Cross Sectional FINAL REVIEW PDF

Summary

This document reviews the abdominal vascular system, focusing on the blood vessel layers, abdominal arteries, including the celiac trunk, superior mesenteric artery, renal arteries, and gonadal artery, abdominal veins, including the inferior vena cava, hepatic veins, renal veins, and gonadal veins, as well as the portal venous system and blood flow patterns. It details structures like the diaphragm, pancreas, and liver.

Full Transcript

WEEK 1 REVIEW

LECTURE 1: ABDOMINAL VASCULATURE

3 layers of a blood vessel

- Tunica adventitia: outermost layer of the vessel that encapsulates the blood

vessel in a thin fibrous wall

‣ Vasa vasorum: the tiny veins and arteries that supply the greater blood

vessel itself (necessary for muscle)

‣ Nerves

- Tunica media: middle, “meaty” layer of the vessel

‣ External elastic membrane: outer layer of the tunica media

‣ Smooth muscle: inner layer and composes most of the tunica media

- Tunica intima: innermost layer of the vessel

‣ Internal elastic membrane: outer layer of the tunica intima

‣ Lamina propria: middle layer of smooth muscle and connective tissue

‣ Basement membrane: additional middle layer of the tunica intima

‣ Endothelium: inner layer of of the tunica intima and the overall

innermost layer of the greater blood vessel
to psoas major
Abdominal arteries anterior lateral to the
muscle, LT
-
spine
- The abdominal aorta (AO)

‣ Located in the retroperitoneal cavity anterior and left of the IVC and

spine
 ‣ Originates from the left ventricle of the heart

‣ Posterior to the diaphragm

✴ The diaphragm divides the AO into the descending thoracic AO and

descending abdominal AO

‣ Bifurcates (aka splits) at the umbilicus into the right and left iliac arteries

‣ Normally ≤ 3 cm and tapers into a narrower diameter as it descends

✴ Normal iliac arteries are ≤ 1 cm

- Branches of the AO arch (located in the thoracic cavity, not in the

abdomen)

‣ 1st branch: Right innominate artery/Brachiocephalic trunk

‣ 2nd branch: Left common carotid artery (CCA)
123
‣ 3rd branch: Left subclavian artery

- Branches of the abdominal AO

‣ Celiac trunk: the 1st branch of the abdominal AO

✴ Originates from the anterior AO 1 - 3 cm below the diaphragm

✴ Separates the proximal and distal abdominal AO

✴ 3 branches:

Common hepatic artery (CHA): right side of the celiac trunk

(aka right side of the seagull sign)

✓ Borders the superior surface of the pancreas head (aka vessel

runs parallel and on top of the pancreas towards the liver)
 ✓ Low resistance Doppler waveform

✓ Branches:

➡ Gastroduodenal artery

➡ Right gastric artery

➡ Proper hepatic artery (further divided into…)

★ Right and left hepatic arteries

★ Cystic artery (technically a branch of the right hepatic

artery)

Splenic artery (SA): left side of the celiac trunk (aka left side of

the seagull sign) * 4-6 mm in diameter !

✓ Tortuous in nature (twisted) with numerous branches

✓ Borders the superior surface of the pancreas body and tail (aka

vessel runs parallel to and on top of the pancreas towards the

spleen)

✓ Low resistance Doppler waveform

Left gastric artery: limited visualization with ultrasound due to its

very small size
celiac
before
artem
teaching and
into

CHA
,

LT gastric ,

SA
-
Normally 7 mm in diameter

Low resistance Doppler waveform in the trunk and branches

✴ Objective: supplies blood to the stomach, liver, spleen, and small

intestine
 CHA = liver

SA = spleen

Left gastric = stomach and small intestines

‣ Superior mesenteric artery: the 2nd branch of the abdominal AO

✴ Originates from the anterior AO 1 - 2 cm below the celiac trunk

✴ Runs parallel to the anterior AO (aka vertical) and posterior to the

pancreas

✴ Normally 6 mm in diameter

✴ Doppler waveform depends on fasting state

Fasting = high resistance = vessels constricted to decrease blood

flow

Non-fasting = low resistance = vessels dilated to increase blood

flow

✴ Objective: supplies blood to the small intestine, cecum, and ascending

and transverse colon

‣ Right and left renal arteries: the branches of the abdominal AO that

supply the kidneys respectively

✴ Vessels originate from the lateral walls of the AO respectively just

below the SMA
 Right vessel is longer than the left due to proximity to the right

kidney from the AO and the fact that it has to travel around the

IVC

✴ Right renal artery is often seen superior to the IVC

✴ Left renal artery is more superior than the right

This is because the liver, which is very large in size, is on the right

side of the body and forces the right kidney to be in a more inferior

position than the left

✴ Normally 4 - 5 mm in diameter

✴ Branches into 4 or 5 smaller arteries prior to reaching the hilum of the

kidney

✴ Low resistance Doppler waveform

Vessels are always dilated because they always require blood

✴ Objective: supplies blood to each kidney respectively

‣ Gonadal arteries: the branches of the abdominal AO that supply the

reproductive organs

✴ Difficult to visualize with ultrasound due to small size

✴ Arise from the anterior lateral aspect of the AO, inferior to the renal

arteries following the psoas muscle

‣ Inferior mesenteric artery: the last branch of the abdominal AO before

it bifurcates into the right and left iliac arteries
 ✴ Originates from the anterior lateral side of the AO, 4 cm away from

the bifurcation (aka somewhere between the renal vessels and the iliac

bifurcation)

