5.13 - Respiratory tract infections and immunity

Question 1

What are the symptoms of upper respiratory tract infections? (5)

Answer 1

• cough
• sneezing
• runny/stuffy nose
• sore throat
• headache

Question 2

What are the symptoms of lower respiratory tract infections? (6)

Answer 2

• ‘productive’ cough - phlegm
• muscle aches
• wheezing
• breathlessness
• fever
• fatigue

Question 3

What are the symptoms of pneumonia? (4)

Answer 3

• chest pain
• blue tinting of lips
• severe fatigue
• high fever

Question 4

What is the frequency and severity of upper RTI, lower RTI and pneumonia?

Answer 4

Increasing severity, decreasing frequency

Question 5

What does it mean that respiratory infections often display progressive symptomology?

Answer 5

We can go from upper respiratory tract symptoms to lower respiratory tract symptoms over time

Question 6

How many deaths do acute respiratory infections cause?

Answer 6

• respiratory infection resulted in ~5 million deaths annually between 1990 and 2015
• about 3 million deaths annually from acute lower respiratory infections

Question 7

How many people are estimated to have latent TB?

Answer 7

Estimated that 1 in 4 people have latent TB, 1.4 million deaths from TB in 2019

Question 8

What are DALYs?

Answer 8

Disability-adjusted life year: sum of Years of Life Lost (YLL) + Years Lost to Disability (YLP)

Question 9

Why are acute lung infections the leading cause of global DALYs lost but not global deaths?

Answer 9

• the fact that you can survive an acute infection often, but have persistent changes in respiratory tract that is disabling
• partly due to age groups affected

Question 10

What ages does most mortality happen for respiratory infections?

Answer 10

• adults older than 70
• children under 5

Question 11

How big a cause of death are respiratory infections in infants?

Answer 11

• leading cause of death <1y, and second leading cause of death between 1-5y
• a mix of viral and bacterial causes of respiratory illness (RSV is main one)
• pneumonia and bronchiolitis present

Question 12

What are demographic and lifestyle risk factors for pneumonia? (3)

Answer 12

• age <2y / >65y
• cigarette smoking
• excess alcohol consumption

Question 13

What are social risk factors for pneumonia? (3)

Answer 13

• contact with children aged <15y
• poverty
• overcrowding

Question 14

What are medication risk factors for pneumonia? (3)

Answer 14

• inhaled corticosteroids
• immunosuppressants (e.g. steroids)
• proton pump inhibitors

Question 15

What medical conditions are risk factors for pneumonia? (8)

Answer 15

• COPD, asthma
• heart disease
• liver disease
• diabetes mellitus
• HIV, malignancy, hyposplenism
• complement or Ig deficiencies
• risk factors for aspiration
• previous pneumonia

Question 16

What are specific risk factors for certain pathogens causing pneumonia? (3)

Answer 16

• geographical variations
• animal contact
• healthcare contacts

Question 17

What are the main bacterial causative agents of respiratory infections? (4)

Answer 17

• Streptococcus pneumoniae
• Mycoplasma pneumoniae
• Haemophilus influenzae
• Mycobacterium tuberculosis

Question 18

What are the main viral causative agents of respiratory infections? (5)

Answer 18

• influenza A/B
• respiratory syncytial virus (RSV)
• human metapneumovirus
• human rhinovirus
• coronaviruses

Question 19

What are the bacterial causes of community acquired pneumonia (CAP)? (5)

Answer 19

• Streptococcus pneumoniae (40-50%)
• Mycoplasma pneumoniae
• Staphylococcus aureus
• Chlamydia pneumoniae
• Haemophilus influenzae

Question 20

What are the bacterial causes of hospital acquired pneumonia? (6)

Answer 20

• Staphylococcus aureus
• Pseudomonas aeruginosa
• Klebsiella species
• E. coli
• Acinetobacter spp.
• Enterobacter spp.

Question 21

What is the main thing you need to remember about the bacterial causes of community acquired pneumonia and hospital acquired pneumonia?

Answer 21

• CAP –> Streptococcus pneumoniae
• HAP –> Staphylococcus

Question 22

What are the bacterial causes of ventilator associated pneumonia? (3)

Answer 22

• Pseudomonas aeruginosa (25%)
• Staphylococcus aureus (20%)
• Enterobacter

Question 23

What is Streptococcus pneumoniae?

Answer 23

Gram-positive, extracellular, opportunistic pathogen

Question 24

What is typical pneumonia?

Answer 24

• most common type
• caused by most common forms of bacteria (e.g. Streptococcus pneumoniae)
• rapid, fever, breathlessness, confusion

Question 25

What is atypical pneumonia?

Answer 25

• less frequent
• distinct bacterial species e.g. M. pneumoniae is a simple gram-negative bacteria
• slower onset of symptoms and milder
• ‘walking pneumonia’

Question 26

What are examples of bacteria that cause typical pneumonia? (3)

Answer 26

• Streptococcus pneumoniae
• Haemophilus influenzae
• Moraxella catarrhalis

Question 27

What are examples of bacteria that cause atypical pneumonia? (3)

Answer 27

• Mycoplasma pneumoniae
• Chlamydia pneumoniae
• Legionella pneumophilia

Question 28

What are the features present in acute bacterial pneumonia?

