Pathology

Question 1

What is pathology?

Answer 1

The study of disease.

Question 2

What is aetiology?

Answer 2

The cause.

Question 3

What is the difference between a symptom and a sign?

Answer 3

Symptom is what the patient complains of.

Sign is what the professional detects.

Question 4

What is an idiopathic pathology?

Answer 4

The cause is unknown.

Question 5

What is a iatrogenic pathology?

Answer 5

Caused by medial intervention.

Question 6

What is the pneumonic for the surgical sieve? Describe each step.

Answer 6

VIITAMIN:
Vascular,
Infective,
Inflammatory,
Trauma,
Auto-immune,
Metabolic,
Idiopathic,
Iatrogenic,
Neoplastic.

Question 7

Name the two lineages of defence cells.

Answer 7

Myeloid and Lymphoid.

Question 8

What type of cell can come from either lineage?

Answer 8

Dendritic cells

Question 9

What defence cells are from myeloid origin?

Answer 9

Neutrophils,
macrophages,
mast cells,
eosinophils and basophils.

Question 10

What defence cells are from lymphoid origin?

Answer 10

T cells, B cells and natural killer cells.

Question 11

All myeloid cells are?

Answer 11

Granulocytes: Contain antimicrobial enzymes

Question 12

What is the most numerous myeloid cell in the innate response?

Answer 12

Neutrophil (white blood cell)

Question 13

What are monocytes?

Answer 13

Macrophage precursor.

Question 14

What myeloid cells have a role in allergy?

Answer 14

Mast cells and basophils.

Question 15

What is the function of dendritic cells?

Answer 15

Present antigens directly to T cells. (Sometimes B)

Question 16

Where are T cells DERIVED from?

Answer 16

Bone marrow.

Question 17

Where do T cells mature?

Answer 17

Thymus.

Question 18

Where are mature T cells found?

Answer 18

Lymphoid organs.

Question 19

What cells are important for immunological memory?

Answer 19

Both B and T cells.

Question 20

What are the two types of T cells?

Answer 20

CD4 and CD8

Question 21

What do CD8 T cells interact with?

Answer 21

MHC class 1

Question 22

What do CD4 T cells interact with?

Answer 22

MHC class 2.

Question 23

Where do B cells mature?

Answer 23

Bone marrow.

Question 24

Where are mature B cells found?

Answer 24

In lymphoid organs, close to T cells.

Question 25

What cells are phagocytic?

Answer 25

Neutrophils, macrophages, tissue dendritic cells and mast cells.

Question 26

What cells fight parasites?

Answer 26

Eosinophils and basophils.

Question 27

What is the innate response?

Answer 27

The immediate response.

Question 28

What does secretory IGA bind to?

Answer 28

Antigens, flagella (preventing motility), toxins (neutralising them), itself (forming a net) and adhesion molecules (prevents adhesive properties of bacteria.

Question 29

What occurs in the early induced innate response?

Answer 29

Mediators are released, phagocytosis is promoted and the cell is induced to express cytokines and chemokines.

Question 30

What are cytokines?

Answer 30

Small proteins.

Act as signalling molecules that coordinate immune responses.

Question 31

Name the 3 ways in which the cytokines can act? (Hint: ‘Crine’)

Answer 31

Autocrine: Alters behaviour of the cell they were secreted into.
Paracrine: Alters behaviour of neighbouring cells.
Endocrine: Enters the circulation and alters the behaviour of distant cells.

Question 32

What is the purpose of chemokines?

Answer 32

Recruit immune cells and dictate where they travel to.

Question 33

Where are leukocytes found?

Answer 33

In veins.

Question 34

Explain neutrophil migration, more specifically the rolling mechanism.

Answer 34

Leukocytes interact with receptors on the endothelium surface of the blood vessel.
Continuous weak binding creates a rolling mechanism.
The leukocyte encounters a different receptor ICAM-1 that creates tighter binding (rolling stops.)
A signal is then sent that loosens the endothelial cell attachment.
Diapedesis occurs - neutrophil pulled though the endothelial cell wall.

Question 35

Name the roles of neutrophils. (3)

Answer 35

Engulf and destroy pathogens.
Degranulation ( release granules that assist phagocytosis)
Create neutrophil extraceluler traps.

Question 36

Name the 3 complement initiating pathways.

Answer 36

Classical: Antigen and antibody.
Alternative: Microbial cell wall (foreign cell surface)
Mannose: Carbohydrates on pathogen surface.

