Immunology

Question 1

What key feature must the immune system have?

Answer 1

Ability to discriminate between self and non-self.

Question 2

List 6 features of innate immunity.

Answer 2

1) non-specific
2) instinctive (from birth)
3) rapid response (hours)
4) no memory - resistance doesn’t improve
5) limited-range of antigen recognition - can be evaded
6) neutrophils, macrophages, natural killer cells

Question 3

List 6 features of adaptive immunity.

Answer 3

1) specific
2) acquired
3) slow response (days-weeks)
4) memory - resistance improves
5) wide-range of antigen recognition
6) T lymphocytes and B lymphocytes

Question 4

What is the lifespan of a neutrophil?

Answer 4

6 hours - 12 days.

Question 5

List 2 functions of neutrophils.

Answer 5

1) phagocytosis - innate immunity

2) granule secretion - innate immunity

Question 6

What is the lifespan of monocytes?

Answer 6

Months.

Question 7

List 2 functions of monocytes.

Answer 7

1) phagocytosis (pathogens or damaged/necrosed)- innate immunity
2) antigen presentation - adaptive immunity

Question 8

List 4 types of receptors found on monocytes.

Answer 8

1) antibody Fc receptors
2) complement receptors
3) toll-like receptors (TLR)
4) mannose receptors

Question 9

What is the relationship between monocytes and macrophages?

Answer 9

Monocytes differentiate into macrophages in tissues.

Question 10

What is the lifespan of a macrophage?

Answer 10

Months - years.

Question 11

List 2 functions of macrophages.

Answer 11

1) phagocytosis (pathogens or damaged/necrosed) - innate immunity
2) antigen presentation - adaptive immunity

Question 12

List 4 receptors found on macrophages.

Answer 12

1) antibody Fc receptors
2) complement receptors
3) toll-like receptors (TLR)
4) mannose receptors

Question 13

What molecule is found in monocyte and macrophage lysosomes that help phagocytosis?

Answer 13

Peroxide, oxygen molecule with an extra electron pair.

Question 14

What is the lifespan of an eosinophil?

Answer 14

8-12 days.

Question 15

What is the function of eosinophils?

Answer 15

Immunity to parasitic infections and allergic reactions.

Question 16

What is MBP?

Answer 16

Major basic protein. Protein secreted from eosinophil granules.

Question 17

List 4 functions of MBP.

Answer 17

1) activate neutrophils
2) induce histamine release from mast cells
3) induce bronchospasm (in allergy)
4) potent toxin for helminth worms

Question 18

What is the lifespan of basophils?

Answer 18

2 days.

Question 19

What is the difference between basophils and mast cells?

Answer 19

Basophils circulate in the blood whilst mast cells are fixed in tissue.

Question 20

What is the function of basophils and mast cells?

Answer 20

Immunity to parasitic infections and (the main cause of) allergic reactions.

Question 21

What do basophils and mast cells express a lot of?

Answer 21

High affinity IgE receptors.

Question 22

What happens when IgE bind to basophils or mast cells?

Answer 22

De-granulation, releasing histamine, causing an allergic reaction.

Question 23

What is the lifespan of T lymphocytes?

Answer 23

Hours - years.

Question 24

List the 5 types of T lymphocyte.

Answer 24

1) helper T 1
2) helper T 2
3) cytotoxic T
4) natural killer T
5) T reg

Question 25

What is the basic function of helper T 1 lymphocytes?

Answer 25

Help cell-mediated response against intracellular pathogens.

Question 26

What is the basic function of helper T 2 lymphocytes?

Answer 26

Help humoral response against extracellular pathogens.

Question 27

What is the basic function of cytotoxic T lymphocytes?

Answer 27

Kill cells via apoptosis.

Question 28

What is the basic function of T reg lymphocytes?

Answer 28

Regulate and dampen immune responses.

Question 29

What is the lifespan of B lymphocytes?

Answer 29

Hours - years.

Question 30

Describe the function of B lymphocytes. (4)

Answer 30

1) express a specific antibody on membrane surface
2) recognise antigens presented by antigen presenting cells via specific antibody
3) differentiate into plasma cell
4) secrete antibodies

Question 31

What is the basic function of natural killer lymphocytes?

Answer 31

Kill virus-infected or tumour cells via apoptosis.

Question 32

List 2 functions of dendritic cells?

