Pathophysiology of Ischaemia and Infarction

Question 1

What is hypoxia?

Answer 1

Relative lack of blood supply to the tissue/organ, leading to inadequate oxygen supply to meet the needs of that tissue/organ

Question 2

What are the main types of hypoxia?

Answer 2

Hypoxic
Anaemic
Stagnant
Cytotoxic

Question 3

What is seen in hypoxic hypoxia?

Answer 3

Low inspired O2 level
or
Normal inspired O2 but low PaO2

Question 4

What is seen in anaemic hypoxia?

Answer 4

Normal inspired O2 but abnormal blood

Question 5

What is seen in stagnant hypoxia?

Answer 5

Normal inspired O2 but abnormal delivery, either local e.g. occlusion of a vessel or systemic e.g. shock

Question 6

What is seen in cytotoxic hypoxia?

Answer 6

Normal inspired O2 but abnormal at tissue level

Question 7

What factors affect oxygen supply?

Answer 7

Inspired O2
Pulmonary function 
Blood constituents
Blood flow
Integrity of vasculature
Tissue mechanisms

Question 8

What factors affect oxygen demand?

Answer 8

The tissue itself - different tissues have different requirements
Activity of the tissue above baseline value e.g. in exercise

Question 9

What is ischaemia?

Answer 9

Inadequate blood supply to an organ or tissue

Question 10

What is infarction?

Answer 10

Obstruction of the blood supply to an organ or tissue resulting in local cell death
Ischaemic necrosis within a tissue or organ in the living body

Question 11

What is atheroma?

Answer 11

A localised accumulation of lipid and fibrous tissue in the intima of arteries

Question 12

What does established atheroma in coronary arteries result in?

Answer 12

Stable angina

Question 13

What does complicated atheroma in coronary arteries result in?

Answer 13

Unstable angina

Question 14

What do ulcerated or fissured atheromatous plaques result in?

Answer 14

Thrombosis, causing ischaemia or infarction

Question 15

What can atheroma in the aorta result in?

Answer 15

Aortic aneurysm

Question 16

What are the clinical consequences of atheroma?

Answer 16

MI 
TIA
Cerebral infarction
Abdominal aortic aneurysm
Peripheral vascular disease
Cardiac failure

Question 17

What is the effect of atheroma on blood flow, according to Poiseuille’s formula?

Answer 17

Atheroma leads to narrowing of the vessel lumen due to occlusion or thrombus
A reduction in vessel radius in an atheromatous vessel results in a 16 fold reduction in blood flow
This reduced blood and therefore oxygen flow leads to ischaemia or infarction

Question 18

What are the functional consequences of ischaemia?

Answer 18

Blood/O2 supply fails to meet demand due to low supply, high demand or both

Question 19

What are the general consequences of ischaemia?

Answer 19

Acute - obvious signs and symptoms
Chronic - may go unnoticed over a long period of time, insidious onset
Acute on chronic - acute signs/symptoms on already compromised tissues

Question 20

What are the biochemical consequences of ischaemia?

Answer 20

Normal aerobic metabolism affected

Anaerobic metabolism occurs, causing cell death

Question 21

What are the cellular consequences of ischaemia?

Answer 21

Different tissues have variable O2 requirements so are variably susceptible to ischaemia
Cells with high metabolic rate e.g. cardiac cells and neurons are greatly and quickly affected by ischaemia
Cells with low metabolic rate e.g. fat cells are much less affected by ischaemia

Question 22

What are the clinical consequences of ischaemia?

Answer 22

Dysfunction
Pain
Physical damage of specialised cells

Question 23

What are the potential outcomes of ischaemia?

Answer 23

No clinical effect
Resolution
Therapeutic intervention
Infarction

Question 24

What might result in supply issues in IHD?

Answer 24

Coronary artery atheroma
Cardiac failure
Pulmonary function due to another disease causing pulmonary oedema e.g. left ventricular failure
Anaemia
Previous MI

Question 25

What results in demand issues?

Answer 25

Increased exertion and stress

Question 26

What causes infarction?

Answer 26

Occlusion of the arterial supply or the venous drainage

Question 27

What might cause the cessation of blood flow?

Answer 27

Thrombosis
Embolism
Strangulation
Trauma

Question 28

What does the scale of damage resulting from ischaemia or infarction depend on?

