Pathology

Question 1

Osmolality

Answer 1

2(Na + K) + Urea + Glucose

Question 2

Anion Gap

Answer 2

Na + K - Cl - bicarb

Normal: 140 + 4.0 - 102 - 24 = 18

Question 3

pCO2 normal range

Answer 3

4 - 5 kPa

Question 4

Type 2 diabetes definition

Answer 4

Fasting glucose > 7.0 mM

GTT: 75g glucose given at time 0.
At 2hr, plasma glucose > 11.1 mM

Question 5

Impaired glucose tolerance

Answer 5

7.8 - 11.1 mM glucose 2hr after 75g glucose.

Question 6

Impaired fasting glucose

Answer 6

5.5 - 7.0 mM

Question 7

Normal ranges for different genders and ethnicities for:
Hb
MCV
WBC
Neutrophils
lymphocytes
eosinophils
monocytes
basophils
platelets

Answer 7

Hb females: 11.5 - 15.5 g/dL
Hb males: 13.5 - 17.5 g/dL
MCV: 80-100 fL
WBC: 4.0 - 11.0 x109/L
neutrophils: 2-7.5 x 109/L, 40-75% of WBCs.
lymphocytes: 1.3-3.5 x 109/L, 20-45% of WBCs.
eosinophils: 0.04-0.44 x 109/L, 1-6% of WBCs.
monocytes: 0.20.8 x 109/L. 2-10% of WBCs.
basophils: 0.01 x 109/L, 0-1% of WBCs.
platelets: 150-400 x 109/L

Question 8

consequence of giving aspirin to children

Answer 8

reye syndrome - rash, vomiting, fatty liver, cerebral oedema, NO jaundice

Question 9

Haemophilia A

Investigations?

Answer 9

Factor VIII deficiency
normal PT, prolonged PTT
X-linked recessive

Question 10

Haemophilia B

Investigations?

Answer 10

Factor IX deficiency
normal PT, prolonged PTT
X-linked recessive

Question 11

Haemophilia C

Answer 11

Factor XI deficiency
Autosomal dominant
does NOT lead to bleeding in joints

Question 12

Match the following immune boosting treatments to their indications:

IFN alpha
Bone marrow transplantation
IFN gamma
EBV-specific CD8 T cells
Human normal immunoglobulin
Varicella zoster immunoglobulin

A. Post-transplant lymphoproliferative disorder
B. Part of treatment for Hepatitis C
C. X linked hyper IgM syndrome
D. X linked SCID
E. Chronic granulomatous disease
F. Immunosuppressed seronegative individual after chicken pox exposure

Answer 12

IFN alpha - B
Bone marrow transplantation - D
IFN gamma - E
EBV-specific CD8 T cells - A
Human normal immunoglobulin - C
Varicella zoster immunoglobulin - F

Question 13

Match the following immunosuppressants to their side effects:

Cyclophosphamide
Prednisolone
Azathioprine
Cyclosporin
Mycophenolate mofetil

A. Osteoporosis
B. Infertility
C. Progressive multifocal leukoencephalopathy
D. Neutropenia particularly if TPMT low
E. Hypertension

Answer 13

Cyclophosphamide - B
Prednisolone - A
Azathioprine - D
Cyclosporin - E
Mycophenolate mofetil - C

Question 14

Match the following immune modulators with their function:

Basiliximab (Anti-IL2 receptor)
Abatacept (CTLA4-Ig fusion protein)
Rituximab (Anti-CD20)
Natalizumab (Anti- a4 integrin)
Tocilizumab (Anti-IL6 receptor)

A. Inhibits T cell migration but may only be used in highly active remitting/relapsing MS
B. Inhibits T cell activation and is effective in rheumatoid arthritis
C. Depletes B cells and is effective in treatment of B cell lymphomas and rheumatoid arthritis
D. Inhibits function of lymphoid and myeloid cells and used in management of rheumatoid arthritis
E. Antibody specific for CD25 which inhibits T cell activation and is used to prevent rejection

Answer 14

Basiliximab (Anti-IL2 receptor) - E
Abatacept (CTLA4-Ig fusion protein) - B
Rituximab (Anti-CD20) - C
Natalizumab (Anti- a4 integrin) - A
Tocilizumab (Anti-IL6 receptor) - D

Question 15

Match diseases with drug and drug action:

