Pathology 3 - Acute Inflammation

Question 1

What is the definition of acute inflammation?

Answer 1

“The response of living tissue to injury”.

• innate, immediate, early, stereotyped
• short duration
• initiated to limit the tissue damage

Question 2

What is acute inflammation generally controlled by?

Answer 2

A variety of chemical mediators derived from plasma or cells

Question 3

Give some causes of acute inflammation

Answer 3

• microbial infections eg. pyogenic organism
• hypersensitivity reactions
• physical agent (heat, light etc)
• chemicals
• tissue necrosis

Question 4

What are the main clinical signs of acute inflammation?

Answer 4

Rubor, tumor, calor, dolor, loss of function

Question 5

What is the general pattern of acute inflammation?

Answer 5

1) changes in blood flow
2) exudation of fluid into tissues
3) infiltration of inflammatory cells

Question 6

What are the 4 stages of changes in the blood flow during the inflammory response?

Answer 6

• transient vasoconstriction of arterioles
• vasodilatation of arterioles then capillaries, leading to increase in blood flow to area
• increased permeability of blood vessels, leading to exudation of protein-rich fluid into tissues and slowing of circulation
• concentration of RBCs in small vessels and increased viscosity of blood (‘stasis’)

Question 7

What is histamine released from?

Answer 7

Mast cells, basophils and platelets

Question 8

What does histamine cause?

Answer 8

Vascular dilatation, transient increase in vascular permeability, pain

Question 9

True or false - histamine mediates the persistent response?

Answer 9

False - histamine lasts for around half an hour, and is therefore the ‘immediate early response’. The persistent response is controlled by other mediators eg leukotrienes, bradykinin

Question 10

What does Starling’s Law state?

Answer 10

Fluid flow across vessel walls is determined by the balance of hydrostatic and colloid osmotic pressure, comparing plasma and interstitial fluid.

Question 11

How does acute inflammation lead to oedema?

Answer 11

• Arteriolar dilatation leads to increase in hydrostatic pressure
• increased permeability of vessel walls leads to loss of protein into interstitium
• net flow of fluid out of vessel leads to oedema

Question 12

Define ‘oedema’

Answer 12

Excess of fluid in the interstitium

Question 13

What is the difference between transudate and exudate?

Answer 13

Fluid loss due to inflammation will have a high protein content and is referred to as an EXUDATE, while fluid loss due to hydrostatic pressure imbalance will have low protein content and is a TRANSUDATE

Question 14

Give some examples of mechanisms of vascular leakage

Answer 14

• endothelial contraction
• cytoskeletal reorganisation
• direct injury, eg toxic burns, chemicals
• leukocyte dependent injury
• increased transcytosis

Question 15

Why does plasma contain fibrin?

Answer 15

It produces a meshwork which localises the inflammation and prevents it from spreading to the entire serosa cavity

Question 16

What is the main cell involved with the cellular phase of acute inflammation?

Answer 16

Neutrophil leukocyte (aka ‘polymorph’)

Question 17

Outline the four stages of infiltration of neutrophils into tissue

Answer 17

1) Stasis causes neutrophils to line up at the edge of blood vessels along the endothelium (‘margination’)
2) neutrophils roll along endothelium, sticking intermittently (‘rolling’)
3) they then stick more effectively (‘adhesion’)
4) neutrophils move through blood vessel wall (‘emigration’)

Question 18

How do cell adhere in neutrophil migration?

Answer 18

They use proteins called selectins and integrins to adhere to the cell wall

Question 19

How do neutrophils manage to get through the blood vessels?

Answer 19

• relaxation of inter-endothelial cell junctions
• digestion of vascular basement membrane
• movement

Question 20

Define ‘chemotaxis’

Answer 20

Movement of chemoattractants along concentration gradients

Question 21

How do neutrophils ‘move’?

Answer 21

Chemotaxins eg. C5a, LTB4, bacterial peptides bind to receptors on the neutrophils. When the receptor is activated, the neutrophil moves towards the chemotaxin by rearranging its cytoskeleton and producing a pseudopod

Question 22

What do neutrophils do once they reach the tissues?

