Haemodynamic Disorders

Question 1

What is the difference between hyperaemia and congestion?

Answer 1

Hyperaemia:
- arterial vasodilation
- can be physiological (eg. blushing, muscles in exertion) or pathological (eg. acute inflammation, hypersensitivity)

Congestion (passive hyperaemia):
- venous outflow obstruction
- always pathological (eg. DVT, congestive heart failure)

Question 2

Which is associated with localised redness and swelling, hyperaemia or congestion?

Answer 2

Hyperaemia

Question 3

Which is associated with oedema and cyanosis, hyperaemia or congestion?

Answer 3

Congestion

Question 4

Which is associated with firm and heavy gross anatomy, hyperaemia or congestion?

Answer 4

Congested organs

Question 5

What are some causes of transudative oedema?

Answer 5

Excessive extravascular accumulation of fluid due to changes in Starling´s forces/vascular permeability:
1) increased vascular hydrostatic pressure
2) decreased vascular oncotic pressure
3) increased endothelial permeability
4) lymphatic obstruction
5) Na+/water retention

Question 6

What are the 2 types of oedematous fluids?

Answer 6

Exudate and transudate

Question 7

What are 4 differences between exudate and transudate?

Answer 7

1) Protein content: High in exudate; as in plasma + fibrinogen (albumin w/o fibrinogen in transudate)
2) specific gravity: exudate>transudate
3) Inflammatory cells: exudate>transudate
4) Cause: inflammation vs Starling´s forces

Question 8

What are 3 causes of localised oedema?

Answer 8

1) Venous impairment (eg. venous occlusion)
2) Increased vascular permeability/hyperaemia (eg. inflammation)
3) Lymphatic obstruction/destruction of lymphatics (eg. filariasis/elephantiasis, cancer)

Question 9

What are 3 causes of generalised oedema?

Answer 9

1) Cardiac
- LHF: pulmonary oedema
- RHF: pitting oedema in lower limbs

2) Renal (Nephrotic syndrome)
- glomerular disease -> protein loss
-> decreased vascular oncotic pressure -> fluid extravasation
-> RAA system active -> Na+/H2O retention

3) Hepatic

Question 10

What are 4 causes of haemorrhage?

Answer 10

1) Trauma
2) Abnormal vessels
3) Thrombocytopenia/thrombocytopathies
4) Coagulation factor deficiency (eg. FVIII: hemoarthrosis)

Question 11

What are the 3 stages in the body´s response to blood loss?

Answer 11

1) Initial
- maintenance of BP & flow
- sympathetic activation (initial only, suppressed after hypotension)
- catecholamines release from adrenal medulla

2) Compensation for volume loss
- fluid retention (aldosterone, ADH)
- Redistribution of flow to vital organs

3) RBC replacement

Question 12

What is the consequence of unresolved, acute and severe blood loss?

Answer 12

Shock

Question 13

What is the consequence of unresolved chronic blood loss?

Answer 13

Anaemia

Question 14

What is shock?

Answer 14

A state of inadequate perfusion & tissue hypoxia
(mainly due to inadequate (i) cardiac output (ii) circulating blood volume)

Question 15

What are the 3 types of shock?
(by cause)

Answer 15

1) Hypovolemic shock (eg. haemorrhage, severe burns, vomitting/diarrhoea)

2) Cardiogenic shock (eg. pump failure, AMI)

3) Septic shock “distributive shock” (eg. anaphylactic, neurogenic shock)

Question 16

What is the pathophysiology of septic shock?

Answer 16

Microbial Ags bind to macrophage receptors -> release cytokines:
1) Vasodilation
2) Decreased cardiac contractability
3) Endothelial cell activation
4) Disseminated Intravascular coagulation (DIC)

Question 17

Why is shock treatment time-sensitive?

Answer 17

Clinical manifestations can quickly progress to MOF
(golden hour for BC/AC/ATLS)

Question 18

How can shock worsen in a cycle?