Psoriasis
Rheumatoid arthritis
Osteoporosis
Crohn’s disease

1. Ustekinumab or etanercept
2. Infliximab
3. Denosumab
4. Adalimumab or tocilizumab

A. Inhibit RANK ligand
B. Inhibit IL12/23 or TNF alpha
C. Inhibit TNF alpha
D. Inhibit IL6 or TNF alpha

Answer 15

Psoriasis - 1B
Rheumatoid arthritis - 2C
Osteoporosis - 3A
Crohn’s disease - 4D

Question 16

Recurrent infections with high neutrophil count on FBC but no abscess formation

A. IFN gamma receptor deficiency
B. Leukocyte adhesion deficiency
C. Chronic granulomatous disease
D. Kostmann syndrome

Answer 16

B. Leukocyte adhesion deficiency

Question 17

Recurrent infections with hepatosplenomegaly and abnormal dihydrorhodamine test

A. IFN gamma receptor deficiency
B. Leukocyte adhesion deficiency
C. Chronic granulomatous disease
D. Kostmann syndrome

Answer 17

C. Chronic granulomatous disease

Question 18

Recurrent infections with no neutrophils on FBC

A. IFN gamma receptor deficiency
B. Leukocyte adhesion deficiency
C. Chronic granulomatous disease
D. Kostmann syndrome

Answer 18

D. Kostmann syndrome

Question 19

Infection with atypical mycobacterium. Normal FBC

A. IFN gamma receptor deficiency
B. Leukocyte adhesion deficiency
C. Chronic granulomatous disease
D. Kostmann syndrome

Answer 19

A. IFN gamma receptor deficiency

Question 20

Severe recurrent infections from 3 months,CD4 and CD8 T cells absent, B cell present, IgM present, IgA and IgG absent

A. Bare lymphocyte syndrome type II
B. X-linked SCID
C. DiGeorge’s syndrome
D. IFN gamma receptor deficiency

Answer 20

B. X-linked SCID

Question 21

Young adult with chronic infection with Mycobacterium marinum

A. Bare lymphocyte syndrome type II
B. X-linked SCID
C. DiGeorge’s syndrome
D. IFN gamma receptor deficiency

Answer 21

D. IFN gamma receptor deficiency

Question 22

Recurrent infections in childhood, abnormal facial features, congenital heart disease, normal B cells, low T cells, low IgA and IgG

A. Bare lymphocyte syndrome type II
B. X-linked SCID
C. DiGeorge’s syndrome
D. IFN gamma receptor deficiency

Answer 22

C. DiGeorge’s syndrome

Question 23

14 month baby with two recent serious bacterial infections. T cells present – but only CD8+ population. B cells present. IgM present but IgG absent

A. Bare lymphocyte syndrome type II
B. X-linked SCID
C. DiGeorge’s syndrome
D. IFN gamma receptor deficiency

Answer 23

A. Bare lymphocyte syndrome type II

Question 24

Adult with bronchiectasis, recurrent sinusitis and development of atypical SLE

A. IgA deficiency
B. Common variable immunodeficiency
C. Bruton’s X linked hypogammaglobulinaemia
D. X linked hyper IgM syndrome due to CD40ligand mutation

Answer 24

B. Common variable immunodeficiency

Question 25

Recurrent bacterial infections in a child, episode of pneumocystis pneumonia, high IgM, absent IgA and IgG

A. IgA deficiency
B. Common variable immunodeficiency
C. Bruton’s X linked hypogammaglobulinaemia
D. X linked hyper IgM syndrome due to CD40ligand mutation

Answer 25

D. X linked hyper IgM syndrome due to CD40ligand mutation

Question 26

1 year old boy. Recurrent bacterial infections. CD4 and CD8 T cells present. B cells absent, IgG, IgA, IgM absent

A. IgA deficiency
B. Common variable immunodeficiency
C. Bruton’s X linked hypogammaglobulinaemia
D. X linked hyper IgM syndrome due to CD40ligand mutation

Answer 26

C. Bruton’s X linked hypogammaglobulinaemia

Question 27

Recurrent respiratory tract infections, absent IgA, normal IgM and IgG

A. IgA deficiency
B. Common variable immunodeficiency
C. Bruton’s X linked hypogammaglobulinaemia
D. X linked hyper IgM syndrome due to CD40ligand mutation

Answer 27

A. IgA deficiency

Question 28

Membranoproliferative nephritis and bacterial infections

A. C9 deficiency
B. C3 deficiency with presence of a nephritic factor
C. MBL deficiency
D. C1q deficiency

Answer 28

B. C3 deficiency with presence of a nephritic factor

Question 29

Meningococcus meningitis with family history of sibling dying of same condition aged 6

A. C9 deficiency
B. C3 deficiency with presence of a nephritic factor
C. MBL deficiency
D. C1q deficiency

Answer 29

A. C9 deficiency

Question 30

Severe childhood onset SLE with normal levels of C3 and C4

A. C9 deficiency
B. C3 deficiency with presence of a nephritic factor
C. MBL deficiency
D. C1q deficiency

Answer 30

D. C1q deficiency

Question 31

Recurrent infections when receiving chemotherapy but previously well

A. C9 deficiency
B. C3 deficiency with presence of a nephritic factor
C. MBL deficiency
D. C1q deficiency

Answer 31

C. MBL deficiency

Question 32

Expresses Foxp3 and CD25 and secretes IL-10. Deficient in the monogenic autoimmune disease known as IPEX (immune dysregulation, polyendocrinopathy, enteropathy, X-linked syndrome)

1. Th17 cell
2. Macrophage
3. Epithelial cell
4. T reg cell
5. Dendritic cell
6. CD4+ T cell
7. Neutrophil
8. Th1 cell
9. Plasma cell
10. Megakaryocyte
11. Lymphocyte

Answer 32

4. T reg cell

Question 33

In the immature form these cells are adapted for recognition and uptake of pathogens. Maturation is associated with expression of CCR7, migration to lymph nodes and enhanced capacity for antigen presentation.

