Acute Inflammation

Question 1

What are some features of acute inflammation?

Answer 1

Innate, immediate and early, stereotyped, short-duration

Question 2

Why is acute inflammation initiated?

Answer 2

Initiated to limit the tissue damage (preserve itself)

Question 3

What accumulates in tissues in acute inflammation?

Answer 3

Fluid exudate and neutrophils

Question 4

What is acute inflammation controlled by?

Answer 4

A variety of chemical mediators derived from plasma or cells

Question 5

What are some causes of acute inflammation?

Answer 5

Microbial infections, hypersensitivity reactions, physical agents, chemicals, tissue necrosis

Question 6

What are the main clinical signs of acute inflammation?

Answer 6

Rubor (redness)
Tumor (swelling)
Calor (heat)
Dolor (pain)
Loss of function

Question 7

What changes occur in tissues in acute inflammation?

Answer 7

1) Changes in blood flow
2) Exudation of fluid into tissues
3) Infiltration of inflammatory cells

Question 8

What changes in blood flow occur in acute inflammation?

Answer 8

1) Transient vasoconstriction of arteriole
2) Vasodilation of arterioles and then capillaries
3) Increased permeability of blood vessels
4) Increased viscosity of blood

Question 9

What effect does the vasodilation of arterioles and capillaries have?

Answer 9

Increase in blood flow - heat and redness

Question 10

What effect does the increased permeability of blood vessels have?

Answer 10

Exudation of protein-rich fluid into tissues and slowing of cirulation - swelling

Question 11

What effect does the increased viscosity of blood have on the flow?

Answer 11

Flow slows

Question 12

What is an example of a chemical mediator?

Answer 12

Histamine

Question 13

What is histamine released from?

Answer 13

Mast cells, basophils and platelets

Question 14

What is histamine released in response to?

Answer 14

Many stimuli eg physical damage, immunologic reactions, C3a, C5a, IL-1, factors from neutrophils and platelets

Question 15

What does histamine cause?

Answer 15

Vascular dilation, transient increase in vascular permeability, pain

Question 16

What is fluid flow across vessel walls determined by?

Answer 16

Balance of hydrostatic and colloid osmotic pressure comparing plasma and interstitial fluid

Question 17

What does increased hydrostatic pressure result in?

Answer 17

Increased fluid flow out of the vessel

Question 18

What does increased colloid osmotic pressure of interstitium result in?

Answer 18

Increased fluid flow out of the vessel

Question 19

What is oedema?

Answer 19

Increased fluid in tissue spaces

Question 20

Does oedema lead to increased or decreased lymphatic drainage?

Answer 20

Increased lymphatic drainage

Question 21

How does exudate and transudate differ?

Answer 21

Exudate = fluid loss in inflammation = high protein content

Transudate = fluid loss due to hydrostatic pressure imbalance = low protein content (usually caused by cardiac failure)

Question 22

What are some mechanisms of vascular leakage?

Answer 22

Endothelial contraction, cytoskeletal reorganisation, direct injurt, leukocyte dependent injury and increased transcytosis

Question 23

What contributes to endothelial contraction?

Answer 23

Histamine, leukotrienes

Question 24

What contributes to cytoskeletal reorganisation

Answer 24

Cytokines, IL-1 and TNF

Question 25

What sorts of things can cause direct injury that leads to vascular leakage?

Answer 25

Toxic burns, chemicals - damage vessel walls

Eg sunburn

Question 26

What is VEGF?

Answer 26

Vascular endothelial growth factor - leads to increased transcytosis

Question 27

What is the primary type of white blood cell involved in inflammation?

Answer 27

Neutrophil leucocyte

Question 28

What are neutrophils a type of?

Answer 28

Type of granulocyte (also known as polymorph)

Question 29

What are the four stages of the infiltration of neutrophils?

Answer 29

1) Margination
2) Rolling
3) Adhesion
4) Emigration

Question 30

What happens during the margination phase of neutrophil infiltration?

Answer 30

Stasis causes neutrophils to line up at the edge of blood vessels along the endothelium

Question 31

What happens during the rolling phase of neutrophil infiltration?

