Pathology - Viral Diseases

Question 1

Outcomes of acute infl

Answer 1

Resolution and healing
Continued acute infl
Abcess infl
Chronic infl

Question 2

Resolution and healing as a result of acute infl

Answer 2

Macrophages produce anti-infl cytokines

Question 3

Anti infl cytokines

Answer 3

IL-10

TGF-beta

Question 4

Continued acute infl as an outcome of acute infl

Answer 4

Persistent pus formation

Macrophages produce IL-8, which recruits additional neutrophils

Question 5

Abcess formation as an outcome of acute infl

Answer 5

Acute infl surrounded by fibroids

Macrophages produce fibrogenic growth factors and cytokines

Question 6

Chronic infl as an outcome of acute infl

Answer 6

Macrophages present antigen to activate CD4+ T-helper cells, which secrete cytokines promoting chronic infl

Question 7

Chronic infl

Answer 7

Response of prolonged period e.g. weeks or months

Question 8

What is the response causing chronic infl due to

Answer 8

Persistence of a stimulus, causing disordered homeostasis

Question 9

Causes of chronic infl

Answer 9

Persistent infection - most common
Autoimmune disease
Foreign materials
Carcinoma

Question 10

How does persistent infection cause chronic infl

Answer 10

Causes delayed type sensitivity

Question 11

Chronic infl cells

Answer 11

Macrophages
Lymphocytes
Plasma cells

Question 12

Macrophages as chronic infl cells

Answer 12

Dominant chronic infl cells
Phagocytosis
Display antigen to T-cells and respond to T cell signals and production of cytokines
Lifespan is several months or years

Question 13

Macrophage activation pathways

Answer 13

Classical

Alternative

Question 14

Classical macrophage activation pathways

Answer 14

M1 macrophages produce No and ROS and up regulate lysosomal enzymes, killing ingested organisms
They secrete cytokines and stimulate infl

Question 15

How is the classical macrophage activation pathway induced

Answer 15

Induced by bacterial products which engage toll-like receptors or by interferon-gamma produced by T cells

Question 16

How is the alternative macrophage activation pathway induced

Answer 16

By cytokines other than interferon-gamma e.g. IL-4 and 13, from T-cells

Question 17

Alternative macrophages activation pathway

Answer 17

M2 macrophages secrete growth factors promoting angiogenesis, fibroblast activation and collagen synthesis
Principal function is tissue repair

Question 18

T lymphocytes in acute infl

Answer 18

T-cell receptor undergoes gene rearrangement and progenitor cells become CD4+ or CD8+
T cells use TCR complex for antigen surveillance
Th1, Th2 and CD8+ all are activated

Question 19

Th1 cells in acute infl

Answer 19

Secreet interferon-gamma to recruit macrophages

Question 20

Th2 cells in acute infl

Answer 20

Involved in allergies

Can recruit eosinophils and cause B-lymphocytes to produce IgE

Question 21

CD8+ T cells in acute infl

Answer 21

Either release perforin and granzymes or bind FAS-ligand to FAS on target cells

Question 22

Perforin

Answer 22

Creates pores allowing granzyme to enter cell

Question 23

B lymphocytes in acute ink

Answer 23

Produced in bone marrow + undergo immunoglobulin gene rearrangement to become naïve B-cells, expressing IgM and IgD
Antigen binds to IgM or IgD, causing maturation of plasma cells

Question 24

Granuloma

Answer 24

Collection of activated macrophages or epithelioid histiocytes. Can be caseating or non-caseating

Question 25

Conditions associated w/ granulomatous infl

Answer 25

Foreign material 
Sarcoidosis 
Crohn’s disease 
Cat scratch disease 
Mycobacterial and fungal infection – caseating granulomas

Question 26

Granuloma formation

Answer 26

Macrophages process and present antigen on surface in association w/ MHC-II molecules to CD4+ helper T-cells
Macrophages secrete IL-2 causing CD4+ helper T-cells to differentiate into the Th1 subtype
Th1 cells secrete interferon gamma converted macrophages into epithelioid histiocytes and giant cells

Question 27

How is TB diagnosed

Answer 27

Clinical detection of interferon-gamma

Question 28

When is wound healing initiated

Answer 28

When infl begins

Question 29

What is replacement of damaged tissue dependent on

Answer 29

Regenrative capacity of the tissue

Question 30

Subtypes of tissue

Answer 30

Labile
Stable
Permanent

Question 31

Labile tissues

Answer 31

Possess stem cells that continuously cycle to regenerate tissue e.g. bowels (stem cells in mucosal crypts), skin (basal layer)

Question 32

Stable tissues

Answer 32

Cells that are quiescent (G0) but can re-enter cell cycle to regenerate tissue when necessary e.g. hepatocytes