OPTION LIST

1. Th17 cell
2. Macrophage
3. Epithelial cell
4. T reg cell
5. Dendritic cell
6. CD4+ T cell
7. Neutrophil
8. Th1 cell
9. Plasma cell
10. Megakaryocyte
11. Lymphocyte

Answer 33

5. Dendritic cell

Question 34

These cells can be rapidly mobilised from bone marrow. They express pathogen recognition receptors and Fc receptors and are able to engage in oxidative and non-oxidative killing. They do not express HLA class II molecules and so do not activate CD4 T cells. They are the predominant cell type in synovial fluid taken from patients with gout,

OPTION LIST

1. Th17 cell
2. Macrophage
3. Epithelial cell
4. T reg cell
5. Dendritic cell
6. CD4+ T cell
7. Neutrophil
8. Th1 cell
9. Plasma cell
10. Megakaryocyte
11. Lymphocyte

Answer 34

7. Neutrophil

Question 35

These cells may be formed following a germinal centre reaction involving isotype switching and affinity maturation of receptors. They are long-lived and reside in bone marrow.

OPTION LIST

1. Th17 cell
2. Macrophage
3. Epithelial cell
4. T reg cell
5. Dendritic cell
6. CD4+ T cell
7. Neutrophil
8. Th1 cell
9. Plasma cell
10. Megakaryocyte
11. Lymphocyte

Answer 35

9. Plasma cell

Question 36

These cells express CD3 and secrete IL-17 and IL-22. They are thought to be important in some auto-immune conditions including rheumatoid arthritis.

OPTION LIST

1. Th17 cell
2. Macrophage
3. Epithelial cell
4. T reg cell
5. Dendritic cell
6. CD4+ T cell
7. Neutrophil
8. Th1 cell
9. Plasma cell
10. Megakaryocyte
11. Lymphocyte

Answer 36

1. Th17 cell

Question 37

These cells may be resident in peripheral tissues (eg Kupffer cells in liver, microglia in neural tissue) express pathogen recognition receptors and Fc receptors and are able to engage in oxidative and non-oxidative killing. They are an important source of cytokines such as IL-1 and TNF-alpha and are thought to play an important role in some auto-inflammatory and auto-immune diseases.

OPTION LIST

1. Th17 cell
2. Macrophage
3. Epithelial cell
4. T reg cell
5. Dendritic cell
6. CD4+ T cell
7. Neutrophil
8. Th1 cell
9. Plasma cell
10. Megakaryocyte
11. Lymphocyte

Answer 37

2. Macrophage

Question 38

The normal function of these cells is to express cytokines in response to recognition of specific peptides presented by HLA class II molecules. Depletion of these cells during HIV infection is an important factor in development of AIDS.

OPTION LIST

1. Th17 cell
2. Macrophage
3. Epithelial cell
4. T reg cell
5. Dendritic cell
6. CD4+ T cell
7. Neutrophil
8. Th1 cell
9. Plasma cell
10. Megakaryocyte
11. Lymphocyte

Answer 38

6. CD4+ T cell

Question 39

Play a role in protective immunity against HIV infection by killing virus infected cells via perforin and FAS.

OPTION LIST

1. Gp120
2. Anti-metabolites
3. CCR5
4. Reverse transcriptase
5. Basophils
6. Gastric parietal cells
7. Protease inhibitors
8. CCR7
9. Macrophages
10. CD8 T cells
11. IL-8

Answer 39

10. CD8 T cells

Question 40

Acts as a co-receptor for HIV entry to cells

1. Gp120
2. Anti-metabolites
3. CCR5
4. Reverse transcriptase
5. Basophils
6. Gastric parietal cells
7. Protease inhibitors
8. CCR7
9. Macrophages
10. CD8 T cells
11. IL-8

Answer 40

3. CCR5

Question 41

Serves to generate complementary DNA from RNA, which can then be integrated into host cell genes

1. Gp120
2. Anti-metabolites
3. CCR5
4. Reverse transcriptase
5. Basophils
6. Gastric parietal cells
7. Protease inhibitors
8. CCR7
9. Macrophages
10. CD8 T cells
11. IL-8

Answer 41

4. Reverse transcriptase

Question 42

Directs homing of dendritic cells to lymph nodes

1. Gp120
2. Anti-metabolites
3. CCR5
4. Reverse transcriptase
5. Basophils
6. Gastric parietal cells
7. Protease inhibitors
8. CCR7
9. Macrophages
10. CD8 T cells
11. IL-8

Answer 42

8. CCR7

Question 43

Are often infected by HIV if they express CD4

1. Gp120
2. Anti-metabolites
3. CCR5
4. Reverse transcriptase
5. Basophils
6. Gastric parietal cells
7. Protease inhibitors
8. CCR7
9. Macrophages
10. CD8 T cells
11. IL-8

Answer 43

9. Macrophages

Question 44

Antibodies against this target are partially protective against HIV infection

1. Gp120
2. Anti-metabolites
3. CCR5
4. Reverse transcriptase
5. Basophils
6. Gastric parietal cells
7. Protease inhibitors
8. CCR7
9. Macrophages
10. CD8 T cells
11. IL-8

Answer 44

1. Gp120

Question 45

Are effective in management of HIV infection if used in combination with other drugs

1. Gp120
2. Anti-metabolites
3. CCR5
4. Reverse transcriptase
5. Basophils
6. Gastric parietal cells
7. Protease inhibitors
8. CCR7
9. Macrophages
10. CD8 T cells
11. IL-8

