Immune Disorders

Question 0

Define an immunocompromised host. Why may someone be immunocompromised?

Answer 0

State in which the immune system is unable to respond appropriately and effectively to infectious microorganisms

QUALITATIVE DEFECT = non-functional component(s)
(tends to be due to a PRIMARY immunodeficiency)

QUANTITATIVE DEFECT = loss of component(s)
(tends to be due to a SECONDARY immunodeficiency)

Question 1

What are some features which are associated with immunodeficiency?

Answer 1

Increase in frequency and severity of infections

Non-infectious complications e.g. autoimmune diseases, malignancy

Question 2

What are some features of infection which suggest an underlying immunodeficiency?

Answer 2

SEVERE
PERSISTENT
UNUSUAL (either opportunistic infections or site of infection e.g. osteomyelitis, cellulitis, deep organ abscesses)
RECURRENT

Question 3

What is a primary immunodeficiency?

Answer 3

Intrinsic defect
e.g. single gene mutation (unknown whether polygenic mutations are a factor)

HLA polymorphisms
e.g. resistant to malaria (Africa), elite HIV controllers

Classified according to the defective immune component

note: Type 1 diabetes mellitus (childhood) & cystic fibrosis are counted as primary immunodeficiency syndromes

Question 4

What is a secondary immunodeficiency?

Answer 4

Underlying disease affecting immune components

Either reduced production or increased loss/catabolism of immune components

Question 5

Outline the aetiology of primary immunodeficiency disorders.

Answer 5

Occur in the first months of life (80% of patients < 20yrs)
70% of patients male (X-linked genes affected)

Most antibody deficiencies present young e.g. XLA, Hyper-IgM, SCID
but some can present at any age e.g. CVID, IgG subclass deficiency, specific antibody deficiency

Question 6

Give some examples of primary B-cell deficiencies.

Answer 6

Common variable immunodeficiency (CVID) = defect in ability of B cells to mature to plasma cells —> low IgG+ (panhypogammaglobulinaemia)

• most common immunodeficiency requiring treatment
• increased risk of cancer & autoimmune diseases

IgA deficiency = B cell unable to switch to IgA —-> low IgA

• most prevalent primary immunodeficiency
• usually asymptomatic
• increased risk of cancer & autoimmune diseases

IgG subclass deficiency = total Ig normal but low IgG2 subclass

• unknown defect cause
• IgG2 required for immune response to encapsulated bacteria

Bruton’s disease = X-linked agammaglobulinaemia (XLA) which impairs B cell development —> low IgG & IgA & low B cells

Hyper-IgM syndrome = X-linked; IgM cannot switch to IgG —> low IgG & high IgM

Question 7

What the signs and symptoms of primary B-cell deficiencies?

Answer 7

• recurrent upper and lower resp. infections
• multiple resp. infections causes bronchiectasis
• GI complications e.g. Giardia infection
• arthropathies e.g. arthritis caused by Mycoplasma or Ureaplasma
• increased incidence of autoimmune disease
• increased incidence of lymphoma & gastric cancer

note: pyogenic bacteria e.g. Pneumococcus, H. influenzae, enterovirus, Mycoplasma

Question 8

How are primary B-cell deficiencies managed?

Answer 8

ANTIBIOTICS ASAP (prophylactic + treatment)

• management of respiratory function due to frequent resp. infections
• avoid unnecessary radiation exposure (reduce cancer risk)
• lifelong Ig replacement therapy (IV or subcutaneous)

note: Ig replacement indicated for CVID, XLA, hyper-IgM syndrome & SEVERE IgA deficiency (IgA NOT GIVEN - causes transfusion reaction)

Question 9

Give some examples of primary phagocyte deficiencies.

Answer 9

note: phagocyte deficiency usually due to secondary immunodeficiency

Cyclic neutropenia = unknown defect causing low neutrophils approx. every 3-4 weeks

Leukocyte adhesion deficiency (LAD) = lack of CD18 protein on phagocytes which is required for adhesion to endothelium (in order to reach site of infection)

Chronic granulomatous disease = lack of neutrophil oxidative burst

Chediak-Higashi syndrome = failure of phagolysosome to form

Question 10

What are some signs and symptoms of primary phagocyte deficiencies?

Answer 10

• skin & mucous membrane infections (causing ulcers)
• osteomyelitis
• deep abscesses (Staphylococci)
• invasive aspergillosis (most common cause of death)
• granulomas

note: catalase +ve Staph., E.coli, B. cepacia, Klebsiella, Candida, Aspergillus

Question 11

What is the management for primary phagocyte deficiencies?

Answer 11

• prophylactic antibiotics/anti-fungals
• immunisation (esp. against pneumococcal bacteria - encapsulated)
• surgical
• interferon-gamma (boosts phagocytic activity)
• steroids (reduces granuloma formation)
• stem cell transplantation

Question 12

Give an example of a primary T-cell deficiency.

Answer 12

Di George syndrome = defect in thymus embryogenesis leading to incomplete development/lack of thymus

note: T-cells drive antibody production from B-cells (so T-cell deficiency often leads to functional B-cell deficiency)

Question 13

What are the signs and symptoms of primary T-cell deficiencies?

