for-insurance-customer-service-representatives-in-2025.pptx
JeroenErne2
33 views
21
Know for Certain
DaveSinNM
19 views
17
PPT OPD LES 3ertt4t4tqqqe23e3e3rq2qq232.pptx
novasedanayoga46
23 views