Acute Inflammation

Question 1

Define acute inflammation

Answer 1

Definition: any inflammation that has a fairly rapid onset, quickly becomes severe, and is usually manifested for only a few days, but that may persist for even a few weeks; characterized histologically by edema, hyperemia, and inflitrates of polymorphonuclear leukocytes.

Fundamental response maintaining integrity of organism involving a series of protective changes occurring in living tissue as a response to injury

Question 2

What are the 5 cardinal signs of inflammation?

Answer 2

• Rubor - redness
• Calor - heat
• Tumor - swelling
• Dolor - pain
• Loss of function

All of these explained by the sequence of pathological events taking place

Question 3

What is the aetiology of inflammation?

Answer 3

Microorganisms
Mechanical
Chemical
Physical
Dead tissue
Hypersensitivity

Question 4

What is the microcirculation?

Answer 4

Circulation of blood in smallest vessels e.g.:
• Capillary beds, fed by arterioles and drained by venules
• Extracellular “space” and fluid and molecules within it
• Lymphatic channels and drainage

Question 5

What force controls the flow of fluid over membranes?

Answer 5

Starling forces control flow (fluid flux) across membrane

Q = LpS{(Pc - Pi) - σ(Πp - Πi)}

Question 6

What is the starling equation?

Answer 6

The Starling equation is an equation that illustrates the role of hydrostatic and oncotic forces (the so-called Starling forces) in the movement of fluid across capillary membranes

Question 7

Describe the local changes vessel radius and flow during inflammation and the signs of its occurrence

Answer 7

1. Transient arteriolar constriction - few moments, protective (white)
2. Local arteriolar dilatation - active hyperaemia (local, red)
3. Relaxation of vessel smooth muscle - autonomic NS or mediator derived

Called the “Triple Response” - flush, flare, wheal

Question 8

What is Poiseuille’s law?

Answer 8

Poiseuille’s law - flow is proportional to radius to the power of four
• Q = ΔP x Πr4/8ηL
• Increased arteriolar radius causes increased local tissue blood flow
• Radius controls blood flow!

Question 9

What is exudate?

Answer 9

Exudate - fluid rich in protein e.g. plasma which includes immunoglobulin and fibrinogen that seeps out of blood vessels or organs during inflammation

Question 10

Describe the phases of neutrophil emigration

Answer 10

• Margination - neutrophils move to endothelial aspect of lumen
• Pavementing - neutrophils adhere to endothelium
• Emigration - neutrophils squeeze between endothelial cells - active process - to extravascular tissues
• Diapedesis – leukocyte extravasation (not neutrophils, later effector cells)

Question 11

Describe the benefits of acute inflammation reactions

Answer 11

•	Rapid response to non-specific insult
•	Cardinal signs and loss of function
–	Transient protection of inflamed area
•	Neutrophils destroy organisms and denature antigen for macrophages
•	Plasma proteins localise process
•	Resolution and return to normal

Question 12

What are the 5 possible outcomes of acute inflammation?

Answer 12

Resolution
Suppuration - the process of pus forming
Dissemination
Organisation - replacement with granulation tissue
Chronic inflammation

Question 13

What is the role of neutrophils in inflammation?

Answer 13

• Mobile phagocytes
– Recognise foreign antigen
– Move towards it - chemotaxis
– Adhere to organism
• Granules possess oxidants (e.g. H2O2) and enzymes (e.g. proteases)
• Release granule contents
• Phagocytose and destroy foreign antigen

Question 14

What is pus?

Answer 14

• Neutrophils die when granule contents released

* Produce a “soup” of fluid, bits of cell, organisms, endogenous proteins - pus

Question 15

What helps to localise inflammation?

Answer 15

Fibrinogen in exudate forms fibrin to make a clot

Question 16

What cell surface mediators are useful in inflammation?

Answer 16

ICAM-1 - on endothelial cells, help neutrophils stick

P-selectin - on endothelial cells, interacts with neutrophil surface

Question 17

Describe some useful molecules released during inflammation

Answer 17

• Histamine
• 5-hydroxytryptamine (serotonin)
• Prostaglandins (arachidonic acid metabolites via lipoxygenase pathway)
• Leukotrienes (arachidonic acid metabolites via cyclo-oxygenase pathway)
• Omega-3 polyunsaturated fatty acids
• Platelet-activating factor (PAF)
• Cytokines and chemokines (eg TNFα, IL-1)
• Nitric oxide (NO)
• Oxygen free radicals (H2O2, OH-, O2-)

Question 18

What are the useful effects of histamine?

Answer 18

– Preformed in mast cells beside vessels, platelets, basophils
– Released as a result of local injury; IgE mediated reactions
– Causes vasodilatation, increased permeability
– Acts via H1 receptors on endothelial cells

Question 19

What are the useful effects of serotonin (5-HT)?