Answer 31

Neutrophils rolls along endothelium, sticking to it intermittendtly

Question 32

What happens during the adhesion phase of neutrophil infiltration?

Answer 32

Neutrophils stick to endothelium more avidly

Question 33

What happens during the emigration phase of neutrophil infiltration?

Answer 33

Neutrophils emigrate through blood vessel wall into tissue

Question 34

How do neutrophils escape from vessels?

Answer 34

Relaxation of inter-endothelial cell junctions and digestion of vascular basement membrane

Question 35

What is chemotaxis?

Answer 35

Movement along concentration gradients of chemoattractants

Question 36

Give some examples of chemotaxins

Answer 36

C5a, LTB4, bacterial peptides

Question 37

In the oxygen-dependent mechanism of killing, what is produced?

Answer 37

Superoxide and hydrogen peroxide

Question 38

What does the H2O2-Myeloperoxidase-halide system produce?

Answer 38

HOCl

Question 39

What are involved in the oxygen-independent killing mechanism

Answer 39

Lysozyme and hydrolass, BPI, cationic proteins

Question 40

Where are proteases produced?

Answer 40

Liver

Question 41

What are the 3 main families of proteases involved in acute inflammation?

Answer 41

Kinins, complement system and coagulation/fibrinolytic system

Question 42

What are prostaglandins/leukotrienes metabolites of?

Answer 42

Arachidonic acid

Question 43

What are cytokines/chemokines produced by?

Answer 43

White blood cells

Question 44

What are 2 important cytokines?

Answer 44

Interleukin-1 and TNF alpha

Question 45

What chemical mediators are important in the increase of blood flow?

Answer 45

Histamine and prostaglandins

Question 46

What chemical mediators are important in vascular permeability?

Answer 46

Histamine and leukotrienes

Question 47

What chemical mediators are important in neutrophil chemotaxis?

Answer 47

C5a, LTB4, bacterial peptides

Question 48

What chemical mediator is important in phagocytosis?

Answer 48

C3b

Question 49

How does exudation of fluid combat injury?

Answer 49

Delivers plasma proteins (fibrogen, inflammatory mediators, immunoglobulins) to area of injury

Dilutes toxins

Increases lymphatic drainage - delivers microbes to phagocytes and antigens to immune system

Question 50

How does infiltration of cells (polymorphs and macrophages) combat injury?

Answer 50

Removes pathogenic organisms and necrotic debris

Question 51

How does vasodilation combat injury?

Answer 51

Increases delivery and increases temperature

Question 52

How does pain/loss of function combat injury?

Answer 52

Enforces rest and reduces change of further traumatic damage

Question 53

What are some local complications of acute inflammation?

Answer 53

Swelling - can lead to blockage eg of bile duct
Exudate - compression eg cadiac tamponade and serositis
Loss of fluid - eg burns, easy to dehydrate
Pain and loss of function

Question 54

What are some systemic effects of acute inflammation?

Answer 54

Fever (production of endogenous pyrogens)
Leukocytosis
Acute phase response (decreased appetite, raised pulse etc)

Question 55

What are some acute phase proteins?

Answer 55

C-reactive protein
a1-antitrypsin
Haptoglobin
Fibrinogen
Serum amyloid A protein

Question 56

What is shock?

Answer 56

A clinical syndrome of circulatory failure (can’t maintain BP and HR increases)

Question 57

What could happen after the development of acute inflammation?

Answer 57

1) Complete resolution
2) Continued acute inflammation with chrone inflammation (eg abscess)
3) Chronic inflammation and fibrous repair
4) Death

Question 58

If acute inflammation is resolved, what happens to the exudate and fibrin?

Answer 58

Exudate drains to lymphatics, fibrin degraded by plasmin

Question 59

What is ascites?

Answer 59

Oedema in peritoneum

Question 60

What are some examples of disorders of acute inflammation?

Answer 60

Hereditary angio-oedema
Alpha1 antitrypsin deficiency
Inherited complement deficiencies
Defects in neutrophil function/numbers