Vascular Anatomy Chapter 4 PDF

Summary

This document is a chapter on vascular anatomy, focusing on the upper extremity veins. It includes diagrams and memory tricks to aid in understanding the anatomy and flow of blood. The document is part of a larger medical textbook.

Full Transcript

Chapter 4
Vascular Anatomy

Ann Marie Kupinski
Upper Extremity Arm Vein Diagram

Just like in the lower extremity, upper
extremity veins originate distally and
drain towards the heart
Veins return blood back to the heart
Vessel anatomy is described from the
wrist to the chest
Vessel location (prox, mid, distal) are
identified from the proximity to the heart
Deep veins have an accompanying artery
Forearm and brachial veins are typically
duplicated (axillary veins may also be
duplicated)
Copyright © 2023 Wolters Kluwer · All Rights Reserved
Source: Size, Gail P., et al. Inside Ultrasound Vascular Reference Guide. Inside Ultrasound, Inc, 2018.
 Upper Extremity Veins – Memory Tricks
Brachial Veins – are paired, deep veins
and often look like Mickey Mouse.
Think: A Disney trip will break (“brach”)
the bank Source: https://neiuindependent.org/12633/uncategorized/disney-has-5-
billion-dollar-movies-in-a-year/#modal-photo

Basilic Vein – is a singular superficial
vein that snakes all the way down the
arm Think: Harry Potter fought the
Basilisk (a single snake) Source: https://easy-peasy.ai/cdn-
cgi/image/quality=80,format=auto,width=700/https://fdczvxmwwjwpwbeeq
cth.supabase.co/storage/v1/object/public/images/3be80134-bb6e-45c4-
833d-ead023e889c4/6bbce9b6-a975-42a5-a1ce-52a96104cbb7.png

Radial Veins - are paired, deep veins on
the THUMB side of the forearm Think:
Thumbs can twirl in a circle and a circle
Figure 4-13. Venous has a radius.
Source: https://tenor.com/view/duimen-method2-gif-7554606

drainage of the
hand and veins of Ulnar Veins - are paired, deep veins on
the upper extremity. the PINKY side of the forearm Think:
P.U. (Pinky / Ulnar) something smells.
Copyright © 2023 Wolters Kluwer · All Rights Reserved Source: https://prestigemedigroup.com/pee-ew-why-does-my-urine-smell-and-
other-things-you-wanted-to-know-about-urine/
Forearm Veins - Radial and Ulnar
Radial and ulnar veins
o Paired deep veins
o Follow the path of the arteries
o Unite near antecubital fossa to form brachial
veins
Ulnar veins arise from the tributaries of the palmar
venous arch in the hand. With the palm up, the UV
travel along the medial aspect of the forearm, joining
near the elbow to form an ulnar trunk
Radial veins arise from the dorsal metacarpal veins
and travel up the lateral aspect of the forearm,
joining near the elbow to form the radial trunk
Copyright © 2023 Wolters Kluwer · All Rights Reserved
Entire Arm Vein - Cephalic Vein
Cephalic vein
o Superficial vein
o Longest vein in the arm
o Originates from the medial
component of the dorsal venous arch
o Winds around radial border of forearm
Source: https://www.pinterest.com/pin/779545016728790562/

o Continues along lateral border of biceps muscle
o Empties into axillary vein
The Cephalic Vein is typically used as a landmark to
differentiate the subclavian vein from the axillary vein

Copyright © 2023 Wolters Kluwer · All Rights Reserved
Entire Arm Vein - Basilic Vein

Basilic vein
o Superficial vein
o Originates from the ulnar
component of the dorsal venous arch
o Courses along ulnar aspect of forearm Source: https://www.pinterest.com/pin/779545016728790562/

o Continues along medial border of biceps muscle
o Joins brachial vein to form axillary vein
*Both cephalic and basilic veins communicate with
median cubital vein