Answer 32

1) antigen presenting cells (APC) - activate T lymphocytes

2) secrete cytokines - promote B lymphocytes activation and differentiation

Question 33

Where are dendritic cells found? (5)

Answer 33

Tissues that have contact with the outside environment, e.g.

1) skin
2) nose
3) lungs
4) stomach
5) intestines

Question 34

What is the complement system?

Answer 34

Complex series of interacting plasma proteins that enhance the immune response.

Question 35

Where are complement proteins formed?

Answer 35

Liver.

Question 36

How many complement proteins are there?

Answer 36

Over 30.

Question 37

Give a basic description of the complement system. (3)

Answer 37

1) exist as inactive precursors
2) once activated, behave as an enzyme to cleave the next complement in the series
3) each precursor is cleaved into an minor fragment (a) and a major fragment (b)

Question 38

What is the general function of ‘a’ fragments?

Answer 38

Enhance inflammation.

Question 39

What are the 2 functions / active sites of ‘b’ fragments?

Answer 39

1) bind to cell membranes

2) enzymatic cleavage of the next complement precursor

Question 40

List 3 functions of the complement system when activated by contacting a foreign antigen.

Answer 40

1) lyse microbes - MAC
2) opsonisation
3) increase inflammation

Question 41

List 3 ways complement system increases inflammation.

Answer 41

1) increase vascular permeability
2) stimulate chemotaxis
3) stimulate mast cells to secrete histamine (a fragments, esp. C3a and C5a)

Question 42

What is the critical step in activation of the complement system?

Answer 42

Cleavage of C3 by C3 convertase.

Question 43

List 3 routes to cleave C3.

Answer 43

1) classical (antibody dependant) - C4bC2a
2) alternative (antibody independent) - C3bBb
3) lectin (antibody independent) - C4bC2a

Question 44

Describe how opsonisation helps phagocytosis. (4)

Answer 44

1) C3b bind to pathogen surface via thioester bond - coating pathogen surface (opsonisation)
2) C5a binds to macrophage C5a receptor - recruitment
3) C3b (on pathogen) bind to macrophage CR1 receptor
4) macrophage phagocytoses pathogen more easily

Question 45

What is the function of MAC?

Answer 45

Membrane attack complex, lyse bacteria.

Question 46

Describe the formation of the membrane attack complex (MAC). (3)

Answer 46

1) C3b binds to C3 convertase forming C3/C5 convertase
2) C3/C5 convertase can cleave C3 or C5
3) C5b initiates the formation of MAC

Question 47

Define immunoglobulins.

Answer 47

Soluble glycoproteins secreted by plasma cells.

Question 48

Define epitope.

Answer 48

Part of the antigen that binds to the immunoglobulin binding site.

Question 49

Define affinity.

Answer 49

Measure of binding strength between epitope and immunoglobulin binding site.

Question 50

What is the function of immunoglobulin Fab regions?

Answer 50

Antigen recognition. Bind to specific antigens.

Question 51

What is the function of immunoglobulin Fc regions?

Answer 51

Antigen elimination. Bind to Fc receptors on phagocytes and natural killer cells.

Question 52

How many types of heavy chain are there?

Answer 52

5.

Question 53

How many types of light chain are there?

Answer 53

2.

Question 54

List the 5 classes of immunoglobulins.

Answer 54

1) IgA
2) IgD
3) IgE
4) IgG
5) IgM

Question 55

What percentage of immunoglobulins do each class make up?

Answer 55

1) IgG - 70-75%
2) IgA - 15%
3) IgM - 10%
4) IgD - 1%
5) IgE - 0.05%

Question 56

Which immunoglobulin class is predominantly found in mucous secretions?

Answer 56

IgA. E.g. saliva, colostrum, milk and bronchiolar secretions.

Question 57

Which immunoglobulin class is a pentamer of IgG?

Answer 57

IgM, i.e. has 10 antigen binding sites

Question 58

What is the function of IgD?

Answer 58

B-cell antigen receptors (i.e. on naive B cells).

Question 59

Which immunoglobulin class provides immune protection to the neonate and why?

Answer 59

IgG, as it is the only immunoglobulin that can pass through the placenta.

Question 60

List 7 functions of immunoglobulins.