Question 37

What region of a T cell presents an antigen binding site.

Answer 37

Variable region.

Question 38

With regards to T cell diversity; what are the genes of the alpha section of the variable region?

Answer 38

Variable and joining.

Question 39

With regards to T cell diversity; what are the genes of the beta section of the variable region?

Answer 39

Variable, diversity and joining.

Question 40

Explain thymic education of T cells.

Answer 40

T cells move into the thymus expressing CD4 and 8 at low levels.
T cells move to the cortex where there are many epithelial cells expressing MHC class 1 and 2 cells.
Those T cells that can’t bind to to the MHC cells undergo apoptosis. POSITIVE SELECTION.
If the T cell binds to MHC class1 it will produce CD8 and stop producing CD4.
If T cells bind to self antigens they undergo apoptosis.
NEGATIVE SELECTION: If the T cells don’t bind to self antigens they can proceed into the body.

Question 41

When are T cells deemed mature?

Answer 41

Once they have come into contact with a foreign antigen.

Question 42

In terms of priming naive CD4 T cells; what dictates the type of T cell produced?

Answer 42

The cytokines produced (the 3rd signal)

Question 43

What process results in memory cells being produced?

Answer 43

Priming.

Question 44

How long do memory cells survive for?

Answer 44

up to 20 years.

Question 45

In terms of B cell diversity; what is the heavy chain composed of?

Answer 45

Rearrangement of Variable, diversity and joining genes.

Question 46

In terms of B cell diversity; what is the light chain composed of?

Answer 46

Rearrangement of Variable and joining genes.

Question 47

What selection do B cells undergo in maturation?

Answer 47

Negative selection.

If they don’t bind to self antigens they can enter the body systems.

Question 48

Name the 2 activated forms of the B cell.

Answer 48

Thymus dependant:T cells assist.

Thymus indépendant: No help required.

Question 49

Where does the Thymus dependant stage occur?

Answer 49

In the Thymus.

Question 50

Where does the Thymus independent stage occur?

Answer 50

The periphery

Question 51

What is the stronger form of the antibody IgM?

Answer 51

IgG

Question 52

What do Thymus independent cells differentiate into?

Answer 52

Plasma cells.

Question 53

What do thymus independent cells lack the ability to do?

Answer 53

Create immunological memory.

Question 54

Name the 3 processes of accute inflammation.

Answer 54

Vascular dilation.
Increased vascular permeability.
Neutrophil activation and migration.

Question 55

What occurs in the vascular response? (3)

Answer 55

Small vessels dilate.
Endothelial cells swell and retract. Promotes immune cell passage.
Exudation. Leaky passage of water, salts and proteins.

Question 56

Name the mediators of acute inflammation.

Answer 56

Histamine and prostaglandins.

Question 57

What is the function of the histamine mediator?

Answer 57

Acts as a neurotransmitter.

Promotes vasodilation and retraction of endothelial cells.

Question 58

What is the function of the prostaglandin mediator?

Answer 58

Regulates cytokine and chemokine production.
Acts on nerve fibres to generate pain.
Tissue remodelling.

Question 59

What enzyme regulates the prostaglandin mediator?

Answer 59

Cyclo-oxygenase 2

Question 60

What is the role of Bradykinin (plasma factor) in innate immunity?

Answer 60

Vascular permeability.
Stimulates nerves = pain
Expression of cytokines and chemokines.
Production of chemical mediators.

Question 61

What human factor is active in intrinsic coagulation?

Answer 61

Human factor 12.

blood comes into contact with endothelial connective tissue

Question 62

What human factor is active in Extrinsic coagulation?

Answer 62

Human factor 7.

Blood vessel damage

Question 63

What enzyme turns fibrinogen into fibrin?

Answer 63

thrombin.

Question 64

What deficiency do you have if you have haemophilia A?

Answer 64

Factor 8.

Question 65

What deficiency do you have if you have haemophilia B?

Answer 65

Factor 9.

Question 66

What characterises the Von Willebrand disease?

Answer 66

Deficiency in the Von Willebrand protein that stabilises factor 8.

Question 67

What are the two outcomes of acute inflammation?

Answer 67

Suppuration: Pus formed by pyogenic bacteria.
Resolution: Tissue restored, rapid elimination of the causative agent.

Question 68

What is pus surrounded by to prevent spread?

Answer 68

Pyogenic membrane.