Copyright © 2023 Wolters Kluwer · All Rights Reserved
Median Cubital Vein

Median Cubital Vein
o Superficial vein
o Crosses the
antecubital fossa
obliquely Source: https://geekymedics.com/cubital-fossa/

o Connects the basilic
and cephalic veins
o Several possible
anatomic variations

Copyright © 2023 Wolters Kluwer · All Rights Reserved Source: Size, Gail P., et al. Inside Ultrasound Vascular Reference Guide. Inside
Ultrasound, Inc, 2018.
Upper Arm Vein Diagram

Figure 4-14. View of the upper extremity veins crossing the
axillary region.
Copyright © 2023 Wolters Kluwer · All Rights Reserved
Upper Arm Veins – Brachial Veins

Brachial veins
o Deep veins
o Usually paired
o Follow course of artery
o The brachial veins usually join near the axilla to
form the axillary vein

Copyright © 2023 Wolters Kluwer · All Rights Reserved
Upper Arm Vein – Axillary Vein
Axillary vein
o Usually single vein
o Begins at junction of brachial and basilic
veins
o The axillary vein runs along the shoulder
until joining the cephalic vein where it
becomes the subclavian vein, usually near
the upper border of the first rib

Copyright © 2023 Wolters Kluwer · All Rights Reserved
Chest Area Vein – Subclavian Vein
Subclavian vein
o Continuation of the axillary vein, just past
confluence with cephalic vein
o Begins just past outer border of first rib
o The subclavian vein joins the internal jugular
vein to form the brachiocephalic vein (or
innominate vein) at the clavicular level

Copyright © 2023 Wolters Kluwer · All Rights Reserved
Neck Veins – Internal and External
Jugular Veins
Internal Jugular Vein (IJV)
o Runs adjacent to the common carotid artery
o Receives blood from the face and neck
o The IJV joins the subclavian vein to form the
brachiocephalic (innominate) vein

External Jugular Vein (EJV)
o Drains blood from the cranium, face, and neck
o Drains into the subclavian vein

Copyright © 2023 Wolters Kluwer · All Rights Reserved
 Chest Area Veins - Brachiocephalic /
Innominate Veins
Brachiocephalic / Innominate Veins
o Formed at junction of internal jugular and
subclavian veins at the clavicular level
o One at each side of the base of the neck

Copyright © 2023 Wolters Kluwer · All Rights Reserved
Source: Size, Gail P., et al. Inside Ultrasound Vascular Reference Guide. Inside Ultrasound, Inc, 2018.
 Chest Area Vein – Superior Vena Cava
(SVC)
Superior vena cava
o Formed by the junction of the right and
left brachiocephalic veins
o Courses just behind the right side of the
sternum
o The SVC enters the heart at the right
atrium

Copyright © 2023 Wolters Kluwer · All Rights Reserved
 Chapter 18
Duplex Ultrasound Imaging of
the Upper Extremity Venous
System

Steven R. Talbot and Mark Oliver
Objectives

❑Describe the components of the upper extremity
venous system
❑Define the normal image and Doppler characteristics
of the venous system
❑Identify the image characteristics that aid in
thrombus aging
❑Describe the Doppler waveform characteristics
associated with various pathologies
❑List risk factors associated with venous thrombosis
in the upper extremity

Copyright © 2023 Wolters Kluwer · All Rights Reserved
Background

Protocol techniques for upper extremity veins are
similar to those for lower extremity
Three differences
1. Thrombi in lower extremity often caused by
stasis; not so in the upper extremity (no soleal
sinuses)
2. Superficial veins affected more in arms than in
legs; in addition, superficial thrombosis may
have greater clinical significance in arm than leg
3. Venous anatomy of upper extremity is more
variable than lower extremity

Copyright © 2023 Wolters Kluwer · All Rights Reserved
Pathophysiology

Virchow’s triad
o Venous stasis
o Hypercoagulability
o Vessel wall injury
Source: https://www.researchgate.net/profile/Faizan-Khan-
9/publication/317266064/figure/fig1/AS:500804423766016@1496412487140/rchows-triad-of-
the-three-broad-categories-of-factors-that-are-thought-to-contribute-to.png

Upper extremity thrombosis more commonly due to
injury to vessels wall
o More frequent introduction of needles and
catheters into arm veins

