Thrombosis, Embolism and Infarction

Question 1

Define thrombosis

Answer 1

• A thrombus is a solidification of blood contents that forms within the vascular system during life
• Thrombosis is a pathological process. It denotes the formation of a thrombus within the noninterupted vascular system

Question 2

What are the three factors that make up Virchow’s triad in the pathogenesis of thrombosis?

Answer 2

Endothelial injury
Hypercoagulability
Abnormal blood flow

Question 3

Describe the role of endothelial injury in the pathogenesis of thrombosis

Answer 3

Important in the formation of thrombi in
• Heart and Arteries

Examples of thrombi developed in:
• Left ventricle at sites of myocardial infarction
• On ulcerated plaques in advanced atherosclerosis
• Injured endocardium (cardiac surgery, myocarditis)
• Valves with inflammatory valve disease, and prosthetic valves

Question 4

What are potential bases of endothelial injury other than MI, plaques, physical injury or inflammatory valve disease?

Answer 4

• Radiation injury
• Chemical agents: exogenous and endogenous
• Bacterial toxins or endotoxins
• Immunologic injuries
• Neoplastic involvement

Question 5

What are the platelets role in the pathogenesis of thrombosis?

Answer 5

After injury to a vessel, platelets undergo three important reactions:
– Adhesion
– Secretion (release reaction)
– Aggregation (Platelet activation)

Question 6

Describe the formation of a thrombus due to endothelial injury in 4 steps

Answer 6

A. Vasoconstriction due to reflex as endothelia released at site of injury

B. Primary hemostasis

C. Secondary hemostasis

D. Thrombus and antithrombotic events

Question 7

What occurs in primary hemostasis?

Answer 7

1. Platelet adhesion to damaged basement membrane with vWF present
2. Shape change to fit more smoothly with artery wall
3. Granule release (ADP, TXA2)
4. Recruitment of more platelets
5. Aggregation (hemostatic plug formed on collagen)

Question 8

What annoying abbreviations are present in primary hemostasis?

Answer 8

ADP = Adenosine diphosphate 
vWF = von Willebrand factor 
TXA2 = Thromboxane A2
Pf4 = Platelet factor 4

Question 9

What is a deficiency in von Willebrand’s factor called?

Answer 9

von Willerbrand’s disease

Question 10

What does a deficiency in glycoprotein Ib cause?

Answer 10

Bernard-soulier syndrome

Question 11

What does a deficiency in glycoprotein Ib -IIIa complex cause?

Answer 11

Glanzmann’s thrombasthenia

Question 12

What occurs in secondary hemostasis?

Answer 12

1 Tissue factor is released from artery wall
2 Phospholipid complex expression occurs in platelets
3 Thrombin activated
4 Thus Fibrin polymerisation occurs which binds platelets with fibrin

Question 13

What occurs in thrombus and antithrombotic events?

Answer 13

Release of
t-PA (fibrinolysis)
Thrombomodulin (blocks coagulation cascade)

Now within the forming thrombus there can be trapped neutrophils and blood cells
It is surrounded by polymerised fibrin

Question 14

How do alterations to normal blood flow play a role in the pathogenesis of thrombosis?

Answer 14

Turbulence contributes to the development of
• Arterial and cardiac thrombi
Stasis contributes to
• Venous thrombosis

Question 15

What do turbulence and stasis of blood flow do?

Answer 15

– Disrupt laminar flow
– Prevent the dilution of coagulation factors
– Retard the inflow of inhibitors of clotting factors
– Promote endothelial cell activation

Question 16

Define hypercoagulability

Answer 16

• Can be defined as an alternation of the blood coagulation mechanism that in some way predisposes thrombosis.

Question 17

What are the two types of hypercoagulability in the pathogenesis of thrombosis?

Answer 17

Primary (genetic)

Secondary (acquired)

Question 18

What role does hyper coagulability play in the pathogenesis of thrombosis?

Answer 18

• Primary (genetic)
» Mutation in the factor V gene = Leiden mutation » Antithrombin III deficiency
» Protein C and S deficinecy

• Secondary (acquired):
» High risk: bed rest (immobilisation). MI, Tissue damage, CA,
prosthetic valves, DIC
» Lower risk: AF, cardiomyopathy, nephrotic syndrome, oral contraceptive, sickle cell anaemia, smoking

Question 19

Where may thrombi occur?

Answer 19

Thrombi may occur anywhere in the cardiovascular system.

Question 20

What are the three types of morphology of thrombi?

Answer 20

• Mural thrombi
• Arterial thrombi
• Venous thrombosis (phlebothrombosis)

Question 21

What is a mural thrombi?