Answer 60

1) neutralise toxins by binding to them (IgG and IgA)
2) immobilise motile microbes (IgM)
3) activate complement system (IgG and IgM)
4) enhance phagocytosis (IgG and IgA)
5) release inflammatory mediators (IgE)
6) enhance killing of infected cells (IgG)
7) increase opsonisation (all)

Question 61

Define cytokines.

Answer 61

Soluble proteins secreted by immune cells that signal between cells.

Question 62

List 5 types of cytokines.

Answer 62

1) chemokines
2) interleukins
3) interferons
4) colony stimulating factors (CSF)
5) tumour necrosis factors (TNF)

Question 63

List 3 common features of cytokines.

Answer 63

1) short half-lives
2) rapid degradation
3) affect multiple organs

Question 64

Define chemokines.

Answer 64

Cytokines that induce chemotaxis of leukocytes.

Question 65

From where to where do chemokines stimulate movement of immune cells?

Answer 65

From blood stream to infected/inflamed tissue or lymph nodes.

Question 66

How many types of chemokine are there?

Answer 66

Over 40.

Question 67

List the 4 main chemokines.

Answer 67

1) CXCL - neutrophils (+lymphocytes)
2) CCL - monocytes, lymphocytes, basophils and eosinophils
3) CX3CL - T and NK lymphocytes
4) XCL - T lymphocytes

Question 68

Describe the function of interferons. (2)

Answer 68

1) induce antiviral resistance in uninfected cells

2) limit spread of viral infection

Question 69

List the 3 types of interferon and where there produced.

Answer 69

1) IFN α - virus infected cells
2) IFN β - virus infected cells
3) IFN γ - T helper 1 cells

Question 70

What is the function of colony stimulating factors?

Answer 70

Direct division and differentiation of bone marrow stem cells.

Question 71

What is the function of tumour necrosis factors?

Answer 71

Mediate inflammation and cytotoxic reactions.

Question 72

Define interleukins.

Answer 72

Cytokines that act between immune cells.

Question 73

How many types of interleukins are there?

Answer 73

Over 30. Some pro-inflammatory (IL1) and some anti-inflammatory (IL-10).

Question 74

List 3 things interleukins cause cells to do.

Answer 74

1) divide
2) differentiate
3) secrete factors

Question 75

List 5 barriers in innate immunity.

Answer 75

1) skin (dermis + epidermis)
2) mucous secretions (e.g. saliva , sebum or tears)
3) cilia
4) pyrexia
5) gastric acidity

Question 76

Define pattern associated molecular patterns (PAMPs).

Answer 76

General molecular features common to many types of pathogen.

Question 77

What is the classical PAMP?

Answer 77

Lipopolysaccharide (LPS).

Question 78

What are pattern recognition receptors (PRRs)?

Answer 78

Proteins that recognise and bind to PAMPs.

Question 79

What are the 2 forms of PRRs?

Answer 79

1) secreted/circulating

2) cell-associated (more traditional)

Question 80

What is the general function of most PRRs?

Answer 80

Drive cytokine production in antigen-presenting cells to increase the likelihood of T cell activation.

Question 81

List 5 examples of secreted/circulating PRRs.

Answer 81

1) defensins
2) cathelicidin
3) lectins
4) collectins
5) pentraxins

Question 82

What is the function of defensins and cathelicidin.

Answer 82

Disrupt bacterial membranes.

Question 83

List 2 cells that secrete defensins and cathelicidin.

Answer 83

1) phagocytes

2) epithelia

Question 84

What is the function of pentraxins, lectins and collectins.

Answer 84

Activate complement system.

Question 85

List 3 cell-associated PRRs.

Answer 85

1) toll-like receptors (TLRs)
2) nod-like receptors (NLRs)
3) rig-like helicase receptors (RLRs)

Question 86

List 3 cells TLRs are found on.

Answer 86

1) neutrophils
2) macrophages
3) dendritic cells

Question 87

List 3 things recognised by TLRs.

Answer 87

1) PAMPs (e.g. LPS, nucleic acids and flagellum proteins)
2) endogenous damage molecules
3) host molecules in unfamiliar contexts

Question 88

How many TLRs are there?

Answer 88

Around 10. TLR4 is the archetypal TLR.

Question 89

List 2 functions of TLRs.

Answer 89

1) secretion of inflammatory mediators (e.g. IL1, IL2, TNFα)

2) initiate tissue repair —> in response to damage

Question 90

List 2 things detected by NLRs.