Copyright © 2023 Wolters Kluwer · All Rights Reserved
 Paget–Schroetter Syndrome

Paget–Schroetter syndrome
o Venous thrombosis associated
with compression of
subclavian vein at the thoracic
outlet
o Also known as venous thoracic Source: https://pocusjournal.com/article/2022-07-iss-01p131-133/

outlet syndrome (VTOS) or as
effort thrombosis
o Typical patients are
young/athletic/muscular
males, but can occur in other
individuals
Source: https://angiologist.com/paget-schroetter-syndrome/https://angiologist.com/paget-schroetter-syndrome/

Copyright © 2023 Wolters Kluwer · All Rights Reserved
Catheters as Causes of Upper Extremity
Thrombosis

Subclavian and internal jugular veins commonly
used for indwelling catheters and pacemaker wire
introduction
o Can be associated with upper extremity
thrombosis
Peripherally inserted central catheters (PICCs) also
cause thrombosis
o Catheter is inserted through basilic or cephalic
vein and then positioned near right atrium

Copyright © 2023 Wolters Kluwer · All Rights Reserved
Signs & Symptoms

Similar to those of lower extremity
Can include:
o Unilateral arm or hand swelling
o Superficial palpable cord
o Erythema
o Pain and tenderness
o Facial swelling or dilated chest wall collaterals
▪ Suggestive of superior vena cava thrombosis
Patients may present with indwelling catheters or history of
venous catheters

Copyright © 2023 Wolters Kluwer · All Rights Reserved
Other Indications for an UEV Examination

Asymptomatic patients may be examined before
central catheter placement or before pacemaker
placement
o Duplex may also be used to confirm placement
of the abovementioned devices.
Upper extremity veins may also be evaluated in
patients suspected of pulmonary embolism (PE)
PE symptoms include chest pain, tachypnea, or
tachycardia

Copyright © 2023 Wolters Kluwer · All Rights Reserved
Sonographic Examination Techniques

Similar technique is used for upper extremity as for
lower extremity
Transducer compression performed over all upper
extremity veins possible
o Gentle transducer compression is used directly
over vein so that vein walls coapt
o Compression maneuver is repeated every 2 to 3
cm along course of each vein
Spectral Doppler waveforms are recorded from all
major veins

Copyright © 2023 Wolters Kluwer · All Rights Reserved
Patient Preparation

Examination procedure
should be explained to the
patient
Relevant history should be
obtained, including
questioning of signs and
symptoms
Upper extremity clothing Source: https://www.semanticscholar.org/paper/Neuromuscular-Ultrasound-in-Polyneuropathy-Lee-

and jewelry should be
Cartwright/f15c55e2ca97b5f7172d625ec4e05316d322b6dd

removed, and patient gown
or drape provided

Copyright © 2023 Wolters Kluwer · All Rights Reserved
Patient Positioning

No need to tilt bed for examination
o Internal jugular and subclavian veins need to be
examined with patient lying flat
▪ Arm can be positioned at patient’s side during
evaluation of jugular and subclavian veins
Arm should be abducted to evaluate remaining veins

Copyright © 2023 Wolters Kluwer · All Rights Reserved
Equipment

Two transducers recommended
o Midrange (5 to 10 MHz) linear array
▪ Used to evaluate internal jugular,
brachiocephalic, subclavian, axillary, deep
brachial, and brachial veins
o Higher frequency (10 to 18 MHz) linear array
▪ Used for more superficial veins (cephalic and
basilic) and small forearm veins (radial and
ulnar)
o Curved or sector array may be useful for deeper
vessels near clavicle and sternum.
Copyright © 2023 Wolters Kluwer · All Rights Reserved
 Transducer Option Images

“vascular” or “small parts”
Source: https://www.ultrasoundtraining.co.uk/musculoskeletal-ultrasound-probes/

Copyright © 2023 Wolters Kluwer · All Rights Reserved
Scanning Technique - Internal Jugular
Veins
Veins in neck should be routinely evaluated as
thrombus from arm can extend upward
o Also are an important collateral pathway
Carotid artery can be used as landmark to identify
internal jugular vein (IJV)
IJV will be collapsed if patient is sitting or standing,
but Valsalva will increase IJV size (why?)
Evaluation of IJV should include transverse views
with transducer compression as well as spectral
Doppler waveforms

Copyright © 2023 Wolters Kluwer · All Rights Reserved
IJV Transverse Images

Figure 18-1. A transverse view Figure 18-2. A grayscale image
of the internal jugular vein (transverse) of the location of
(IJV) and the common carotid the internal jugular vein (IJV)
artery (CCA) with color. alongside the common carotid
artery (CCA).