Answer 13

CATCH-22 SYNDROME

Cardiac abnormalities 
Abnormal facies 
Thymic hypoplasia 
Cleft Palate 
Hypocalcaemia 
22 - defect on chromosome 22

Question 14

What is the management for primary T-cell deficiencies?

Answer 14

• neonatal cardiac surgery
• calcium supplements
• antibiotic prophylaxis for pneumocystis pneumonia (if T cells < 0.4 x 10^9/l)
• bone marrow transplant
• blood transfusions with no lymphocyte activity (prevent graft v.s. host) and no CMV activity
• no live vaccines

Question 15

What is severe combined immunodeficiency?

Answer 15

• defect in gamma-chain causing stem cell defect
• enzyme defect causing death of developing thymocytes
• defect in genes required for T-cell receptor rearrangement & maturation causing defective T-cell development
• low lymphocyte count

Question 16

What are the signs and symptoms of SCID?

Answer 16

• FAILURE TO THRIVE = failure of infant to grow satisfactorily compared with the average for that community (use centile charts)
• long term antibiotics
• deep skin & organ abscesses
• protracted diarrhoea
• high susceptibility to fungal & viral infections e.g. pneumocystis pneumonia, varicella-zoster virus, CMV, Epstein-Barr virus, Mycobacteria, Candida, Aspergillus, Cryptosporidium

Question 17

What is the management of SCID?

Answer 17

FATAL IF NOT TREATED

Short term:

• no live vaccines
• only CMV free, irradiated blood products
• aggressive treatment of infections
• IV Ig
• reverse barrier nursing + laminar air flow
• prophylactic antibiotics & anti-fungals

Long term:

• bone marrow/stem cell transplantation (CHECK FOR MICROBES)
• gene therapy

Question 18

Give an example of a primary complement component deficiency.

Answer 18

Hereditary angioedema (various kinds) = C1-inhibitor deficiency

note: pyogenic bacteria e.g. pneumococcus, H. influenzae, CMV, HSV, Neisseria meningitidis

Question 19

What are some causes of secondary immunodeficiency due to reduced production of immune components?

Answer 19

• malnutrition (most common global cause)
• infection e.g. HIV
• liver disease
• lymphoproliferative diseases e.g. cancer (+ chemotherapy)
• drug induced neutropenia
• splenectomy (infarction, trauma, autoimmune haemolytic disease, infiltration, coeliac disease, congenital)
• age (physiological)

Question 20

Give some examples of factors causing neutropenia.

Answer 20

• aplastic anaemia
• vitamin B12/folate/iron deficiency
• drugs e.g.phenytoin, chloramphenicol, alcohol abuse
• autoimmune neutropenia
• chemicals e.g. benzene, organophosphate
• infection e.g. HIV, infectious mononucleosis, hep. B or C, CMV, typhoid
• bone marrow infiltration/malignancy + chemotherapy (cytotoxic & immunosupression)/radiotherapy

Question 21

What is the management for neutropenia?

Answer 21

ACUTE MEDICAL EMERGENCY (when neutrophils < 1.0 x 10^9/l)
- NEUTROPENIC SEPSIS/FEBRILE NEUTROPENIA

Empiric antibiotic therapy ASAP + treat septic symptoms

Common cause of death in patients receiving cytotoxic/myelosuppressive chemotherapy

Question 22

What are some important management considerations in the asplenic patient?

Answer 22

• increased susceptibility to encapsulated bacteria (due to impaired opsonisation, which is required for phagocytes) e.g. H. influenzae, S. pneumoniae, N. meningitidis (pneumonia causative organisms)
• ——> life-long penicillin prophylaxis & immunisation before splenectomy (if possible)
• medic alert bracelet
• overwhelming post-splenectomy infection (OPSI) = sepsis & meningitis

Question 23

What are the immune functions of the spleen?

Answer 23

Splenic macrophages -> removal of opsonised microbes & immune complexes

Opsonisation of encapsulated bacteria

Lymphocyte production —> antibody production —> IgM & IgG

Acute (IgM): agglutination of antigens & activation of complement system

Chronic (IgG): phagocytosis via osponisation & activation of complement system

Question 24

What is the purpose of cytotoxic chemotherapy?

Answer 24

Reduces production of WBCs, platelets, etc. from bone marrow but stem cells remain (protected by microenvironment) which will develop into non-malignant WBCs

Question 25

What are some causes of secondary immunodeficiency via increased loss/catabolism of immune components?

Answer 25

Protein loss
e.g. nephropathy, enteropathy

Burns (+ increased risk of infection)

Question 26

Define coryza.

Answer 26

Catarrhal inflammation of mucous membranes in nose due to a cold or hay fever (a “head cold”)

Question 27

In general, what type of infections do infective antibody production/T lymphocyte deficiency predispose to?

Answer 27

Defective antibody production = pyogenic bacterial infections & fungal infections

T lymphocyte deficiency = protozoal infections, intracellular microbes, & fungal infections

Question 28

What is idiopathic thrombocytopenia purpura?

Answer 28

Autoimmune destruction of platelets of unknown cause which causes bleeding into the skin (often accompanied by haemolytic anaemia)

Treatment:

• platelet & RBC transfusions
• IV Ig (reduce autoimmune destruction of platelets & RBCs)