Answer 90

1) intracellular microbial pathogens

2) peptidoglycan (and breakdown products, e.g. muramyl dipeptide (MDP))

Question 91

What is peptidoglycan?

Answer 91

A glycoproteins that forms the outer membrane of bacteria.

Question 92

List the 3 most common NLRs.

Answer 92

1) NOD1
2) NOD2 (widespread expression)
3) NLPR3

Question 93

List 2 functions of NLRs.

Answer 93

1) activate inflammatory signalling

2) activate antiviral signalling

Question 94

List the 2 most common RLRs.

Answer 94

1) RIG-I

2) MDA5

Question 95

What do RLRs detect?

Answer 95

Intracellular double stranded viral DNA and RNA.

Question 96

What do RLRs couple with effectively and why?

Answer 96

Interferon production. To enable the antiviral response.

Question 97

List the 2 killing pathways used by macrophages and neutrophils.

Answer 97

1) oxygen dependent

2) oxygen independent

Question 98

List the 2 oxygen dependent reactive oxygen intermediates.

Answer 98

1) hydroxyl free radical

2) nitric oxide

Question 99

List 4 O2 independent methods of killing pathogens.

Answer 99

1) enzymes
2) lysozymes
3) pH
4) TNF

Question 100

List 2 reasons why adaptive immunity is necessary.

Answer 100

1) microbes evade innate immunity

2) need memory to specific antigens —> faster and stronger response

Question 101

List 2 cell groups of cell-mediated immunity.

Answer 101

1) antigen-presenting cells (APCs): dendritic cells, macrophages and B cells
2) T cells

Question 102

What are major histocompatibility complexes (MHC complexes)?

Answer 102

Cell surface glycoproteins that present antigenic peptides to T cell receptors (TCRs).

Question 103

What are MHC complexes also known as?

Answer 103

Human leukocyte antigen molecules (HLA molecules).

Question 104

Why do MHC complexes exist?

Answer 104

Safety mechanism that prevents the immune system from activating too easily.
T cell antigen-specific receptor will only bind to an antigen if it is presented with an MHC complex.

Question 105

What is the function of MHC I?

Answer 105

Present antigens of intracellular pathogens (viruses).

Question 106

Where are MHC I found?

Answer 106

Surface of all cells (except RBCs).

Question 107

Describe the MHC I and cytotoxic T cell relationship.

Answer 107

Cytotoxic T cells require antigens presented via MHC I before it can kill the infected cell.

Question 108

What is the function of MHC II?

Answer 108

Present antigens of extracellular pathogens.

Question 109

Where are MHC II found?

Answer 109

Surface of APCs.

Question 110

Describe the MHC II and helper T cell relationship.

Answer 110

Helper T cells require antigens presented by MHC II before they induce B cell activation.

Question 111

List 4 functions of helper 1 T cells.

Answer 111

1) produce IL2, IFNγ, TNFβ
2) induce B cells differentiation
3) activate macrophages
4) activate cytotoxic T cells

Question 112

List 4 functions of helper 2 T cells.

Answer 112

1) produce IL4, IL5, IL6, IL10, IL13
2) induce B cells differentiation (IL4, IL5, IL10)
3) induce IgE and IgG antibodies release (via B cells)
4) activate basophils and mast cells (via IgE)

Question 113

List 4 functions of cytotoxic T cells.

Answer 113

1) induce lysis
2) induce apoptosis
3) release pro-inflammatory mediators
4) release macrophage activating cytokines

Question 114

How do cytotoxic T cells induce lysis?

Answer 114

Release perforin and granulysin from secretory granules which form pores in infected cell cell membranes, killing infected cells.

Question 115

Describe clonal selection.

Answer 115

Lymphocytes that recognise self are killed. B cells are killed in the bone marrow and T cells are killed in the thymus.

Question 116

Describe B cell activation. (9)

Answer 116

1) naive B cell surface IgD antibody binds to antigen presented by APCs
2) naive B cell presents antigen via MHC II
3) IL1 released by APC activates B cell
4) naive helper 2 T cell is presented the same antigen by another APC
5) helper 2 T cell activates
6) B cell presents antigen to helper 2 T cell (TCR binds to MHC II)
7) helper 2 T cell releases IL4, IL5, IL10, IL13
8) B cell is induced to divide via clonal expansion
9) B cell differentiates into plasma cells and memory cells

Question 117

Define allergy.