Copyright © 2023 Wolters Kluwer · All Rights Reserved
IJV Spectral Doppler Image

Figure 18-3. A spectral Doppler waveform from the internal jugular vein.

Copyright © 2023 Wolters Kluwer · All Rights Reserved
Scanning Technique - External Jugular
Veins
External jugular vein (EJV)
o Lighten up transducer pressure and slide posterior from
internal jugular vein
o Runs without an accompanying artery very close to skin
surface
o Usually terminates into subclavian vein
o Should be documented in transverse with transducer
compression and with spectral Doppler
o Serves as an important collateral pathway
*Many labs do not include EJV in standard examination but add if
indicated

Copyright © 2023 Wolters Kluwer · All Rights Reserved
Scanning Technique - Brachiocephalic
Veins

Challenging due to position behind bony landmarks
Most often evaluated at the confluence of the IJV
and subclavian veins
Compressions cannot be performed
o Documentation of patency depends on grayscale
image, color-flow imaging, and spectral Doppler
waveforms.
o Spectral Doppler should demonstrate phasicity
and pulsatility

Copyright © 2023 Wolters Kluwer · All Rights Reserved
Brachiocephalic Veins Color Doppler

Figure 18-4. Color image of the brachiocephalic vein. IJV, internal
jugular vein; SCV, subclavian vein.

Copyright © 2023 Wolters Kluwer · All Rights Reserved
Brachiocephalic Veins Spectral Doppler

Figure 18-5. Spectral Doppler waveform from the brachiocephalic
vein.

Copyright © 2023 Wolters Kluwer · All Rights Reserved
Scanning Technique - Subclavian Vein

Can be visualized above and below the clavicle
Accompanied by subclavian artery
Cephalic vein terminates into subclavian vein just
after it passes under clavicle.
Can be difficult to compress due to the position of
clavicle
o Patient can perform a sniff or take a quick, deep
breath in through pursed lips—this will cause
subclavian vein to collapse
Color and spectral Doppler should also be
documented
Copyright © 2023 Wolters Kluwer · All Rights Reserved
Transverse Subclavian Vein

Figure 18-6. A transverse view of the subclavian artery (SCA)
and subclavian vein (SCV).

Copyright © 2023 Wolters Kluwer · All Rights Reserved
Cephalic Vein Draining Into Subclavian Vein

Figure 18-7. A: Grayscale image of the cephalic vein terminating
into the subclavian vein (SCV). B: Color-flow imaging at the
cephalic vein termination.

Copyright © 2023 Wolters Kluwer · All Rights Reserved
Scanning Technique - Cephalic Vein

Travels superficially near skin across shoulder and
along anterolateral border of biceps muscle
Communicates with median cubital vein at
antecubital fossa
In the forearm, usually travels as two vessels—one
on the volar aspect and one on the dorsal aspect
Document in transverse with transducer
compressions; color and spectral Doppler can also
be used

Copyright © 2023 Wolters Kluwer · All Rights Reserved
Transverse Compression of Cephalic Vein

Figure 18-8. A transverse view of the cephalic vein in the upper
arm noncompressed on the left and compressed (arrow) on the
right.

Copyright © 2023 Wolters Kluwer · All Rights Reserved
Sagittal Color image of Cephalic Vein

Figure 18-9. A longitudinal view of the cephalic vein with color
added.

Copyright © 2023 Wolters Kluwer · All Rights Reserved
Median Cubital Vein

Connects cephalic and basilic veins
Resides in the antecubital fossa but pattern of
connection is variable
Common site of venipuncture and therefore
thrombus
Compressed and noncompressed images should be
documented

Copyright © 2023 Wolters Kluwer · All Rights Reserved
Transverse Median Cubital Vein

Figure 18-10. A transverse view of the median cubital vein (MCV)
as it passes superiorly over the brachial artery (A) and brachial
vein (V).