Answer 45

7. Protease inhibitors

Question 46

Mutation in MEFV leads to failure to regulate neutrophil function

Rheumatoid arthritis
Familial Mediterranean Fever
IPEX (immune dysregulation polyendocrinopathy, enteropathy, X linked syndrome)
Crohn’s disease
Ankylosing Spondylitis

Answer 46

Familial Mediterranean Fever

Question 47

Polygenic auto-inflammatory disease in which NOD-2 (CARD 15) mutations are common

Rheumatoid arthritis
Familial Mediterranean Fever
IPEX (immune dysregulation polyendocrinopathy, enteropathy, X linked syndrome)
Crohn’s disease
Ankylosing Spondylitis

Answer 47

Crohn’s disease

Question 48

Mixed pattern disease with very high heritability (>90%) and a strong association with HLA-B27

Rheumatoid arthritis
Familial Mediterranean Fever
IPEX (immune dysregulation polyendocrinopathy, enteropathy, X linked syndrome)
Crohn’s disease
Ankylosing Spondylitis

Answer 48

Ankylosing Spondylitis

Question 49

Polygenic auto-immune disease associated with polymorphisms in PAD enzymes (which citrullinate proteins). Environmental factors including smoking and gum infection are associated with disease.

Rheumatoid arthritis
Familial Mediterranean Fever
IPEX (immune dysregulation polyendocrinopathy, enteropathy, X linked syndrome)
Crohn’s disease
Ankylosing Spondylitis

Answer 49

Rheumatoid arthritis

Question 50

Monogenic auto-immune disease due to a mutation in Foxp3

Rheumatoid arthritis
Familial Mediterranean Fever
IPEX (immune dysregulation polyendocrinopathy, enteropathy, X linked syndrome)
Crohn’s disease
Ankylosing Spondylitis

Answer 50

IPEX (immune dysregulation polyendocrinopathy, enteropathy, X linked syndrome)

Question 51

Congenital heart block in infants of mothers with SLE

Anti-DNA antibody
Anti-RNP antibody
Anti-GAD antibody 
Anti-centromere antibody
Anti-Ro antibody

Answer 51

Anti-Ro antibody

Question 52

Lupus nephritis

Anti-DNA antibody
Anti-RNP antibody
Anti-GAD antibody 
Anti-centromere antibody
Anti-Ro antibody

Answer 52

Anti-DNA antibody

Question 53

Mixed connective tissue disease

Anti-DNA antibody
Anti-RNP antibody
Anti-GAD antibody 
Anti-centromere antibody
Anti-Ro antibody

Answer 53

Anti-RNP antibody

Question 54

Limited cutaneous systemic sclerosis

Anti-DNA antibody
Anti-RNP antibody
Anti-GAD antibody 
Anti-centromere antibody
Anti-Ro antibody

Answer 54

Anti-centromere antibody

Question 55

Sjogren’s syndrome

Anti-DNA antibody
Anti-RNP antibody
Anti-GAD antibody 
Anti-centromere antibody
Anti-Ro antibody

Answer 55

Anti-Ro antibody

Question 56

Antibody to gastric parietal cells

Answer 56

Pernicious anaemia

Question 57

Anti-smooth muscle antibody

Answer 57

Autoimmune hepatitis

Question 58

Anti-endomysial antibody

Answer 58

Coeliac disease

Dermatitis herpetiformis

Question 59

Anti-tissue transglutaminase antibody

Answer 59

Coeliac disease

Dermatitis herpetiformis

Question 60

Anti-mitochondrial antibody

Answer 60

Primary biliary cirrhosis

Question 61

Mediated predominantly by antibodies which usually form after the transplantation

Hyperacute rejection
Acute cellular rejection
Acute vascular rejection
Chronic allograft rejection

Answer 61

Acute vascular rejection

Question 62

Both immunological and non-immunological mechanisms contribute

Hyperacute rejection
Acute cellular rejection
Acute vascular rejection
Chronic allograft rejection

Answer 62

Chronic allograft rejection

Question 63

Due to presence of pre-formed antibodies

Hyperacute rejection
Acute cellular rejection
Acute vascular rejection
Chronic allograft rejection

Answer 63

Hyperacute rejection

Question 64

Mediated by activation of CD4 T cells which provide help for a CD8 T cell and B cell response and occurs within 1-4 weeks

Hyperacute rejection
Acute cellular rejection
Acute vascular rejection
Chronic allograft rejection

Answer 64

Acute cellular rejection

Question 65

Which of the following vaccines are contraindicated in patients on immunosuppressive therapy?

Tetanus
BCG
Meningococcus
Measles
HiB
Diptheria
Polio
Pneumococcus
Yellow fever
Hepatitis B
Influenza
Hepatitis A

Answer 65

BCG
Measles
Polio - OK if used killed (Salk) vaccine
Yellow fever

Question 66

A 58 year old pharmacist presents with a 3 month history of skin itching associated with lethargy and loss of energy.
Physical examination is normal, but liver function tests reveal:
Total bilirubin = 36umol/l (0-17umol/l)
ALT = 28U/l (0-31U/l)
Alkaline phosphatase 420U/l (30-130).