Answer 18

1) Cardiac (myocardial dmg -> HF)
2 ) Liver (decreased lactate metabolism -> acidosis -> CVS dysf(x))
3) GIT (Mucosal dmg -> decreased fluid + microbe liberation)
4) Kidney (renal failure -> acidosis -> CVS dysf(x))
5) Lung (alveolar dmg -> decreased oxygenation)

Question 19

What are 3 prognosis factors for a px with shock?

Answer 19

1) Type/cause
2) Prior & Co-morbidities
3) Timeliness and effectiveness of treatment

Question 20

What is a thrombus?

Answer 20

A intravascular blood clot

Question 21

The 3 factors affecting the risk of thrombosis collectively known as _______ and are ______.

Answer 21

Virchow´s triad
1) Stasis
2) Endothelial dmg
3) Hypercoagulability

Question 22

What is the main pathogenesis of venous thrombosis?

Answer 22

Stasis + accumulation of activated clotting factors

Question 23

What is the biggest risk/concern of venous thrombosis?

Answer 23

Embolisation -> distal vascular occlusion
(eg. DVT -> pulmonary artery)

Question 24

What is the main cause of arterial thrombosis?

Answer 24

Atheromatous disease (atherosclerosis)

Question 25

What are the 4 possible fates of a thrombus?

Answer 25

1) Resolution/lysis
2) Propagation (enlargement of thrombus can lead to occlusion)
3) Organisation & Recanalisation (organised into vessel wall and lumen continuity maintained by vascular recanalisation)
4) Embolism

Question 26

What is an embolus?

Answer 26

A detached intravascular solid, liquid, gaseous mass carried by blood to site distant from origin

Question 27

What are the different types of embolism and some examples for each?

Answer 27

1) Solid
- thromboemboli
- tissue/tumour fragments
- foreign bodies

2) Liquid
- fat globules
- amniotic fluid

3) Gaseous
- air
- nitrogen

Question 28

What are the possible effects of embolisms?

Answer 28

1) Vascular occlusion -> necrosis
2) Septic emboli -> spread of infection
3) Tumour dissemination -> metastasis

Question 29

What are the causes and effects of pulmonary thromboembolisms?

Answer 29

Cause: Venous thrombosis (eg. DVT in legs/pelvis)

Effects:
1) Sudden death (main truck occlusion: R HF)
2) Pulmonary necrosis (arterial branch occlusion)
3) Pulmonary hypertension (repeated, chronic, widespread, thromboembolic occlusion)

Question 30

What are the causes and effects of fat embolism?

Answer 30

Causes:
- traumatic fracture
- soft tissue/MSK injury

Effects:
- vascular occlusion/dmg
- widespread effects

Question 31

What is amniotic fluid embolism and what are its effects?

Answer 31

Rate obstetric complication

Effects:
- Acute R HF
- Disseminated Intravascular Coagulation (DIC)

Question 32

How does decompression sickness lead to air embolism?

Answer 32

As a person descends deeper into water, the high pressure forces nitrogen in the lungs into blood (low pressure)

Swimming up too quickly does not give enough time for Nitrogen to return to the lung to be breathed out, instead forming bubbles (air embolism)

Question 33

What are the “chokes”, “bends”, and “staggers” of decompression sickness?

Answer 33

“chokes”: breathless (lack of air entering lungs)
“bends”: pain (air embolism in MSK)
“staggers”: loss of balance (air embolism in brain)

Question 34

What is an infarction?

Answer 34

Necrosis due to Ischaemia

Question 35

What are the differences between the 2 types of infarcts?

Answer 35

White infarcts:
- coagulative necrosis
- arterial occlusion
- single blood supply

Red infarcts:
- haemorrhagic necrosis
- arterial/venous occlusion or reperfusion
- dual blood supply

Question 36

What are the 2 different types of infarcts?

Answer 36

Red and white

Question 37

What are 4 factors that influence infarct development?

Answer 37

1) Anatomy of arterial blood supply
2) Rate of vascular occlusion development
3) Tissue vulnerability
4) Pre-existing hypoxia