Acute inflammation

Question 1

acute inflammation overview

Answer 1

• immediate response
• short duration
• innate
• stereotype
• limits damage

Question 2

stereotyped meaning

Answer 2

always the same regardless of the stimulus

Question 3

acute inflammation is tightly controlled by

Answer 3

chemical emdiators

Question 4

although acute inflamamrtionc an be protective

Answer 4

can give rise to complications

Question 5

phases of acute inflammation (2)

Answer 5

1) vascular phase

2) cellular phase

Question 6

1) vascular phase

Answer 6

• changes in blood flow

Question 7

goal of vascular phase

Answer 7

accumulation of exudate

Question 8

2)cellular phase

Answer 8

delivery of neutrophils

Question 9

what causes inflammation

Answer 9

• Trauma/foreign body
• Microorganisms
• Hypersensitivity (pollen and gluten)
• Other illnesses e.g. necrosis

Question 10

clinical signs of acute inflammation

Answer 10

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

Question 11

outline the vascular phase

Answer 11

1. stimulus causes vasoconstriction (only lasts a few seconds)
2. Then vasodilation (minutes)
   - heat and redness
   - allows more blood to flow to area
3. vessel becomes more permeable allowing fluid, cells and proteins to escape

Question 12

vasoconstriction

Answer 12

increase capillary hydrostatic pressure

Question 13

increased vessel permeability

Answer 13

Plasma proteins move into interstitial space. Increased interstitial oncotic pressure

Question 14

fluid movement

Answer 14

Out of vessel into interstium – OEDEMA (swelling/tumor)

Question 15

fluid movement out of vessel

Answer 15

Out of vessel into interitem – OEDEMA (swelling/tumor)

• Increases viscosity of blood
• Reducing flow through the vessel- STATSIS

Question 16

starlings law

Answer 16

Movement of fluid controlled by the balance of hydrostatic pressure and oncotic pressure

Question 17

hydrostatic pressure

Answer 17

ressure exerted on vessel wall by fluid- pushes water out of vessels

Question 18

oncotic pressure

Answer 18

the pressure exerted by proteins- draws fluid back into vessel (proteins)

Question 19

types of interstitial fluid

Answer 19

exudate and trannsudatre

Question 20

exudate

Answer 20

• Arises due to change in vascular permeability
• Protein rich interstitial fluid
• Occurs due to inflammation

Question 21

transudate

Answer 21

not released during inflammation
- Vessel permeability unchanged
- Not due to change in protein conc in the interstitial
- Fluid movement due to
- Increased capillary hydrostatic pressure
- Reduced capillary oncotic pressure
o E.g. heart failure/hepatic failure (reduced production of proteins) /renal failure (lose protein in the urine)
o Can cause pulmonary oedema- fluid escapes in blood

Question 22

how do the vessels become leaky?

Answer 22

1) Endothelial cells retract meaning space between them is bigger- passive of cells, fluid etc
- Due to chemokines e.g. histamine

2) Endothelial cell damage  allow proteins and cells to escape
3) Leukocytes (WBC e.g. neutrophils) become activate which release enzymes which damage the endothelial cells

Question 23

why is vascular phase important

Answer 23

• Interstitial fluid dilutes toxins
• Exudates- delivers proteins
- e.g. fibrin -mesh limits spread of toxins around the body
- e.g. immunoglobulins from adaptive immune response
• Fluid drains to lymph nodes - delivery of antigens —> stimulates immune response (proliferation of lymphocytes)

Question 24

cellular phase (2) is centred around the

Answer 24

neutrophil

Question 25

neutrophil

Answer 25

• Primary white blood cell involved in acute inflammation
• Trilobed nucleus
• A granulocytes
• Bigger than RBC

Question 26

how do neutrophils escape the vessel

Answer 26

1) Neutrophil margination- helped by thickness of blood
2) Rolling- weak intermittent bonds form between neutrophil and endothelium
• Selectins- expressed on activated endothelial cells (activated by chemical mediators)
o Responsible for rolling
• Integrins- found on neutrophil surface
o Change from low affinity to high affinity state – responsible for adhesion
3) Adhesion
4) Emigration (diapedesis)

Question 27

selecting

Answer 27

responsible for rolling

Question 28

integrins

Answer 28

found on neutrophil surface- responsible for adhesion

Question 29

diapedesis

Answer 29

the passage of blood cells through the intact walls of the capillaries, typically accompanying inflammation.

Question 30

selectins

Answer 30

expressed on activated endothelial cells (activated by chemical mediators)
o Responsible for rolling

Question 31

chemotaxis

Answer 31

Movement along an increasing chemical gradient of chemoattractant

Question 32

chemoattractants

Answer 32

o Bacterial peptides, inflammatory mediators (CF5a, LTB4)

o Rearrangement of neutrophil cytoskeleton

Question 33

role of neutrophils

Answer 33

1) Phagocytosis

2) release inflammatory mediators

Question 34

phagocytosis

Answer 34

o Bacterial peptides, inflammatory mediators (CF5a, LTB4)

o Rearrangement of neutrophil cytoskeleton

Question 35

how do neutrophils recognise targets for phagocytosis

Answer 35

• Opsonisation

Question 36

outline opsonisation

Answer 36

o Pathogen becomes coated in molecules such as complement (C3b and Fc)
o Neutrophil has corresponding receptors- receptor binds to ligand and neutrophil introduced to pathogen