OPTION LIST

1. anti-acetyl choline receptor antibody
2. anti-adrenal cortex antibody
3. antibody to double stranded DNA
4. anti-centromere antibody
5. anti-TTG antibody
6. anti-intrinsic factor antibody
7. anti-mitochondrial antibody
8. anti-neutrophil cytoplasmic antibody
9. anti-RNP antibody
10. anti-smooth muscle antibody

Answer 66

7. anti-mitochondrial antibody

Question 67

A 56 year old prison officer presents with a history of recurrent nose bleeds, haemoptysis and joint pain associated with profound lethargy.
On examination, he has crackles in his upper left lung field, and a cavitating left lung lesion is demonstrated on chest radiography.
Urine dipstick is positive for protein and blood.

OPTION LIST

1. anti-acetyl choline receptor antibody
2. anti-adrenal cortex antibody
3. antibody to double stranded DNA
4. anti-centromere antibody
5. anti-TTG antibody
6. anti-intrinsic factor antibody
7. anti-mitochondrial antibody
8. anti-neutrophil cytoplasmic antibody
9. anti-RNP antibody
10. anti-smooth muscle antibody

Answer 67

8. anti-neutrophil cytoplasmic antibody

Question 68

A 22 year old woman presents with joint pain and fatigue. She has an intermittent, skin-sensitive rash, and also complains of mouth ulcers. Physical examination is otherwise normal.
Urine dipstick is positive ++ protein and ++ blood.
Full blood count shows a normocytic normochromic anaemia.

OPTION LIST

1. anti-acetyl choline receptor antibody
2. anti-adrenal cortex antibody
3. antibody to double stranded DNA
4. anti-centromere antibody
5. anti-TTG antibody
6. anti-intrinsic factor antibody
7. anti-mitochondrial antibody
8. anti-neutrophil cytoplasmic antibody
9. anti-RNP antibody
10. anti-smooth muscle antibody

Answer 68

3. antibody to double stranded DNA

Question 69

A 30 year old plumber attends his GP complaining of feeling tired all the time. He has type I diabetes, which is currently well controlled, and a history of irritable bowel syndrome. A full blood count shows a microcytic hypochromic anaemia, and iron studies confirm iron deficiency. Vitamin D levels are within the insufficient range.

OPTION LIST

1. anti-acetyl choline receptor antibody
2. anti-adrenal cortex antibody
3. antibody to double stranded DNA
4. anti-centromere antibody
5. anti-TTG antibody
6. anti-intrinsic factor antibody
7. anti-mitochondrial antibody
8. anti-neutrophil cytoplasmic antibody
9. anti-RNP antibody
10. anti-smooth muscle antibody

Answer 69

5. anti-TTG antibody

Question 70

A 44 year old builder presents with a history of fingers intermittently becoming very cold and white with recent development of a gangrenous tip of his finger. The skin over his fingers feels ‘tight’ and you note telangectasia on his hands.

OPTION LIST

1. anti-acetyl choline receptor antibody
2. anti-adrenal cortex antibody
3. antibody to double stranded DNA
4. anti-centromere antibody
5. anti-TTG antibody
6. anti-intrinsic factor antibody
7. anti-mitochondrial antibody
8. anti-neutrophil cytoplasmic antibody
9. anti-RNP antibody
10. anti-smooth muscle antibody

Answer 70

4. anti-centromere antibody

Question 71

A 19 year old student presents with a chronic, extremely itchy rash consisting of papules and vesicles which is distributed symmetrically over the extensor surfaces of her elbows, legs and buttocks. You suspect dermatitis herpetiformis.

OPTION LIST

1. anti-acetyl choline receptor antibody
2. anti-adrenal cortex antibody
3. antibody to double stranded DNA
4. anti-centromere antibody
5. anti-TTG antibody
6. anti-intrinsic factor antibody
7. anti-mitochondrial antibody
8. anti-neutrophil cytoplasmic antibody
9. anti-RNP antibody
10. anti-smooth muscle antibody

Answer 71

6. anti-intrinsic factor antibody

Question 72

Immunopathology

A. Reflects genetic abnormality affecting the innate immune system, often in a site-specific manner

B. Single gene mutation involving MEFV and affecting the inflammasome complex, resulting in recurrent episodes of serositis

C. May describe damage resulting from the immune response to ongoing infection

D. Reflects genetic abnormality affecting the adaptive immune system and is often associated with presence of auto-antibodies

E. Single gene mutation involving FOXp3 resulting in abnormality of T reg cells

Answer 72

C. May describe damage resulting from the immune response to ongoing infection

Question 73

Auto-immune disease

A. Reflects genetic abnormality affecting the innate immune system, often in a site-specific manner

B. Single gene mutation involving MEFV and affecting the inflammasome complex, resulting in recurrent episodes of serositis

C. May describe damage resulting from the immune response to ongoing infection

D. Reflects genetic abnormality affecting the adaptive immune system and is often associated with presence of auto-antibodies

E. Single gene mutation involving FOXp3 resulting in abnormality of T reg cells

Answer 73

D. Reflects genetic abnormality affecting the adaptive immune system and is often associated with presence of auto-antibodies

Question 74

Auto-inflammatory disease

A. Reflects genetic abnormality affecting the innate immune system, often in a site-specific manner

B. Single gene mutation involving MEFV and affecting the inflammasome complex, resulting in recurrent episodes of serositis