Answer 19

– Preformed in platelets
– Released when platelets degranulate in coagulation
– Vasoconstriction

Question 20

What are the useful effects of prostaglandins?

Answer 20

– Many cells (endothelium and leukocytes)
– Many promote histamine effects and inhibit inflammatory cells
– Thromboxane A2 promotes platelet aggregation and vasoconstriction – the opposite effect to PGD2, PGE2, etc
– Latter: effectiveness of non-steroidal anti-inflammatory drugs

Question 21

What are the useful effects of leukotrienes?

Answer 21

– Neutrophils especially

– Vasoactive - dynamic effect on vessels to increase permeability and constrict smooth muscle

Question 22

What are the useful effects of omega 3 polyunsaturated fatty acids?

Answer 22

– Decrease synthesis of arachidonic acid derived inflammatory mediators

Question 23

What is the useful effect of platelet activating factor (PAF)?

Answer 23

– Cell membranes of activated inflammatory cells

– Reduces permeability by enhancing platelet degranulation at site of injury

Question 24

What are the useful effects of cytokines and chemokine?

Answer 24

– Small molecules produced by macrophages, lymphocytes, endothelium in response to inflammatory stimuli
– Attract inflammatory cells and activate other immune cells

Question 25

What is the useful effect of nitric oxide (NO)?

Answer 25

– Various cells

– Smooth muscle relaxation, anti-platelet, regulate leukocyte recruitment to inflammatory focus

Question 26

What is the useful effects of oxygen free radicals?

Answer 26

– Released by neutrophils on phagocytosis
– Amplify other mediator effects

(H2O2, OH-, O2-)

Question 27

What 4 enzyme cascades found in plasma are all involved in inflammation?

Answer 27

Blood coagulation pathways 
–	Clots fibrinogen in exudate
–	Interacts widely with other systems
Fibrinolysis
–	Breaks down fibrin, helps maintain blood supply
–	Fibrin breakdown products vasoactive 
Kinin system
–	bradykinin: pain
Complement cascade
–	Ties inflammation with immune system
–	Active components stimulate increased permeability, chemotaxis, phagocytosis, cell breakdown

Question 28

What are the immediate systemic effects of inflammation?

Answer 28

Pyrexia - raised temperature
– Endogenous pyrogens from white cells act centrally
Feel unwell
– Malaise, anorexia, nausea
– Abdominal pain and vomiting in children
Neutrophilia - raised white cell count
– Bone marrow releases/produces

Can result in septic shock

Question 29

What are some long term effects of inflammation?

Answer 29

• Lymphadenopathy - regional lymph node enlargement
• Weight loss - catabolic process
• Anaemia

Question 30

What surrounds pus?

Answer 30

Pyogenic membrane - a layer of pus cells lining an abscess cavity that have not yet autolyzed. Made up of capillary sprouts, neutrophils, fibroblasts

Question 31

Describe an abscess

Answer 31

• Collection of pus (suppuration) under pressure
• Single locule or multiloculated
• “Points” and discharges, ingrowth of granulation tissue
• Collapses - healing and repair
• In multiloculated abscesses, the pus breaks through the pyogenic membrane to form new cavities within tissues.

Question 32

How do multi-loculated abscesses form?

Answer 32

In multiloculated abscesses, the pus breaks through the pyogenic membrane to form new cavities within tissues.

Question 33

What is empyema?

Answer 33

Empyema - pus in a hollow viscus
– Gall bladder
– Pleural cavity

Question 34

What is pyaemia?

Answer 34

Pyaemia - pus discharge to bloodstream

Question 35

What is granulation tissue made up of?

Answer 35

Formed of:
– New capillaries - angiogenesis
– Fibroblasts and collagen
– Macrophages

Question 36

What are the possible outcomes of dissemination in acute inflammation?

Answer 36

• Spread to bloodsteam - patient “septic”
• Bacteraemia - bacteria in blood
• Septicaemia - growth of bacteria in blood
• Toxaemia - toxic products in blood

Question 37

What is septic shock?

Answer 37

Septic shock is a serious medical condition that occurs when sepsis, which is organ injury or damage in response to infection, leads to dangerously low blood pressure and abnormalities in cellular metabolism, resulting in the inability to perfuse tissue due to massive exudation.

Question 38

What are the clinical signs of septic shock?

Answer 38

–	Peripheral vasodilatation
–	Tachycardia - high heart rate
–	Hypotension - low blood pressure
–	Often pyrexia (fever)
–	Sometimes haemorrhagic skin rash

Question 39

What are the possible outcomes of septic shock?

Answer 39

•	Rapidly fatal
•	Tissue hypoxia - cell death
•	Haemorrhage
•	Requires urgent intervention and support
–	Awareness and early recognition
–	Ability of young people to compensate
–	Admit to hospital and intensive care

Question 40

List the local effects of acute inflammation

Answer 40

Flush, flare and wheel

Oedema due to exudation