Answer 28

Time period
Tissue/organ affected
Pattern of blood supply
Previous disease

Question 29

What is the basic process of infarction?

Answer 29

Anaerobic metabolism
Cell death
Liberation of enzymes
Breakdown of tissue 
Coagulative necrosis e.g. heart, lung
Colliquitive necrosis e.g. brain

Question 30

What occurs in myocardial ischaemia?

Answer 30

Anaerobic metabolism - within seconds
Loss of myocardial contractility - in under 2 minutes
Ultrastructural changes - within a few minutes
Severe ischaemia - within 20-30 minutes
Myocyte necrosis - within 20-40 minutes
Injury to microvasculature - over 1 hour

Question 31

What is transmural infarction?

Answer 31

Ischaemic necrosis which affects the full thickness of the myocardium

Question 32

What is subendocardial infarction?

Answer 32

Ischaemic necrosis which is mostly limited to a zone of myocardium under the endocardial lining of the heart

Question 33

What is the difference in the histological features of a transmural and subendocardial infarction?

Answer 33

Histological features are the same

Repair time, granulation tissue stage followed by fibrosis, is possibly slightly shorter in a subendocardial infarct

Question 34

What are acute infarcts classified according to?

Answer 34

Whether there is elevation of the ST segment on the ECG

Question 35

What is the class of acute infarct if there is no ST elevation but significantly elevated serum troponin level?

Answer 35

Non-STEMI

Question 36

What are NSTEMIs thought to correlate with?

Answer 36

Subendocardial infarct

Question 37

What is the appearance of an infarct at < 24 hours?

Answer 37

No change on visual inspection

From a few hours - 12 hours post-insult you will see swollen mitochondria on electron microscopy

Question 38

What is the appearance of an infarct at 24-48 hours?

Answer 38

Pale infarct will develop in tissues such as myocardium, spleen and kidneys
Red infarct will develop in more solid tissues such as liver and lungs
Continuing blood supply and venous occlusion occurs in loose tissues or previously congested tissues
Acute inflammation initially at the edge of the infarct, loss of specialised cell features, and death/breaking apart of nuclei seen microscopically

Question 39

What is the appearance of an infarct at 72 hours onwards?

Answer 39

Pale infarct develops a yellow/white and red peripheral (hyperaemic rim)
Red infarcts show little change
Microscopically there is chronic inflammation, macrophages remove the debris and granulation tissue and fibrosis develops

Question 40

What is the effect of an infarct dependent on?

Answer 40

Site
Size
Death/dysfunction
Contribution of previous disease/infarction

Question 41

What is the basic reparative process which occurs following myocardial infarction?

Answer 41

Cell death
Acute inflammation
Macrophage phagocytosis of dead cells
Granulation tissue formation
Collagen deposition, fibrosis 
Scar formation

Question 42

What occurs in the reparative process of MI from 4-12 hours post-insult?

Answer 42

Early coagulation necrosis
Oedema
Haemorrhage

Question 43

What occurs in the reparative process of MI from 12-24 hours post-insult?

Answer 43

Ongoing coagulation necrosis
Myocyte changes
Early neutrophilic infiltrate

Question 44

What occurs in the reparative process of MI from 1-3 days post-insult?

Answer 44

Coagulation necrosis
Loss of nuclei and striations
Brisk neutrophilic infiltrate

Question 45

What occurs in the reparative process of MI from 3-7 days post-insult?

Answer 45

Disintegration of dead myofibrils
Dying neutrophils
Early phagocytosis

Question 46

What occurs in the reparative process of MI from 7-10 days post-insult?

Answer 46

Well-developed phagocytosis

Granulation tissue at margins

Question 47

What occurs in the reparative process of MI from 10-14 days post-insult?

Answer 47

Well-established granulation tissue with new blood vessels and collagen deposition

Question 48

What occurs in the reparative process of MI from 2-8 weeks post-insult?

Answer 48

Increased collagen deposition

Decreased cellularity

Question 49

What occurs in the reparative process of MI from over 2 months post-insult?

Answer 49

Dense collagenous scar forms

Question 50

What are the complications of myocardial infarction?

Answer 50

Sudden death 
Arrhythmias
Angina
Cardiac failure 
Cardiac rupture
Reinfarction 
Pericarditis
Pulmonary embolism secondary to DVT
Papillary muscle dysfunction 
Mural thrombosis 
Ventricular aneurysm
Dressler's syndrome