C. May describe damage resulting from the immune response to ongoing infection

D. Reflects genetic abnormality affecting the adaptive immune system and is often associated with presence of auto-antibodies

E. Single gene mutation involving FOXp3 resulting in abnormality of T reg cells

Answer 74

A. Reflects genetic abnormality affecting the innate immune system, often in a site-specific manner

Question 75

Familial Mediterranean Fever

A. Reflects genetic abnormality affecting the innate immune system, often in a site-specific manner

B. Single gene mutation involving MEFV and affecting the inflammasome complex, resulting in recurrent episodes of serositis

C. May describe damage resulting from the immune response to ongoing infection

D. Reflects genetic abnormality affecting the adaptive immune system and is often associated with presence of auto-antibodies

E. Single gene mutation involving FOXp3 resulting in abnormality of T reg cells

Answer 75

B. Single gene mutation involving MEFV and affecting the inflammasome complex, resulting in recurrent episodes of serositis

Question 76

IPEX (immune dysregulation, polyendocrinopathy, enteropathy, X linked)

A. Reflects genetic abnormality affecting the innate immune system, often in a site-specific manner

B. Single gene mutation involving MEFV and affecting the inflammasome complex, resulting in recurrent episodes of serositis

C. May describe damage resulting from the immune response to ongoing infection

D. Reflects genetic abnormality affecting the adaptive immune system and is often associated with presence of auto-antibodies

E. Single gene mutation involving FOXp3 resulting in abnormality of T reg cells

Answer 76

E. Single gene mutation involving FOXp3 resulting in abnormality of T reg cells

Question 77

Polygenic auto-inflammatory disease. ~30% patients have a mutation of CARD15 which may affect response of myeloid cells to bacteria.

Ankylosing spondylitis
Crohn’s disease
Giant cell arteritis

Answer 77

Crohn’s disease

Question 78

Mixed pattern auto-inflammatory / auto-immune disease with >90% heritability that results in inflammation typically involving the sacro-iliac joints and responds to TNF alpha antagonists

Ankylosing spondylitis
Crohn’s disease
Giant cell arteritis

Answer 78

Ankylosing spondylitis

Question 79

Polygenic auto-inflammatory disease resulting in a large vessel vasculitis and requiring immediate treatment with high dose corticosteroids

Ankylosing spondylitis
Crohn’s disease
Giant cell arteritis

Answer 79

Giant cell arteritis

Question 80

HLA DR4

A. Tyrosine phosphatase expressed in lymphocytes associated with development of auto-immune disease including rheumatoid arthritis

B. MHC class II molecule that is associated with development of auto-immune disease including rheumatoid arthritis

C. Receptor for CD80/CD86, expressed on T cells, that influences T cell activation and is associated with auto-immune disease including diabetes and thyroid disease

D. Antigen presenting molecule that is strongly associated with development of Anti-GBM antibodies

Answer 80

B. MHC class II molecule that is associated with development of auto-immune disease including rheumatoid arthritis

Question 81

PTPN22

A. Tyrosine phosphatase expressed in lymphocytes associated with development of auto-immune disease including rheumatoid arthritis

B. MHC class II molecule that is associated with development of auto-immune disease including rheumatoid arthritis

C. Receptor for CD80/CD86, expressed on T cells, that influences T cell activation and is associated with auto-immune disease including diabetes and thyroid disease

D. Antigen presenting molecule that is strongly associated with development of Anti-GBM antibodies

Answer 81

A. Tyrosine phosphatase expressed in lymphocytes associated with development of auto-immune disease including rheumatoid arthritis

Question 82

HLA DR15

A. Tyrosine phosphatase expressed in lymphocytes associated with development of auto-immune disease including rheumatoid arthritis

B. MHC class II molecule that is associated with development of auto-immune disease including rheumatoid arthritis

C. Receptor for CD80/CD86, expressed on T cells, that influences T cell activation and is associated with auto-immune disease including diabetes and thyroid disease

D. Antigen presenting molecule that is strongly associated with development of Anti-GBM antibodies

Answer 82

D. Antigen presenting molecule that is strongly associated with development of Anti-GBM antibodies

Question 83

CTLA4

A. Tyrosine phosphatase expressed in lymphocytes associated with development of auto-immune disease including rheumatoid arthritis

B. MHC class II molecule that is associated with development of auto-immune disease including rheumatoid arthritis

C. Receptor for CD80/CD86, expressed on T cells, that influences T cell activation and is associated with auto-immune disease including diabetes and thyroid disease

D. Antigen presenting molecule that is strongly associated with development of Anti-GBM antibodies

Answer 83

C. Receptor for CD80/CD86, expressed on T cells, that influences T cell activation and is associated with auto-immune disease including diabetes and thyroid disease

Question 84

Recurrent infections with high neutrophil count on FBC but no abscess formation

IFN gamma receptor deficiency
Leukocyte adhesion deficiency
Chronic granulomatous disease
Kostmann syndrome

Answer 84

Leukocyte adhesion deficiency

Question 85

Recurrent infections with hepatosplenomegaly and abnormal dihydrorhodamine test

IFN gamma receptor deficiency
Leukocyte adhesion deficiency
Chronic granulomatous disease
Kostmann syndrome