Answer 21

– Applied to one wall of underlying structure, occur in the capacious lumina of the heart chambers and aorta

Question 22

What is an arterial thrombi?

Answer 22

• Usuallyocclusive
• Maybemural
• Frequentinthese
arteries:
– Coronary 
– Cerebral 
– Femoral
• Grey-white and friable

Question 23

What is a venous thrombi?

Answer 23

(phlebothrombosis)

• Invariably occlusive and dark red
• Affect the veins of the lower extremities (90%):
– Deep calf, femoral, popliteal, iliac veins

NB. Thrombophlebitis=
– Inflamed + thrombosed

Question 24

What can you expect to see in the histological appearance of a thrombus?

Answer 24

Pale band of fibrin+platelets
Red band of RBC
Note laminations called lines of Zahn

Question 25

What are the possible fates of a thrombus in the veins?

Answer 25

It may undergo:

Propagation towards the heart

Embolisation to the lungs

organisation and become recanalised (canals form in thrombus)
This may lead to organisation and incorporation into the wall

Or it may resolve

Question 26

What are the clinical correlations of the thrombi?

Answer 26

• They cause obstruction of arteries and veins

* They provide possible sources of emboli

Question 27

What are the symptoms of arterial thrombosis?

Answer 27

Arterial thrombosis:
• Loss of Pulses distal to the thrombus
• Area becomes Perishing cold, Pale, Painful, Paraesthesia
• Eventually tissue dies and gangrene results

Question 28

What may occur due to loss of blood in a vessel?

Answer 28

Auto-amputation due to gangrene

Question 29

What are the symptoms of venous thrombosis (phlebothrombosis)?

Answer 29

– Superficial (saphenous system)
– Congestion, swelling, pain, tenderness (rarely
embolise) – Deep
– Foot and ankle oedema, Homans’ sign
– Could be asymptomatic and recognised only when they have embolised

Question 30

What are the treatments available for thrombosis?

Answer 30

• Stockings(prevention, esp on planes)
• Anticoagulant drugs.These aim to prevent the clot growing any larger and to prevent or stop an embolism.
• Currently there are two main forms of anticoagulant drugs: heparin (i.v or s.c) and warfarin (orally).

Question 31

What is the definition of an embolism?

Answer 31

• An embolus is a detached intravascular solid, liquid, or gaseous mass that is carried by the blood to a site distant from its point of origin.
• 99% of all emboli arise in thrombi (thromboembolism).
• Unless otherwise qualified, the term embolus implies thromboembolism.

Question 32

What do rare forms of embolism contain?

Answer 32

– Bone or bone marrow
– Atheromatous debris
– Droplets of fat
– Bits of tumour
– Foreign bodies (such as bullets) – Bubbles of air or nitrogen

Question 33

What are the different classifications of embolism?

Answer 33

• Pulmonary embolism
• Systemic embolism
• Amniotic fluid embolism
• Air embolism
• Fat embolism

Question 34

What is a pulmonary embolism?

Answer 34

• Occlusion of a large or medium-sized pulmonary artery is embolic in origin until proved otherwise.
– Major clinical problem among hospitalised patients
• More than 95% of all pulmonary emboli arise in thrombi within the large deep veins of the lower leg.

Question 35

Where can you find the emboli of a pulmonary embolism?

Answer 35

• Large emboli may impact in the main pulmonary artery or lodge at the bifurcation as a saddle embolus.

Question 36

What are the two main pathophysiologic consequences of a pulmonary embolism?

Answer 36

– Respiratory compromise
– Haemodynamic compromise

• A large PE is one of the few causes of virtually instantaneous death
– “Pulseless Electrical Activity PEA”

Question 37

What may a smaller pulmonary emboli cause?

Answer 37

– Acute respiratory and cardiac problems.
• Chest pain, dyspnoea, shock, increased LDH, haemoptysis.
• Chest x-ray may disclose a pulmonary infarct as a wedge-shaped infiltrate.
• Emboli can also be detected by pulmonary lung scanning using radionuclides.
• Occlusion puts some strain on the heart which is evident on the ECG.

Question 38

What is a systemic embolism?

Answer 38

• This term refers to emboli that travel through the arterial circulation.
• 80-85% arise from thrombi within heart.

• Less common sources include thrombi developing in relation to:
– Ulcerated atherosclerotic plaque.
– Aortic aneurysms.
– Infective endocarditis.
– valvular or aortic prostheses.

Question 39

Where may a systemic embolism cause issue?

