Vessels of the Lower Limb

Question 1

Why is the femoral artery vulnerable to injury/laceration?

Answer 1

it is positioned superficially in the femoral triangle

Question 2

What is the clinical importance of the femoral artery?

Answer 2

it can be easily accessed in most people:

1. to obtain ABG (arterial blood gas) in emergencies if there is poor peripheral perfusion/pulses
2. to undertake minimally invasive procedures

Question 3

What are the borders of the femoral triangle and the vessels that pass through it?

Answer 3

Question 4

How is the femoral artery used as an important access point?

Answer 4

a catheter can be placed into the femoral artery which can then be advanced up the arterial tree to the target organ

this provides minimally invasive access to perform procedures including:

1. coronary angiography
2. coronary angioplasty
3. embolisation of berry aneurysms

Question 5

Why might the femoral vein be used in an emergency?

Answer 5

it is used for emergency IV access temporarily in:

1. trauma
2. burns
3. otherwise very difficult access - (VDU, thrombosed peripheral veins, obesity)

It can also be used for venepuncture and VBG in emergencies

Question 6

When is the great saphenous vein used clinically?

Where is it positioned?

Answer 6

it lies immediately in front of the medial malleolus

it can be used in emergencies to obtain IV access

Question 7

What is meant by vascular disease of the lower limb?

Answer 7

it is a disease of the lower limb arteries

Question 8

What is lower limb ischaemia most commonly caused by?

Answer 8

atherosclerotic disease

Question 9

What is meant by ischaemia?

Answer 9

when perfusion fails to meet the demands of tissues

tissue hypoxia and anaerobic metabolism result

this leads to tissue damage and death is adequate perfusion is not restored

Question 10

What is the difference between chronic and acute ischaemia?

Answer 10

chronic ischaemia:

a gradual process caused by atherosclerosis

acute ischaemia:

a sudden loss of perfusion of the the limb

it is usually the result of an occlusive thrombus or embolus in an artery, but can also occur secondary to trauma

Question 11

What is the disease process behind atherosclerosis?

What happens if the plaque remains stable or ruptures?

Answer 11

lipids are deposited in lesions in the walls of large arteries

plaques may remain stable and partially occlude the artery to cause symptoms

if inflammation continues in a plaque, they become unstable and rupture

Question 12

What happens when an atherosclerotic plaque ruptures?

Answer 12

the contents of the core are exposed to blood

the core is highly thrombogenic

this leads to platelet aggregation and the activation of the coagulation cascade

Question 13

After rupture of an atherosclerotic plaque, what 2 types of thrombus may form?

Answer 13

1. a thrombus that stays where it is but occludes the vessel lumen
2. a thrombus that breaks away from the vessel wall (embolus) and travels downstream to lodge or occlude a smaller vessel

They both lead to an ischaemic event

Question 14

Where does atherosclerosis tend to happen?

Answer 14

It affects large and medium conduit arteries

It occurs due to turbulence of blood flow at bifurcation points

It commonly affects the coronary, carotid and lower limb arteries as well as the aorta

Question 15

What are the 4 levels in the Fontaine Classification of limb ischaemia?

Answer 15

1. asymptomatic
2. intermittent claudication
3. ischaemic rest pain
4. ulceration/gangrene (= critical ischaemia)

Question 17

What happens during the early stages of chronic lower limb ischaemia?

Answer 17

it is a gradual process so is asymptomatic for some time

the plaques grow and blood flow is increasingly obstructed, but there is time for collateral circulation to develop

at first occlusion is only noticeable when the patient is active

Question 18

What happens as chronic lower limb ischaemia develops and the patient becomes more symptomatic?

Answer 18

perfusion cannot meet the oxygen demands of the limb muscle, leading to anaerobic metabolism in muscle cells

this is ischaemia and causes pain - intermittent claudication

initially, the pain is relieved with rest

Question 19

What are the 2 main signs of critical ischaemia as a result of chronic lower limb ischaemia?

Answer 19

1. pain at rest
2. ulceration and gangrene

patients may not present until they have ulceration/gangrene

Question 20

What are the 3 main signs of critical ischaemia in the foot?

Answer 20

1. foot pain at rest
2. ulceration
3. gangrene

Question 21

What is ‘wet’ gangrene?

What does the affected part of the foot look like and what can it lead to?

Answer 21

tissue necrosis + infection

affected part is black, soft and putrid

it can rapidly lead to sepsis and death

Question 22

What is ‘dry’ gangrene?

What does the affected area look like?

Answer 22

tissue necrosis without infection

the toes are usually affected first and become black, dry and shrunken

Question 23

Which type of gangrene usually occurs in chronic ischaemia and why?

Answer 23

dry gangrene

a minimal blood supply means there is limited oxygen and glucose to drive a bacterial infection

Question 24

How should you act when seeing a case of potential acute limb ischaemia?