Question 69

What process occurs in unison with chronic inflammation.

Answer 69

The healing process.

Question 70

Name the classes of chronic inflammation. (2 and the subset)

Answer 70

Specific
Non-specific
Granulomatous. (specific subset)

Question 71

What type of chronic inflammation flares up regularly?

Answer 71

Non-specific.

Question 72

What is specific chronic inflammation induced by?

Answer 72

Immunological factors:
Asbestos and foreign body reactions.
Non-immunological factors:
Infective organisms, hypersensitivity, autoimmune.

Question 73

I general; What is specific chronic inflammation driven by? Name the two subsets.

Answer 73

Macrophages.

M1 and M2.

Question 74

What drives chronic granulomatous inflammation?

Answer 74

Fused epithelioid macrophages. ‘Giant multinucleate cells’

Question 75

What is oral Crohn’s/ orofacial granulomatosis?

Answer 75

Granulomas of the soft tissue within the oral cavity.

Question 76

What causes an autoimmune disease?

Answer 76

Breach of tolerance to self antigens; breakdown of immunoregulatory check points.

Question 77

Give examples of autoimmune diseases.

Answer 77

Psoriasis, Crohn’s, sjogrens syndrome and rheumatoid arthritis.

Question 78

What are the symptoms of sjogrens syndrome? Why do these symptoms occur.

Answer 78

Xerophthalmia and xerostomia.

Autoantigen attacks lacrimal and salivary gland tissue. (Auto-antibodies against ribonucleoproteins)

Question 79

In periodontitis; What drives soft tissue destruction?

Answer 79

Metalloproteinases, ROS and RNS.

Question 80

What is the purpose of metalloproteinases?

Answer 80

Remodel the fibres in the extracellular matrix. Also used for navigation.

Question 81

What enzyme breaks down the block on pro-MMPs?

Answer 81

Plasmin.

Question 82

What regulates pro-MMPs?

Answer 82

Cytokines called TIMPS. (Makes MMPs inactive again by putting the block back on)

Question 83

ROS and RNS are free radical that..

Answer 83

Damage membranes of self cells.
Cause damage to the mitochondria.
Cause damage to DNA within cells.

Question 84

In periodontitis; what drives hard tissue loss?

Answer 84

Primarily (excessive) RANKL but also (lack of) OPG.

Question 85

How does osteoclastogenesis operate?

Answer 85

RANK on infant osteoclasts becomes activated when it binds to a ligand. Starts tp resorb bone.

Question 86

How does osteoblastogenesis operate?

Answer 86

OPG inhibits the RANKL molecule. Once molecule inhibited the osteoblast comes in to repair the lost bone.

Question 87

What is an opportunistic pathogen?

Answer 87

Micro-organism will cause disease if exposed to the appropriate environmental stimuli.

Question 88

Define an endogenous infection.

Answer 88

Microbe originates from the patients own flora.

Question 89

Define an exogenous infection.

Answer 89

Microbe originates from outside the patients body.

Question 90

What protein helps E.coli bind?

Answer 90

Tamm-Horsfall

Question 91

What feature of bacteria help them attach to mucosa (i.e. bladder) regardless of the immune response?

Answer 91

Pili

Question 92

Name some encapsulated infections.

Answer 92

Meningitis, pneumonia.

Question 93

List what benefits microbes have from being encapsulated. (3)

Answer 93

Capsule prevents immune response from taking action.

Uses the capsule to adhere to surfaces.

Antibodies can’t detect the capsulated organisms.

Question 94

What is an endotoxin?

Answer 94

A toxin that is released from the cell wall of the bacteria.

Question 95

Endotoxins are released from what type of bacteria?

Answer 95

Gram negative

Question 96

What is an exotoxin?

Answer 96

A toxin that is released from the bacteria.

Question 97

Exotoxins are released from what type of bacteria?

Answer 97

Gram postive.

Question 98

What toxin is far more dangerous? (Ends/Exo)

Answer 98

Exotoxin

Question 99

What is LPS: Lipopolysaccharide?

Answer 99

An endotoxin released by gram negative bacteria.

Question 100

How does LPS cause toxic shock syndrome?

Answer 100

LPS recognised by white blood cells, the cells release signals that cause unregulated coagulation.

Question 101

What are the two healing outcomes?

Answer 101

Healing by regeneration.

Healing by repair.

Question 102

What occurs in healing by regeneration?

Answer 102

Replaced with functional cells, exact same tissue/structure restored.