Answer 117

Abnormal response to harmless foreign antigens, e.g. a drug.

Question 118

Define atopy.

Answer 118

Inherited tendency to develop allergies.

Question 119

List 3 examples of atopy.

Answer 119

1) hay fever
2) eczema
3) asthma

Question 120

List 3 skin clinical conditions related to allergy.

Answer 120

1) eczema
2) itching
3) reddening

Question 121

List 2 airway clinical conditions related to allergy.

Answer 121

1) bronchoconstriction

2) excessive mucus production

Question 122

List 3 gastrointestinal clinical conditions related to allergy.

Answer 122

1) abdominal bloating
2) vomiting
3) diarrhoea

Question 123

List 7 allergic diseases.

Answer 123

1) anaphylaxis
2) allergic asthma
3) allergic rhinitis
4) allergic conjunctivitis
5) atopic dermatitis
6) food allergy
7) oral allergy syndrome

Question 124

List 6 low affinity IgE receptor expressing cells.

Answer 124

1) B lymphocytes
2) T lymphocytes
3) neutrophils
4) monocytes
5) platelets
6) eosinophils

Question 125

List 3 functions of low affinity IgE receptor expressing cells.

Answer 125

1) regulate IgE synthesis
2) trigger monocyte cytokine release
3) antigen presentation

Question 126

List 3 high affinity IgE receptor expressing cells.

Answer 126

1) mast cells
2) basophils
3) eosinophils

Question 127

What cells are the main effector of IgE mediated immunity? (1)

Answer 127

Mast cells.

Question 128

List 5 substances found in mast cell granules.

Answer 128

1) histamine —> increased vascular permeability and diameter and bronchoconstriction
2) cytokines —> eosinophil attraction and activation
3) proteases
4) prostaglandin D2 —> smooth muscle contraction
5) platelet activating factor —> increases platelet aggregation, vascular permeability and neutrophil degranulation

Question 129

List 8 allergens.

Answer 129

1) latex
2) venoms
3) foods
4) drugs
5) pollens
6) dust mite faeces
7) animal fur
8) nickel

Question 130

List 4 features that make an allergen.

Answer 130

1) particulate delivery of antigens
2) prior sensitisation
weak PAMPs —> weak innate immune response, NO adaptive immune response
3) nasal/skin delivery
4) low doses

Question 131

How long does anaphylaxis take to occur?

Answer 131

Minutes (IV) —> hours (GI)

Question 132

Define anaphylaxis.

Answer 132

An extreme and severe allergic reaction.

Question 133

List 4 skin features of anaphylaxis.

Answer 133

1) itching
2) reddening
3) rash
4) oedema

Question 134

List 2 cardiovascular features of anaphylaxis.

Answer 134

1) tachycardia

2) hypotension

Question 135

What is the Gell and Coombs classification?

Answer 135

Classification of hypersensitivity reactions.

Question 136

What is a type 1 hypersensitivity reaction?

Answer 136

IgE mediated.

Question 137

Describe a type 1 hypersensitivity reaction. (6)

Answer 137

1) exposure to antigen
2) IgE formed after exposure
3) IgE attaches to mast cells —> expressed as cell surface receptors
4) re-exposure to antigen
5) mast cell degranulation
6) inflammation

Question 138

List 4 examples of type 1 hypersensitivity reactions.

Answer 138

1) acute anaphylaxis
2) hay fever
3) eczema
4) asthma

Question 139

What is a type 2 hypersensitivity reaction?

Answer 139

IgG/IgM mediated.

Cell-surface-associated antigens.

Question 140

Describe type 2 hypersensitivity reactions. (5)

Answer 140

1) exposure to antigen
2) IgG/IgM formed after exposure
3) re-exposure to antigen
4) IgG/IgM bind to antigen
5) inflammation

Question 141

Give an example of type 2 hypersensitivity reactions.

Answer 141

Haemolytic disease of foetus. RhD-ve mother, RhD+ve baby.

Question 142

What is a type 3 hypersensitivity reaction?

Answer 142

Immune complex mediated. (IgG).

Question 143

Describe a type 3 hypersensitivity reaction. (5)

Answer 143

1) IgG binds to soluble antigen
2) antigen-antibody complex forms
3) complement system is activated
4) small blood vessels become damaged
5) inflammation

Question 144

List 4 examples of type 3 hypersensitivity reactions.