Question 33

Permanent tissues

Answer 33

Lack significant regenerative potential e.g. myocardium

Question 34

Repair of damaged tissue

Answer 34

Replacement of damaged tissue w/ fibrous scar

Question 35

When does repair of damaged tissue occur

Answer 35

When regenrtauve stem cells are lost or when tissue lacks retentive capacity

Question 36

Initial stage of repair

Answer 36

Granulation

Question 37

What is granulation tissue comprised of

Answer 37

Proliferated capillaries (providing nutrients), fibroblasts (which deposit type III collagen) and myofibroblasts (which cause wound contraction)

Question 38

What happens in scar formation

Answer 38

Type III collagen is replaced w/ type I collagen

Collagenase removes type III collagen

Question 39

Type III collagen

Answer 39

Pliable

Present in embryonic tissue, granulation tissue and keloids

Question 40

Type I collagen

Answer 40

Has a high tensile strength

Present in skin, bone, tendons and in most organs

Question 41

How are mechanisms of tissue regeneration and repair mediated

Answer 41

Via paracrine signalling by growth factors (macrophages secrete growth factors which target fibroblasts)

Question 42

What does interaction of growth factors w/ receptors result in

Answer 42

Gene expression and cellular growth

Question 43

Mediators of repair

Answer 43

TGF - alpha 
TGF - beta 
Platelet Derived Growth Factors (PDGF)
Fibroblast Growth Factor (FGF)
Vascular Endothelial Growth Factor (VEGF)

Question 44

Function of TGF - alpha

Answer 44

Epithelial and fibroblast growth

Question 45

Function of TGF - beta

Answer 45

Fibroblast growth and inhibition of infl

Question 46

Function of PDGF

Answer 46

Growth of endothelium, smooth muscles and fibroblasts

Question 47

Function of FGF

Answer 47

Angiogenesis and skeletal development

Question 48

Function of VEGF

Answer 48

Angiogenesis

Question 49

Phases of wound healing

Answer 49

Coagulation phase
Infl phase
Proliferative/ granulation tissue phase
Remodelling phase

Question 50

Hypertrophic scar

Answer 50

Excess production of scar tissue localised to wound

Question 51

Keloid scar

Answer 51

Exuberant prediction of scar tissue that is out of proportion to the wound size. Excess type III collagen

Question 52

Reasons for delayed wound healing

Answer 52

Vitamin C and copper deficiency  
Zinc deficiency 
Infections 
Ischaemia 
Diabetes 
Malnutrition

Question 53

Why are vitamin C and Cu needed in wound healing

Answer 53

Collagen cross-linking

Question 54

Why is zinc needed in wound healing

Answer 54

Replacement if type II collagen w/ type I collagen

Question 55

Hypersensitivity reaction

Answer 55

Excessive immune reactions

Question 56

Causes of hypersensitivity

Answer 56

Autoimmunity – failure of self-tolerance
Reaction against environmental antigens – genetic predisposition
Reactions against microbes

Question 57

Reactions against microbes causing hypersensitivity

Answer 57

Excessive reaction forming excess immune complexes
T – cell responses against persistent microbes
T – cells or antibodies to microbes cross-react w/ host tissues
Normal reaction to virally infected cells

Question 58

Different hypersensitivity reactions

Answer 58

Type I
Type II
Type III
Type IV

Question 59

Type I hypersensitivity reaction

Answer 59

Anaphylaxis
Allergy
Asthma

Question 60

Type II hypersensitivity reaction

Answer 60

(Cytotoxic)

Haemolytic anaemia

Question 61

Type III hypersensitivity reaction

Answer 61

(Immune complex mediated)

SLE

Question 62

Type IV hypersensitivity reaction

Answer 62

(T-cell mediated)
RhA
Psoriasis

Question 63

What are autoimmune disorders characterised by

Answer 63

Immune mediated damage of self tissues
Involves loss of self-tolerance
Clinically progressive w/ relapses and remissions

Question 64

Aetiology of autoimmune disorders

Answer 64

Likely to be an environmental trigger in genetically susceptible individuals

Question 65

Where can self-reactive lymphocytes develop

Answer 65

Central (thymus and bone marrow) or peripheral tolerance

Question 66

What does central tolerance in the thymus lead to

Answer 66

T-cell apoptosis or generation of regulatory T-cell – stop autoimmunity by blocking T – cell activation and producing anti-infl cytokines

Question 67

What does central tolerance in the bone marrow lead to

Answer 67

Receptor editing or B-cell apoptosis

Question 68

What does peripheral tolerance lead to

Answer 68

Energy or apoptosis of T and B cells

Question 69

Anergy

Answer 69

Functional inactivation rather than death