Question 103

What occurs in healing by repair?

Answer 103

Forms a scar, normal structure permanently altered.

Question 104

What does the outcome of acute inflammation healing depend on?

Answer 104

Severity, location and tissue type.

Question 105

What does chronic inflammation result in?

Answer 105

Fibrosis.

Question 106

What cells shrink the wound?

Answer 106

Myofibroblasts, have contractile properties.

Question 107

Describe the process of wound healing.

Answer 107

Hemostasis: Clot formation.

Inflammatory response.

Proliferate: Granulation tissue creates the foundation for new tissues.

Remodelling: Maturation.

Question 108

What kind of wounds can result in healing by primary intentions?

Answer 108

Neat cuts.

Question 109

What kind of wounds can result in healing by secondary intentions?

Answer 109

less neat, ‘raggy’ cuts

Question 110

Describe healing by secondary intentions.

Answer 110

Larger scab

More inflammation due to larger amounts of necrotic tissue.

Larger amounts of granulation tissue (foundation tissue)

Wound contraction by myofibroblasts.

Question 111

Name and describe the 2 stages of the proliferation phase.

Answer 111

1: Vascular.
New capillaries produced.

2: Fibrous
Mature fibroblasts lay down collagen. (forms the early scar)

Question 112

What is angiogenesis?

Answer 112

Formation of new capillaries.

Question 113

Name the 2 mechanisms of capillary formation.

Answer 113

Sprouting

Intussusceptive

Question 114

What are both mechanisms of angiogenesis controlled by?

Answer 114

VEGF

Question 115

Explain fracture healing.

Answer 115

Inflammation: Blot clot forms, inflammatory cells migrate to remove debris.

Soft callus: Chondrocytes lay down collagen. Cell division and blood vessels form.
(Triggered by inflammation)

Hard callus: Odontoblasts activated. Lay down mineralised bone.
(woven bone: spongy and hard bone)

Remodelling: Cortical bone replaces softer bone. No scar on the bone due to constant remodelling.

Question 116

Define chronic inflammation.

Answer 116

Extensive deposition of collagen and formation of extra fibrous connective tissue.

Question 117

What can chronic inflammation be caused by?

Answer 117

Dysregulated healing.
Repeated damage.
Substantial damage.

Question 118

Define hypersensitivity.

Answer 118

Exaggerated immune response to a foreign agent.

Question 119

Define allergen.

Answer 119

Antigen that causes a reaction.

Question 120

Define allergy.

Answer 120

Immunological reaction.

Question 121

How many types of hypersensitivity is there?

Answer 121

4

Question 122

What type(s) of hypersensitivity are mediated by IgE?

Answer 122

Type 1

Question 123

What type go hypersensitivity causes anaphylaxis?

Answer 123

Type 1

Question 124

What is the function of a Hapten?

Answer 124

When bound to proteins can stimulate antibody formation.

Question 125

Name an example of a drug that can act as a hapten.

Answer 125

Penicillin

Question 126

What are the 2 steps in IgE mediated reaction? (hypersensitivity 1)

Answer 126

Sensitisation: Primed to response to the allergen.

Elicitation: Response is degranulation.

Question 127

Name the 2 responses in IgE mediated hypersensitivity (1).

Answer 127

Cutaneous atrophy:
‘wheal and flare’

Systemic anaphylaxis:
Degranulation all over the body.

Question 128

Describe the 3 fatal reactions of systemic anaphylaxis.

Answer 128

Laryngeal oedema = suffocation

Bronchiole constriction = suffocation.

Peripheral oedema = hypertension/heart attack.

Question 129

How is type 1 allergy tested?

Answer 129

Skin prick: ‘wheal’ appears
Patch test
Blood test: IgE levels tested
Food challenge

Question 130

How do you treat type 1 hypersensitivity reactions? (3)

Answer 130

Antihistamines.

Adrenaline injections: Relaxes muscles. Reduces effect of degranulation.

Hyposensitisation: Repeated injection of the allergen cause IgE to change to IgG.

Question 131

Describe how anti-histamines work.

Answer 131

(Histamines constantly switching from the active form to the inactive form.)

Anti-histamines stabilise the inactive form.

Question 132

What are type 2 sensitivity reactions mediated by?

Answer 132

IgM or IgG.

Question 133

Where do type 3 hypersensitivity reactions occur?

Answer 133

In the vasculature.

Question 134

What occurs in the vasculature in type 3 reactions.