Answer 144

1) farmers lung
2) malt-workers lung
3) mushroom-workers lung
4) pigeon fanciers lung

Question 145

What is a type 4 hypersensitivity reaction?

Answer 145

Helper T cell mediated.

Question 146

Describe a type 4 hypersensitivity reaction. (5)

Answer 146

1) exposure to antigen
2) excessive helper T cell cytokine secretion
3) cytokines activate macrophages
4) macrophage secrete pro-inflammatory mediators
5) inflammation

Question 147

List 3 type 4 hypersensitivity reactions.

Answer 147

1) TB
2) sarcoidosis
3) contact dermatitis from poison ivy

Question 148

Which type of hypersensitivity reaction is immediate?

Answer 148

Type 1.

Question 149

Which type of hypersensitivity reaction is delayed?

Answer 149

Type 4.

Question 150

List 4 features of non-immune anaphylaxis.

Answer 150

1) due to direct mast cell degranulation
2) no prior exposure to antigen
3) clinically identical
4) previously known as anaphylactoid reactions.

Question 151

List 3 risk factors for hypersensitivity.

Answer 151

1) female
2) immunosuppression
3) HLA group

Question 152

List 4 clinical criteria for allergy to a drug.

Answer 152

1) unrelated reaction to pharmacological properties of drug
2) no linear relation to dose —> tiny dose can cause severe reaction
3) reaction disappears on cessation
4) reaction reappears on re-exposure

Question 153

What is the concept of immunisation and vaccines?

Answer 153

Manipulate immune system to generate a persistent protective response against pathogens.

Question 154

List 3 respiratory features of anaphylaxis.

Answer 154

1) wheeze
2) laryngeal obstruction
3) cyanosis

Question 155

Define passive immunisation.

Answer 155

Transfer of preformed antibodies.

Question 156

List 2 examples of natural passive immunity.

Answer 156

1) maternal antibodies across placenta to foetus

2) maternal antibodies via breast milk to baby

Question 157

List 3 types of features of anaphylaxis.

Answer 157

1) skin
2) respiratory
3) cardivascular

Question 158

Define artificial passive immunity.

Answer 158

Treatment with human IgG against specific pathogens or toxins.

Question 159

List 3 conditions passive immunity is used prophylactically (to prevent disease).

Answer 159

1) hepatitis
2) measles
3) rabies

Question 160

List 5 instances when artificial passive immunisation would be used.

Answer 160

1) agammaglobulinaemias (B cell defects)
2) immunocompromised
3) no time for active immunisation
4) acute danger of infection
5) anti-toxins or anti-venins

Question 161

List 3 conditions passive immunity is used for anti-toxins.

Answer 161

1) botulism
2) tetanus
3) diphtheria

Question 162

Define intolerance.

Answer 162

Inability to properly metabolise or absorb a drug.

Question 163

List 3 conditions passive immunity is used for anti-venins.

Answer 163

1) snake
2) insect
3) jellyfish

Question 164

Define adjuvants (in context of vaccines).

Answer 164

Substances added to a vaccine to stimulate the immune system.

Question 165

What is the drawback of passive immunisation?

Answer 165

No immunological memory, therefore no long term protection.

Question 166

List 5 antigen choices for vaccine design.

Answer 166

1) whole organism (live attenuated or killed inactive)
2) subunit (toxoid, antigenic extract, recombinant protein)
3) peptides
4) DNA
5) engineered virus

Question 167

List 4 properties of the ideal vaccine.

Answer 167

1) safe
2) generate T and B cell memory
3) stable and easy to transport
4) not require repeated boosts

Question 168

List 4 ways adrenaline combats anaphylaxis.

Answer 168

1) acts on α1-adrenoreceptors —> vasoconstriction (increased peripheral vascular resistance, BP and coronary perfusion)
2) acts on β1-adrenoreceptors —> positive ionotropic and chronographic effects on heart
3) acts on β2-adrenoreceptors —> bronchodilation
4) reduces further release of inflammatory mediators from mast cells and basophils

Question 169

List 6 treatment strategies for allergic reactions.

Answer 169

1) avoid allergen
2) allergen desensitisation
3) inhibit IgE production
4) inhibit IgE interaction with receptor
5) inhibit mast cell activation
6) inhibit mast cell products

Question 170

What influxes into the lungs during asthma?

Answer 170

Eosinophils.