Copyright © 2023 Wolters Kluwer · All Rights Reserved
Scanning Technique - Axillary Vein

Terminates at the junction of the cephalic and
subclavian veins
Deep vein accompanied by axillary artery
Courses deeply from shoulder through axilla
Basilic vein terminates into axillary vein in near the
distal axilla.
Compressed and noncompressed images should be
recorded along with color and spectral Doppler

Copyright © 2023 Wolters Kluwer · All Rights Reserved
Transverse Color Image of the Axillary Vein

Figure 18-11. A transverse view of the axillary artery (A) and
vein (V) with color over the shoulder.

Copyright © 2023 Wolters Kluwer · All Rights Reserved
Transverse Color Axillary Vein from
Within the Axilla

Figure 18-12. A transverse view of the axillary artery (in red) and
vein (in blue) taken from the axilla. Note how there is spatial
separation between the two vessels.

Copyright © 2023 Wolters Kluwer · All Rights Reserved
Scanning Technique - Brachial Veins

Terminates when the basilic vein enters to become
axillary vein
Usually small, paired deep veins with accompanying
brachial artery
Formed by the junction of the two radial and two
ulnar arteries near the antecubital fossa
Should be documented with compressed and non-
compressed images
Color and spectral Doppler may also be included

Copyright © 2023 Wolters Kluwer · All Rights Reserved
Transverse Color Brachial and Basilic
Veins

Figure 18-13. A transverse view of the brachial artery (A) and veins (V) in the
upper arm. The basilic vein is also noted.

Copyright © 2023 Wolters Kluwer · All Rights Reserved
Scanning Technique - Radial Veins

Course along volar aspect of forearm
Paired deep veins that course with accompanying
radial artery
Very small vessels and rarely involved in venous
thrombosis
Often not included in routine upper extremity
venous examination

Copyright © 2023 Wolters Kluwer · All Rights Reserved
Transverse Color Radial Veins

Figure 18-14. A transverse view of the radial artery (A) and veins
(V). The cephalic vein is also noted.

Copyright © 2023 Wolters Kluwer · All Rights Reserved
Scanning Technique - Ulnar Veins

Also travel along volar aspect of forearm
Deep, paired veins that course with the
accompanying ulnar artery
Also very small and often not examined unless
indicated by presenting symptoms

Copyright © 2023 Wolters Kluwer · All Rights Reserved
Transverse Ulnar Veins

Figure 18-15. A transverse view of the ulnar artery (A) and veins
(V). The basilic vein is also noted.

Copyright © 2023 Wolters Kluwer · All Rights Reserved
Scanning Technique - Basilic Vein

Terminates into the axillary vein in upper arm
Courses medially and superficially without a companion artery
Usually largest vein in upper arm region
Communicates with cephalic vein via median cubital vein in the
antecubital fossa
Usually has two branches in forearm—one on volar aspect and
one on dorsal aspect
Should be documented with compressed and noncompressed
images
Color and spectral Doppler can also be used

Copyright © 2023 Wolters Kluwer · All Rights Reserved
Transverse Basilic Vein

Figure 18-16. A transverse view of the basilic vein in the upper
arm. The brachial artery (A) and veins (V) are also in view.

Copyright © 2023 Wolters Kluwer · All Rights Reserved
Pitfalls

Compressions are not possible in several locations in
the upper extremity.
o Color and spectral Doppler are relied on in these
areas.
Patient may have dressings or intravenous
catheters, which limit access to veins
o Color and spectral Doppler are also important in
these cases
Nearby nerve bundles can be mistaken for a
thrombosed vein

Copyright © 2023 Wolters Kluwer · All Rights Reserved
Diagnosis

Diagnostic criteria are same for upper extremity as
it was for lower extremity
o Normal vein walls will completely compress with
transducer pressure.
▪ Compressions performed in transverse plane.
o Vein walls should be smooth and thin with
anechoic vessel lumen.
o Vein diameter will change slightly with
respiration