Answer 22

They phagocytose substances in three stages - contact, recognition and internalisation. Opsonins (Fc and C3b) facilitate this. They then fuse with lysosomes to produces secondary lysosomes.

Question 23

What are the two methods of killing cells?

Answer 23

O2 dependent and O2 independent

Question 24

Why may neutrophils sometimes cause inflammation to tissue?

Answer 24

They release toxic metabolites

Question 25

Which chemical mediators are responsible for increased blood flow?

Answer 25

Histamine and prostaglandins

Question 26

Which chemical mediators are responsible for vascular permeability?

Answer 26

Histamine and leukotrienes

Question 27

Which chemical mediators are responsible for neutrophil chemotaxis?

Answer 27

C5a, LTB4, bacterial peptides

Question 28

Which chemical mediators are responsible for phagocytosis?

Answer 28

C3b

Question 29

What are proteases?

Answer 29

Plasma proteins synthesised in liver. Three large families - kinins, complement system (C3a, C5a), coagulation/fibrinolytic system

Question 30

What are the two hallmarks of acute inflammation?

Answer 30

Exudate of oedema fluid, and infiltrate of inflammatory cells

Question 31

How does exudation of fluid combat injury?

Answer 31

• Delivers plasma proteins to area of injury eg. immunoglobulins, inflammatory mediators, fibrinogen.
• dilutes toxins
• increases lymphatic drainage (this delivers microorganisms to phagocytes and antigens to immune system)

Question 32

How does infiltration of cells combat injury?

Answer 32

Removes pathogenic organisms and necrotic debris

Question 33

How does vasodilatation combat injury?

Answer 33

Increases delivery, increases temperature

Question 34

How does pain and loss of function combat injury?

Answer 34

Enforces rest, reduces chance of further traumatic damage

Question 35

Give some local complications of acute inflammation

Answer 35

• swelling can block tubes (eg bile duct)
• exudate can cause compression (cardiac tamponade) and serositis
• loss of fluid eg burns
• pain and loss of functions

Question 36

Why is fever associated with inflammation?

Answer 36

IL-1 and TNF alpha are important cytokines that also function as endogenous pyrogens. Prostaglandins are also endogenous pyrogens and can be combated with aspirin

Question 37

Why is leukocytosis associated with acute inflammation?

Answer 37

IL-1 and TNF alpha produce an accelerated release from marrow

Question 38

What are the symptoms of acute phase response?

Answer 38

Decreased appetite, raised pulse rate, altered sleep patterns and changes in plasma concentrations of acute phase proteins

Question 39

What are the acute phase proteins?

Answer 39

• C-reactive proteins
• alpha1 antitrypsin
• haptoglobin
• fibrinogen
• serum amyloid A protein

Question 40

What is the name given to the process which occurs once neutrals are no longer marginating, and vessel permeability and calibre has returned to normal?

Answer 40

Resolution

Question 41

Give some mechanisms for how resolution can occur

Answer 41

• degradation may inactivate
• inhibitors may bind
• may be unstable
• may be diluted in exudate
• may be specific inhibitors of acute inflammatory changes

Question 42

What is bacterial meningitis?

Answer 42

Acute inflammation in meninges which can cause vascular thrombosis and reduce cerebral perfusion

Question 43

What are the symptoms of lobar pneumonia?

Answer 43

Worsening fever, prostration, hypoxaemia over a few days, dry cough and breathlessness

Question 44

Why is exudate from a blister clear?

Answer 44

There are relatively few inflammatory cells involved

Question 45

Why os there sometimes pain associated with an abscess?

Answer 45

Can cause high pressure

Question 46

Give some features of acute inflammation in serous cavities

Answer 46

• Ascites, pleural or pericardial effusion
• respiratory/cardiac impairment
• localised fibrin deposition

Question 47

Give some sequelae of acute inflammation

Answer 47

• complete resolution
• continued acute inflammation with chronic inflammation (abscess)
• chronic inflammation and fibrous repair, with tissue regeneration
• death

Question 48

Give some examples of disorders of acute inflammation

Answer 48

• hereditary angio-oedema
• alpha-1 antitrypsin deficiency
• inherited complement deficiencies
• defects in neutrophil function
• defects in neutrophil numbers