Answer 24

Acute limb ischaemia is a surgical emergency

Rapid recognition and action is required if the limb is to be saved

If the ischaemic limb is not revascularised within a matter of hours, it cannot be preserved

Question 25

What is the most common cause of acute (sudden) limb ischaemia?

Answer 25

rupture of an atherosclerotic plaque

this results in complete occlusion of the artery by a thrombus iin situ

or an embolus that travels down the arterial tree until it becomes stuck in a smaller vessel and occludes it

Question 26

What are the other 2 common causes of acute limb ischaemia?

Answer 26

1. emboli from elsewhere (e.g. heart in patient with AF)
2. patients who have undergone recent angioplasty or grafting of an occlusion may also present with acute limb ischaemia

Question 27

What are the 3 things to look out for and consider in acute limb ischaemia?

Answer 27

1. tissue perfusion suddenly ceases
2. the patient does not have a collateral circulation to maintain tissue perfusion
3. there is usually a clear history and the leg is markedly abnormal when compared to the unaffected leg

Question 28

What are the 6 P’s of acute limb ischaemia?

Answer 28

Polar (cold)

Pallor

Pain

Pulseless

Paralysis

Paresthesias (tingling, chilling, etc.)

Question 29

What is meant by ‘intermittent claudication’?

Answer 29

a cramping leg pain that develops when walking and is relieved with rest

the pain occurs on activity as a result of impaired limb perfusion

Question 30

What investigations are carried out following an acute ischaemic limb?

Answer 30

investigations into the cause are carried out

this includes blood tests (inflammatory markers), ECG, Echo, etc.

Vascular disease elsewhere in the body should also be searched for and treated (e.g. coronary arteries, carotid doppler)

Question 31

What is involved in the management of an acute ischaemic limb?

Answer 31

1. initiating/optimising the treatment of risk factors - e.g. diabetes, hypertension, hyperlipidaemia
2. lifestyle modification and eduction - e.g. diet, smoking cessation

Question 32

What causes varicose veins?

Answer 32

increased pressure in the saphenous veins can be caused by proximal venous obstruction

e.g. pregnancy or venous tumour

this leads to the veins becoming dilated and incompetent

Question 33

What is a consequence of the saphenous veins becoming dilated and incompetent in varicose veins?

Answer 33

blood may stagnate in the skin

this leads to breakdown and ulceration

Question 34

What are the 3 main complications associated with varicose veins?

Answer 34

1. bleeding
2. superficial thrombophelbitis
3. venous/varicose ulcers on the medial side of the ankle, dermatitis and skin thickening

Question 35

What is superficial thrombophlebitis?

Answer 35

inflammation of a vein caused by a blood clot just below the surface of the skin

Question 36

What is a deep vein thrombosis?

What does the leg look like in DVT?

Answer 36

it is a thrombus in the deep veins of the pelvis or legs

the limb appears swollen, red, warm and painful

it is tender on examination

Question 37

What is the main risk associated with DVT?

Answer 37

clots can break off from the vein wall and travel to the lungs

this is a pulmonary embolus

Question 38

What is the mortality risk associated with untreated DVT?

What questions should always be asked?

Answer 38

1-2% mortality risk from pulmonary embolism

you should always ask about chest pain and shortness of breath

Question 39

What types of long term symptoms are associated with DVT?

Answer 39

50% of patients with DVT will have long-term pain and swelling in the affected leg

Question 40

What are the major risk factors for DVT (8)?

Answer 40

1. previous VTE
2. immobility
3. recent lower limb surgery
4. recent lower limb fracture
5. malignancy
6. pregnancy
7. IV drug use (injecting into femoral vein)
8. sepsis

Question 41

What are the 3 stages involved in management of DVT?

Answer 41

1. calculate Well’s score
2. give anticoagulants
3. US scan of the LL veins

Question 42

What are the main modifiable risk factors that accelerate atherosclerotic disease?

Answer 42

1. smoking
2. diabetes
3. hypertension
4. hyperlipidaemia

Question 43

What is vascular interventional radiology?

Answer 43

the use of imaging techniques to effect treatment, rather than just diagnosis

it is a minimally invasive alternative to surgery

Question 44

What is ABPI?

Answer 44

ankle brachial pressure index

it is a calculation of the ratio of the patient’s systolic blood pressure at their ankle to the systolic pressure in their arm

Question 45

What is normal ABPI?

Answer 45

1.0 - 1.2

Question 46

What does an ABPI > 1.2 suggest?

Answer 46

the vessel is abnormally hard (e.g. calcified)

there is likely significant peripheral vascular disease

Question 47

What does an ABPI <0.5 suggest?

Answer 47

Severe arterial disease: rest pain, ulceration and gangrene (critical ischaemia)

Question 48

What happens to vessels when there is a stenosis or blockage?

How does this affect intermittent claudication?

Answer 48

collateral arteries develop to bypass the blockage

intermittent claudication allows you to walk as the muscle is still receiving blood, but there is pain as the blood takes longer to reach the muscle through the collateral vessels