Question 37

how do neutrophils kill (2)

Answer 37

1) Oxygen dependent

2) Oxygen independent

Question 38

1) Oxygen dependent

Answer 38

o Reactive oxygen intermediates (Free radicals e.g. ROS and RNI)
 O. (superoxide anion)
 OH. (hydroxyl radicals)
 H2O2 (hydrogen peroxide)

Question 39

2) oxygen independent

Answer 39

Enzymatic
 Lysozyme
 Hydrolytic enzymes e.g. defensins

Question 40

how is the cellular phase effective

Answer 40

1) Removal
• Pathogens
• Necrotic tissue

2) Release
• Inflammatory mediators

Question 41

chemical mediators

Answer 41

• Control and co-ordinate the inflammatory response
• Varying chemical structures
• Overlapping functions

Question 42

chemical mediators originate from

Answer 42

• Activated inflammatory cells
• Platelets
• Endothelial cells
• Toxins themselves

Question 43

chemical mediators which cause vasodilation

Answer 43

o Histamine
o Serotonin
o Prostaglandins
o Nitric oxide

Question 44

chemical mediators which cause leaky vessels

Answer 44

o Histamine
o Bradykinin
o Leukotrienes
o C3a and C5a

Question 45

chemical mediators which cause chemoattraction

Answer 45

o C5a
o TNF-a
o IL-a
o Bacterial peptides

Question 46

chemical mediators which cause increased body temp

Answer 46

o Prostaglandins
o Il-1
o Il-6
o TNF-a

Question 47

chemical mediators which cause pain

Answer 47

o Bradykinin
o Substance P
o Prostaglandins

Question 48

complications of acute inflammation can be

Answer 48

local or systemic

Question 49

local complications

Answer 49

• swelling
• exudate
• loss of fluid
• pain

Question 50

Swelling

Answer 50

o Compression of tubes e.g. airway (epiglottitis)/bile duct/intestines

Question 51

exudate

Answer 51

compression of organs e.g. cardiac tamponase

Question 52

loss of fluid

Answer 52

e.g. burns (die of severe dehydration)

Question 53

pain

Answer 53

muscle atrophy, psycho-social consequences etc

Question 54

systemic complications

Answer 54

• fever
• leucocytosis
• acute phase repsonse
• septic shock

Question 55

fever

Answer 55

o Brought about by chemical mediators – pyrogens
 E.g. prostaglandins, IL-1,IL-6 etc
 Act on hypothalamus to alter temperature
• Use NSAIDs
o Block COX enzymes (involved in production of prostaglandins)

Question 56

leucoytosis

Answer 56

o Leucoytosis
 Increased production of white cells
 Inflammatory mediators act on bone marrow promoting production of WBC in bone marrow
• WBC conc can be measured in blood

Question 57

Bacterial

Answer 57

• neutrophils

Question 58

Viral

Answer 58

• lymphocytes

Question 59

acute phase response

Answer 59

	Brought about by acute phase proteins e.g. CRP
•	Common blood test-marker of severity 
•	Useful in monitoring inflammation and infection (would expect CRP to come down with antibiotics)
•	Causes:
o	Malaise
o	Reduced appetite altered sleep
o	Tachycardia
	All induce rest

Question 60

septic shocj

Answer 60

	Huge release of chemical mediators
•	Widespread vasodilation
•	Hypotensions, tachycardia
o	Cant pump blood to the heart
•	Multi-organ failure
•	Can be fatal

Question 61

what happens after acute inflammation

Answer 61

(1) Complete resolution
o Mediators have short half lives – diluted, inactivated/ derailed
o Vessel calibre and permeability returns to normal
o Neutrophil undergoes apoptosis and get phagocytised
o Exudate drained

(2) Repair with connective tissue (fibrosis)- if there has been substantial destruction

(3) Progression to chronic inflammations
o Prolonged inflammation with repair

Question 62

appendicitis

Answer 62

o Blocked lumen (fecalith- hard faeces)
o Accumulation of bacteria and exudate
 Increased pressure and perforation

Question 63

pneumonia

Answer 63

o	Many causative organisms
	Streptococcus pneumoniae
	Haemophilus influenzae
o	Signs and symptoms:
	Shortness of breath
	Cough
	Sputum
	Fever
o	Risk factor:
	Pre-existing lung condition (COPD, asthma/ malignancy)

Question 64

bacterial meningitis

Answer 64

o	Brain covered by meninges
	Becomes infected
	E.g. Group B streptococcus
	E.coli
	Neisseria meningitides 
o	Signs and symptoms
	Headache
	Neck stiffness- meninges also cover spinal cord
	Photophobia
	Altered mental state
	Need immediate antibiotics

Question 65

abscess

Answer 65

accumulation of dead and dying neutrophils

o Associated with liquefactive necrosis

Question 66

inflammation of serous cavities

Answer 66

o Exudate pours into serous cavities (variety of causes)
 Pleural space= pleural effusion
 Peritoneal space= ascites
 Pericardial space= pericardial effusion

Question 67

rare inflammatory disorders

Answer 67

• Hereditary angio-oedema
• Alpha-1 antityrpisn deficiency
• Chronic granulomatous disease