Copyright © 2023 Wolters Kluwer · All Rights Reserved
Diagnosing Thrombus

If vein walls do not coapt, thrombus should be suspected
Echogenic material should be observed within vein lumen
Acute thrombus: Poorly attached to vessel wall, thrombus is
spongy, vein is dilated, varying echogenicity, smooth surfaced
Chronic post-thrombotic changes: Brightly echogenic
thrombus, well attached, rigid, irregular surfaced, and
contracted vein
Superficial vein thrombus will have same appearance as deep
vein thrombosis
o Hypoechoic areas may be present around vein due to
inflammation

Copyright © 2023 Wolters Kluwer · All Rights Reserved
Transverse IJV with Compression

Figure 18-17. Transverse view of a patent internal jugular vein
(IJV) noncompressed (left) and compressed (right).

Copyright © 2023 Wolters Kluwer · All Rights Reserved
Transverse & Sagittal IJV with Thrombus

Figure 18-18. An acute thrombus in the internal jugular vein
(IJV). A: Transverse view. B: Longitudinal view.

Copyright © 2023 Wolters Kluwer · All Rights Reserved
Axillary Vein Chronic Post-Thrombotic
Changes

Figure 18-19. An axillary vein demonstrating chronic post-
thrombotic changes. A: Noncompressed view. B: Compressed
view illustrating inability to fully compress the vein. (Image
courtesy of Steve Knight, BSc, RVT, RDCS, Steilacoom, WA.)

Copyright © 2023 Wolters Kluwer · All Rights Reserved
Color and Spectral Doppler

Important diagnostic tools in upper extremity veins
that cannot be compressed
Color should be seen filling entire vessel lumen
Spectral Doppler waveforms should demonstrate
o Respiratory phasicity
o Augmentation with distal compression
o Pulsatility, which is common due to proximity to
heart

Copyright © 2023 Wolters Kluwer · All Rights Reserved
Subclavian Vein Spectral Doppler

Figure 18-21. A Doppler spectral waveform taken from a
subclavian vein demonstrating normal pulsatile flow.

Copyright © 2023 Wolters Kluwer · All Rights Reserved
Abnormal Color and Spectral Doppler

With complete thrombus, no spectral Doppler
signals or color filling will be obtained
Partial thrombus may result in continuous flow as
will proximal thrombosis or extrinsic compression
Retrograde flow is uncommon; however, jugular
veins may demonstrate reversed flow if they are
serving as a collateral pathway
Arterialized venous flow may be present in patients
with hemodialysis fistula or graft

Copyright © 2023 Wolters Kluwer · All Rights Reserved
Venous Catheters

Indwelling venous catheters are commonly
encountered in arm
Catheters appear as bright, straight, parallel echoes
within vessel lumen
Thrombus may develop around these catheters
o Appears as echogenic material around catheter
surface
o Spectral Doppler signals will be diminished
and/or continuous.
o Catheter must be removed if it becomes
thrombosed.
Copyright © 2023 Wolters Kluwer · All Rights Reserved
Normal Venous Catheter on Ultrasound

Figure 18-22. A longitudinal view of a catheter (arrow) inside a
vein.
Copyright © 2023 Wolters Kluwer · All Rights Reserved
Thrombus forming on a Venous Catheter

Figure 18-23. A longitudinal view of a thrombus (arrow) forming
on a venous catheter.

Copyright © 2023 Wolters Kluwer · All Rights Reserved
Residual Fibrous Sheath after Removing a
Venous Catheter with Thrombus

Figure 18-25. A longitudinal view of a remnant fibrous sheath
(arrow) left in the view after removal of a catheter. Note how this
appears to resemble a catheter.
Copyright © 2023 Wolters Kluwer · All Rights Reserved
Treatments For Upper Extremity
Thrombus

Treatment considerations include:
o Anticoagulation
o Catheter removal
o Thrombolytic therapy
o Surgical compression of thoracic inlet with or
without venous reconstruction
o Conservative treatment

Copyright © 2023 Wolters Kluwer · All Rights Reserved