Answer 85

Chronic granulomatous disease

Question 86

Recurrent infections with no neutrophils on FBC

IFN gamma receptor deficiency
Leukocyte adhesion deficiency
Chronic granulomatous disease
Kostmann syndrome

Answer 86

Kostmann syndrome

Question 87

Infection with atypical mycobacterium. Normal FBC

IFN gamma receptor deficiency
Leukocyte adhesion deficiency
Chronic granulomatous disease
Kostmann syndrome

Answer 87

IFN gamma receptor deficiency

Question 88

Severe recurrent infections from 3 months,CD4 and CD8 T cells absent, B cell present, IgM present, IgA and IgG absent

Bare lymphocyte syndrome type II
X-linked SCID
DiGeorge’s syndrome
IFN gamma receptor deficiency

Answer 88

X-linked SCID

Question 89

Young adult with chronic infection with Mycobacterium marinum

Bare lymphocyte syndrome type II
X-linked SCID
DiGeorge’s syndrome
IFN gamma receptor deficiency

Answer 89

IFN gamma receptor deficiency

Question 90

Recurrent infections in childhood, abnormal facial features, congenital heart disease, normal B cells, low T cells, low IgA and IgG

Bare lymphocyte syndrome type II
X-linked SCID
DiGeorge’s syndrome
IFN gamma receptor deficiency

Answer 90

DiGeorge’s syndrome

Question 91

6 month baby with two recent serious bacterial infections. T cells present – but only CD8+ population. B cells present. IgM present but IgG absent

Bare lymphocyte syndrome type II
X-linked SCID
DiGeorge’s syndrome
IFN gamma receptor deficiency

Answer 91

Bare lymphocyte syndrome type II

Question 92

Adult with bronchiectasis, recurrent sinusitis and development of atypical SLE

A. IgA deficiency

B. Common variable immunodeficiency

C. Bruton’s X linked hypogammaglobulinaemia

D. X linked hyper IgM syndrome due to CD40ligand mutation

Answer 92

B. Common variable immunodeficiency

Question 93

Recurrent bacterial infections in a child, episode of pneumocystis pneumonia, high IgM, absent IgA and IgG

A. IgA deficiency

B. Common variable immunodeficiency

C. Bruton’s X linked hypogammaglobulinaemia

D. X linked hyper IgM syndrome due to CD40ligand mutation

Answer 93

D. X linked hyper IgM syndrome due to CD40ligand mutation

Question 94

1 year old boy. Recurrent bacterial infections. CD4 and CD8 T cells present. B cells absent, IgG, IgA, IgM absent

A. IgA deficiency

B. Common variable immunodeficiency

C. Bruton’s X linked hypogammaglobulinaemia

D. X linked hyper IgM syndrome due to CD40ligand mutation

Answer 94

C. Bruton’s X linked hypogammaglobulinaemia

Question 95

Recurrent respiratory tract infections, absent IgA, normal IgM and IgG

A. IgA deficiency

B. Common variable immunodeficiency

C. Bruton’s X linked hypogammaglobulinaemia

D. X linked hyper IgM syndrome due to CD40ligand mutation

Answer 95

A. IgA deficiency

Question 96

Membranoproliferative nephritis and bacterial infections

A. C9 deficiency

B. C3 deficiency with presence of a nephritic factor

C. MBL deficiency

D. C1q deficiency

Answer 96

B. C3 deficiency with presence of a nephritic factor

Question 97

Meningococcus meningitis with family history of sibling dying of same condition aged 6