✴ Limited visualization on ultrasound due to small size

✴ Normally 3 mm in diameter

✴ High resistance Doppler waveform

✴ Objective: supplies blood to the descending colon, sigmoid colon, and

rectum

Diaphragmatic crus: a dome-shaped muscular structure that crosses the
&TCrusSeei
a
trV

& RTCVs ea.

&.
midline posterior to the IVC and anterior to the AO

- Often mistaken for the right renal artery (RRA)!

‣ The RRA is anterior to the right crus
diameter : 11 5 cm
Normal
Abdominal veins.

e
- Inferior vena cava (IVC):

‣ Located in the retroperitoneal cavity anterior to the spine, posterior to the

intestines and the caudate lobe of the liver, and to the right of the AO

‣ Passes through the diaphragm and terminates in the right atrium of the

heart

‣ Formed by convergence of the common iliac veins

‣ Branches of the abdominal IVC:

✴ Hepatic veins: the 1st branches of the IVC from the heart
 Located just superior to the renal veins

Hepatofugal flow: blood moves away from the liver

✓ Hepatopedal flow: blood moves towards the liver

3 branches:
M RT
LT
✓ Right branch: drains the right lobe of the liver and divides the

right lobe into anterior and posterior portions
and
right
✓ Middle/intermediate branch: drains the caudate lobe of the liver

and divides the caudate lobe into right and left portions

✓ Left branch: drains the left lobe of the liver and divides the left

lobe into medial and lateral segments

Normally 4 - 7 mm in diameter

✓ Increases in diameter as vessels get closer to the IVC

Pulsatile Doppler waveforms

Objective: empty blood from the liver into the IVC

✴ Renal veins: the 2nd branches of the IVC from the heart

Located just inferior to the renal arteries, with the LRV being

longer than the RRV due to proximity

✓ The LRV is seen anterior to the abdominal AO

LRV receives blood from gonadal veins and suprarenal veins

before terminating into the IVC

Normally 4 - 6 mm in diameter
 found
only
arteries
- in
No pulsatility in Doppler waveforms

Objective: drain deoxygenated blood from the kidneys back into

the IVC

✴ Superior mesenteric vein (SMV): joins the splenic vein to form the

PV

Drains the proximal portion of the large intestine and portions of

the small intestine

Blood flows towards the head posterior to the pancreas neck and

anterior to the uncinate process

✴ Splenic vein (SV): joins with the SMV to form the PV

Runs along the posterior border of the pancreas

Does not drain directly into the IVC

✓ Joins with the inferior mesenteric vein (IMV) first before

joining the SMV to form the PV

Normally 4 - 6 mm in diameter

✴ Gonadal veins: the next branches of the abdominal IVC after the

renal veins

Right gonadal vein: located lateral and inferior to the RRV and

drains directly into the IVC

Left gonadal vein: technically a branch of the LRV, it doesn’t

drain directly into the IVC
 ✴ Common iliac veins: the lowest branches of the abdominal IVC that

splits

- The portal venous system

‣ Portal veins wear pajamas!

✴ Appear on a 2D image with hyperechoic borders, which is how we are

able to distinguish them from hepatic veins!

‣ Main portal vein (MPV or PV): originates from the junction of the

SMV and SV, posterior to the pancreas and just to the right of the midline

✴ Bifurcates at the porta hepatis into right and left portal veins

✴ Normally < 13 mm in diameter & portal triad =
proper hepatic
Common
art.

bile duct
+ PV +

‣ Right portal vein (RPV): runs centrally and horizontally in the right

lobe of the liver

✴ Bifurcates into anterior and posterior branches that divide the right

lobe of the liver into anterior and posterior segments

✴ Larger than the left portal vein

‣ Left portal vein (LPV): runs in the left lobe of the liver

✴ Branches divide the left lobe of the liver into medial and lateral

segments
RT 6 mm, must R/O appendicitis

✴ Sonographic appearance of the appendix

SAG = finger-like projection

TRV = bullseye
 burearea
sac
lesser

liver

lesser
entum

stomach pancreas

duodenum

transverse
color

greatertum
 supracolic
transverse compartment
color

descending
color

ascending
colon
infracolic
compartment
LT paracolic
gutter
RT paracolic
gutter
 fimbrial
utems
ovary
anterior
cul-de-sac
rectum

urinary
bladder
posterior
cul-de-sac
public is
symphys
vaginalal
space a o

anus

wrethra