Answer 134

Anti-body antigen clumps deposit in vessels.

To eradicate the clumps there is an influx of immune cells.

Immune cell influx damage the blood vessels.

Question 135

Arthur reaction is an example of a type 3 reaction, what causes this?

Answer 135

Insect bit or injecting the antigen.

Question 136

Serum sickness is an example of a type 3 reaction, what causes this?

Answer 136

Hypersensitivity reaction to penicillin.

Question 137

Oral erythema multiform is an example of a type 3 reaction, what causes this?

Answer 137

Response to drugs that act as a Hapten.

Causes blistering of the mucosa.

Question 138

What is Type 4 hypersensitivity mediated by?

Answer 138

Not antibody mediated. Mediated by T cells.

Question 139

What does type 4 involve?

Answer 139

CD4 and CD8 (from T cells)

Question 140

What is caused by type 4 hypersensitivity?

Answer 140

Crohns and TB. (granuloma formation)

Question 141

Name the anaphalatoxins from the complement pathway?

Answer 141

C3a and C5a (byproducts)

Question 142

List the 5 cardinal signs of inflammation.

Answer 142

Redness: Rubor
Swelling: Tumor 
Heat: Calor
Pain: dolor
loss of function

Question 143

Name 2 cells with antigen presenting capabilities.

Answer 143

Macrophages

Dendritic cells

Question 144

What is the major role of natural killer cells?

Answer 144

Kill abnormal self-cells (tumour/virus infected)

Question 145

Name 2 constituents of healthy saliva that have anti-microbial properties.

Answer 145

Lactoferrin
Cystitis
Antimicrobial peptides.

Question 146

Name a pattern recognition receptor capable of recognising and responding to bacterial antigens.

Answer 146

Toll-like receptors.

Question 147

What is diapedesis?

Answer 147

Blood cells squeeze through tight endothelial cell junctions.

Question 148

What are the 3 specific signals CD4 T lymphocytes require to become activated?

Answer 148

1: Peptide antigen, presented by MHC class 2, intetacts with cognate T cell receptor.
2: CD28 interacts with CD80/86 expressed on mature dendritic cells.
3: Cytokines (differentiation)

Question 149

What class of antibody is predominant in a secondary immune response?

Answer 149

IgG.

Question 150

Where does T cell tolerance occur/maturation?

Answer 150

Thymus

Question 151

What is the term for the leaking of inflammatory exudate from blood vessels to surrounding tissues?

Answer 151

Oedema.

Question 152

In chronic inflammation; what molecule inhibits RANKL and derives osteoblast function?

Answer 152

Osteoprotogerin (OPG)

Question 153

In which stage of wound healing is granulation tissue formed?

Answer 153

Proliferative.

Question 154

In fibrosis; what is there extensive deposition of?

Answer 154

Collagen

Question 155

Name 2 microscopical characteristics of a cellular reversible injury.

Answer 155

Cloudy swelling

Fatty changes

Question 156

Which virus can induce epithelial hyperplasia?

Answer 156

HPV

Question 157

Name the 4 enzymatic cascades.

Answer 157

Complement.
Kinin
Coagulation
Fibrinolysis.

Question 158

In the complement cascade (plasma factor) what is the role of MAC: membrane attack complex?

Answer 158

Creates a pore in the cell membrane.

Question 159

In CD4 T cell priming; What signal determines the subset?

Answer 159

Signal 3/last signal.

Question 160

Name the 5 CD4 T cell subsets and their functions.

Answer 160

TH1: Supports innate immune response at the site of infection.

TH17: Supports innate response. Release-inflammatory cytokines.

TH2: Communication between T and B cells.

TFH: Communication between T and B cells.

Treg: Switch off T cell responses. Growth factors released that drives healing.

Question 161

Both TH2 and T follicular help cells allow communication between T and B cells, how do we distinguish between them?

Answer 161

TH2: Communication occurs OUTWITH the lymph node.

TFH: Communication occurs within the lymph node.

Question 162

Name 2 differences between acute and chronic inflammation.

Answer 162

Acute:

Generalised response, no long lasting immunity.

Question 163

Name 2 organisms responsible for periodontitis.

Answer 163

P.Gingivalis.

T.Forsythia.

Question 164

List the roles of macrophages.

Answer 164

Phagocytosis, clear debris.

Antigen presentation.

Question 165

What is the main function of a plasma cell?

Answer 165

Antibody secretion.