A. C9 deficiency

B. C3 deficiency with presence of a nephritic factor

C. MBL deficiency

D. C1q deficiency

Answer 97

A. C9 deficiency

Question 98

Severe childhood onset SLE with normal levels of C3 and C4

A. C9 deficiency

B. C3 deficiency with presence of a nephritic factor

C. MBL deficiency

D. C1q deficiency

Answer 98

D. C1q deficiency

Question 99

Recurrent infections when receiving chemotherapy but previously well

A. C9 deficiency

B. C3 deficiency with presence of a nephritic factor

C. MBL deficiency

D. C1q deficiency

Answer 99

C. MBL deficiency

Question 100

IFN alpha

A. Post-transplant lymphoproliferative disorder

B. Part of treatment for Hepatitis C

C. X linked hyper IgM syndrome

D. X linked SCID

E. Chronic granulomatous disease

F. Immunosuppressed seronegative individual after chicken pox exposure

Answer 100

B. Part of treatment for Hepatitis C

Question 101

Bone marrow transplantation

A. Post-transplant lymphoproliferative disorder

B. Part of treatment for Hepatitis C

C. X linked hyper IgM syndrome

D. X linked SCID

E. Chronic granulomatous disease

F. Immunosuppressed seronegative individual after chicken pox exposure

Answer 101

D. X linked SCID

Question 102

IFN gamma

A. Post-transplant lymphoproliferative disorder

B. Part of treatment for Hepatitis C

C. X linked hyper IgM syndrome

D. X linked SCID

E. Chronic granulomatous disease

F. Immunosuppressed seronegative individual after chicken pox exposure

Answer 102

E. Chronic granulomatous disease

Question 103

EBV-specific CD8 T cells

A. Post-transplant lymphoproliferative disorder

B. Part of treatment for Hepatitis C

C. X linked hyper IgM syndrome

D. X linked SCID

E. Chronic granulomatous disease

F. Immunosuppressed seronegative individual after chicken pox exposure

Answer 103

A. Post-transplant lymphoproliferative disorder

Question 104

Human normal immunoglobulin

A. Post-transplant lymphoproliferative disorder

B. Part of treatment for Hepatitis C

C. X linked hyper IgM syndrome

D. X linked SCID

E. Chronic granulomatous disease

F. Immunosuppressed seronegative individual after chicken pox exposure

Answer 104

C. X linked hyper IgM syndrome

Question 105

Varicella zoster immunoglobulin

A. Post-transplant lymphoproliferative disorder

B. Part of treatment for Hepatitis C

C. X linked hyper IgM syndrome

D. X linked SCID

E. Chronic granulomatous disease

F. Immunosuppressed seronegative individual after chicken pox exposure

Answer 105

F. Immunosuppressed seronegative individual after chicken pox exposure

Question 106

Cyclophosphamide

A. Osteoporosis

B. Infertility

C. Progressive multifocal leukoencephalopathy

D. Neutropenia particularly if TPMT low

E. Hypertension

Answer 106

B. Infertility

Question 107

Prednisolone

A. Osteoporosis

B. Infertility

C. Progressive multifocal leukoencephalopathy

D. Neutropenia particularly if TPMT low

E. Hypertension

Answer 107

A. Osteoporosis

Question 108

Azathioprine

A. Osteoporosis

B. Infertility

C. Progressive multifocal leukoencephalopathy

D. Neutropenia particularly if TPMT low

E. Hypertension

Answer 108

D. Neutropenia particularly if TPMT low

Question 109

Cyclosporin

A. Osteoporosis

B. Infertility

C. Progressive multifocal leukoencephalopathy

D. Neutropenia particularly if TPMT low

E. Hypertension

Answer 109

E. Hypertension

Question 110

Mycophenolate mofetil

A. Osteoporosis

B. Infertility

C. Progressive multifocal leukoencephalopathy

D. Neutropenia particularly if TPMT low

E. Hypertension

Answer 110

C. Progressive multifocal leukoencephalopathy

Rituximab also does this

Question 111

Basiliximab (Anti-IL2 receptor)

A. Inhibits T cell migration but may only be used in highly active remitting/relapsing MS

B. Inhibits T cell activation and is effective in rheumatoid arthritis

C. Depletes B cells and is effective in treatment of B cell lymphomas and rheumatoid arthritis

D. Inhibits function of lymphoid and myeloid cells and used in management of rheumatoid arthritis

E. Antibody specific for CD25 which inhibits T cell activation and is used to prevent rejection

Answer 111

E. Antibody specific for CD25 which inhibits T cell activation and is used to prevent rejection

Question 112

Abatacept (CTLA4-Ig fusion protein)

A. Inhibits T cell migration but may only be used in highly active remitting/relapsing MS

B. Inhibits T cell activation and is effective in rheumatoid arthritis

C. Depletes B cells and is effective in treatment of B cell lymphomas and rheumatoid arthritis

D. Inhibits function of lymphoid and myeloid cells and used in management of rheumatoid arthritis

E. Antibody specific for CD25 which inhibits T cell activation and is used to prevent rejection

Answer 112

B. Inhibits T cell activation and is effective in rheumatoid arthritis

Question 113

Rituximab (Anti-CD20)

A. Inhibits T cell migration but may only be used in highly active remitting/relapsing MS

B. Inhibits T cell activation and is effective in rheumatoid arthritis

C. Depletes B cells and is effective in treatment of B cell lymphomas and rheumatoid arthritis

D. Inhibits function of lymphoid and myeloid cells and used in management of rheumatoid arthritis

E. Antibody specific for CD25 which inhibits T cell activation and is used to prevent rejection

Answer 113

C. Depletes B cells and is effective in treatment of B cell lymphomas and rheumatoid arthritis

Question 114

Natalizumab (Anti- a4 integrin)

A. Inhibits T cell migration but may only be used in highly active remitting/relapsing MS

B. Inhibits T cell activation and is effective in rheumatoid arthritis

C. Depletes B cells and is effective in treatment of B cell lymphomas and rheumatoid arthritis

D. Inhibits function of lymphoid and myeloid cells and used in management of rheumatoid arthritis

E. Antibody specific for CD25 which inhibits T cell activation and is used to prevent rejection

Answer 114

A. Inhibits T cell migration but may only be used in highly active remitting/relapsing MS

(use restrictively due to risk of PML)

Question 115

Tocilizumab (Anti-IL6 receptor)

A. Inhibits T cell migration but may only be used in highly active remitting/relapsing MS

B. Inhibits T cell activation and is effective in rheumatoid arthritis

C. Depletes B cells and is effective in treatment of B cell lymphomas and rheumatoid arthritis

D. Inhibits function of lymphoid and myeloid cells and used in management of rheumatoid arthritis

E. Antibody specific for CD25 which inhibits T cell activation and is used to prevent rejection

Answer 115

D. Inhibits function of lymphoid and myeloid cells and used in management of rheumatoid arthritis