Answer 39

• Arterial emboli almost always cause infarction
• Major sites of lodgement of all systemic emboli are:
– Lower extremities (70-75%)
– The brain (10%)
– Viscera (mesenteric, renal, splenic) (10%)
– Upper limbs (7-8%)

Question 40

What is an air embolism?

Answer 40

• The presence of bubbles of air or gas within the circulation obstruct vascular flow and damage tissues just as thrombotic masses.
– The injury is now referred as barotrauma.

Question 41

What is the pathophysiology of an air embolism?

Answer 41

– Delivery or abortion
– The performance of pneumothorax
– Injury to the lung or the chest wall
– Caisson disease or decompression sickness

Question 42

What is Caisson disease?

Answer 42

• Caisson disease
– Scuba and deep sea divers
– Workers engaged in underwater tunnelling
• If the individual decompresses too rapidly, helium and nitrogen tend to persist to form gaseous emboli within blood vessels and tissues

• Acute form
– commonly known as “the bends” or “the chokes”

• Chronic Form
– is more properly referred to as
caisson disease

• Treatment:
– recompression chamber

Question 43

What is a fat embolism?

Answer 43

• Minute globules of fat can often be demonstrated in the circulation following
– Fractures of the shafts of long bones
– And rarely, with soft tissue trauma and burns
• Only 1% of individuals with severe skeletal injury manifest clinical signs known as
– Fat embolism syndrome

Question 44

Describe the pathogenesis of a fat embolism

Answer 44

• The pathogenesis of this symptom complex involve both:
– Mechanical obstruction
– microagregates of neutral fat cause occlusion
– Chemicalinjury
– free fatty acids released from fat globules result in
toxic injury to the vascular endothelium
• The microscopic demonstration of fat globules requires special techniques using frozen sections and fat stains.

Question 45

What are the symptoms of a fat embolism?

Answer 45

• Clinically it is characterised by:
– Pulmonary insufficiency
– Neurologic symptoms
– Anaemia and thrombocytopenia
– The symptoms appear after latent 24-72h period
• Sudden onset of tachypnoea, dyspnoea and tachycardia
• Neurologic symptoms include irritability and restlessness which progress to delirium and coma.

Question 46

What is an amniotic fluid embolism?

Answer 46

• Is a rare complication of labour and one of cause of maternal mortality (86%).
• The cause is the infusion of amniotic fluid into the maternal circulation.
• Morphology:
– Victim’s pulmonary microcirculation at post- mortem examination contain:
– Epithelial squames from foetal skin, lanugo hair, fat from vernix caseosa, mucin from foetal respiratory or GI tract.

Question 47

What are the symptoms of amniotic fluid embolism?

Answer 47

• The clinical presentation:
– Profound respiratory difficulty
• With deep cyanosis and cardiovascular shock
– Followed by convulsions and 
– Profound coma

Question 48

What is the definition of infarction?

Answer 48

• Infarct (lat. infarcire = to stuff).

– Is an area of ischaemic necrosis caused by occlusion of arterial supply or venous drainage in a particular tissue.

Question 49

What is the definition of necrosis?

Answer 49

• Necrosis (Greek nekro = dead).
– Refers to a spectrum of morphological changes that follow cell death in living tissue, largely resulting from the progressive action of enzymes on the lethally injured cells.

Question 50

What are the causes of 99% of infarctions?

Answer 50

• Thrombosis

* Embolism

Question 51

What are causes of infarct other than thrombosis and embolism?

Answer 51

• Vasospasm
• Expansion of atheroma
• Compression of a vessel
• Twisting of the vessels
• Traumatic rupture

Question 52

What factors influence ht development of an infarct?

Answer 52

• Nature of the vascular supply

• • Liver, hand, intestines = dual blood supply
• • Kidneys and spleen = single

• Rate of development of occlusion
-• Heart

• Vulnerability to hypoxia
-• Neurons 3-4min, Myocardial cells 20-30min, Fibroblasts many hours

• Oxygen content of blood
-• Anaemic or cyanotic patients

Question 53

What are the types of infarcts?

Answer 53

• Red (haemorrhagic)
• White (anaemic)
• Septic or bland

Question 54

Where do red (haemorrhagic) infarcts occur?

Answer 54

• Venous occlusions
• In loose tissues
• In tissues with dual circulation

Question 55

Where do white (anaemic) infarcts occur?

Answer 55

• Arterial occlusions

* Solid organs

Question 56

What is the timescale of the histology of infarction?

Answer 56

• Ischaemic coagulative necrosis (min - days)
– Liquefactive necrosis in the CNS
• Inflammatory response (hours - 7 days)
• Reparative response (1 - 2 weeks)
• Scarring (2 weeks - 2 months)