Answer 28

• bronchitis - inflammation and swelling of bronchi
• bronchiolitis - inflammation and swelling of bronchioles
• pneumonia - inflammation and swelling of alveoli
• these stop gas exchange occurring
• inflammation independent of bacteria (sometimes bacteria cleared but inflammation continues)

Question 29

What are the two routes of damage in pneumonia?

Answer 29

• sepsis - organ infection from bacteraemia (caused by spread throughout the body)
• ARDS - acute respiratory distress syndrome by lung damage (caused by the physiological damage of the alveoli by the bacteria)

Question 30

What are the mechanisms of damage in pneumonia?

Answer 30

• lung injury –> arterial hypoxemia –> ARDS
• bacteraemia –> organ infection + systemic inflammation + lung injury/arterial hypoxemia –> organ injury or dysfunction –> sepsis + deterioration (decrements in pulmonary, cardiovascular, neuromuscular, haematologic, cognitive, psychologic and other functions)

Question 31

What is the difference in the lung biopsy of pneumonia compared to normal?

Answer 31

Can see cells and fluid infiltrate

Question 32

How do we grade potential bacterial pneumonia?

Answer 32

CRB/CURB-65 scoring (1 point per item)

• Confusion
• Urea: > 7mmol/L (add if in hospital)
• Respiratory rate: >30 breaths/min
• Blood pressure: <90 systolic and/or <60 mmHg diastolic
• 65 years or older

Question 33

How do you treat patients with different CRB65 scores?

Answer 33

• 0: low severity - likely suitable for home treatment, antibiotics
• 1-2: moderate severity - consider hospital referral
• 3-4: high severity - urgent hospital admission, empirical antibiotics if life-threatening
• consider social circumstances and home support when deciding on whether to refer to hospital or manage in community

Urea not included since initial score may not be in hospital setting, can consider CURB-65 3-5 as high severity

Question 34

What supportive therapy is there for bacterial pneumonia? (5)

Answer 34

• oxygen (for hypoxia)
• fluids (for dehydration)
• analgesia (for pain)
• nebulised saline (may help expectoration - coughing up mucus)
• chest physiotherapy?

Question 35

What antibiotics are there for bacterial pneumonia? (2 types)

Answer 35

• penicillins e.g. amoxicillin - beta lactams that bind proteins in the bacterial cell wall to prevent transpeptidation (typical pneumonia)
• macrolides e.g. clarithromycin - bind to the bacterial ribosome to prevent protein synthesis (atypical pneumonia)

Question 36

What is the key to increasing the success of antibiotics in pneumonia?

Answer 36

• the time to administration (for every hour in septic shock, survival is reduced by 7.9%)
• using an effective antibiotic - typical CAPs may respond to penicillins, atypical CAPs require macrolides

Question 37

Can you catch pneumonia and why?

Answer 37

No, because a lot of the time the bacteria that cause it are commensal and part of the microbiome

Question 38

What is the human microbiome?

Answer 38

100 trillion microbial cells populate our bodies at every barrier surface

Question 39

What is the microbiota?

Answer 39

Ecological communities of microbes found inside multi-cellular organisms

Question 40

What does commensal mean?

Answer 40

• microbes that live in a ‘symbiotic’ relationship with their host
• provide vital nutrients to the host in the presence of a suitable ecological niche

Question 41

What are examples of commensal bacteria in the oropharynx?

Answer 41

• STREPTOCOCCUS PNEUMONIAE
• STAPHYLOCOCCUS AUREUS
• HAEMOPHILUS SPP.
• strep. viridans
• coagulase neg. staph
• veronella
• fusiforms
• treponena spp.
• beta-haem strep

Question 42

What are examples of commensal bacteria in the nose?

Answer 42

• STREPTOCOCCUS PNEUMONIAE
• STAPHYLOCOCCUS AUREUS
• coagulase neg. staph
• haemophilus spp.
• strep. viridans

Question 43

What is an opportunistic pathogen?

Answer 43

A microbe that takes advantage of a change in conditions (often immunosuppression)

Question 44

What is a pathobiont?

Answer 44

A microbe that is normally commensal, but if found in the wrong environment (e.g. anatomical site) can cause pathology

Question 45

What do opacities on a lung X-ray mean?

Answer 45

Fluid build-up due to bacterial or viral pneumonia

Question 46

What do viral diseases do to cause disease?

Answer 46

• mediator release
• cellular inflammation
• local immune memory
• damage to epithelium:
  
  • loss of cilia
  • bacterial growth
  • poor barrier to antigen
  • loss of chemoreceptors

Question 47

Why do viruses cause severe disease - RTIs? (3)

Answer 47

• highly pathogenic strains (zoonotic - spread between animals and people)
• absence of prior immunity (innate immunodeficiency e.g. IFITM3 gene variant, B cells, T cells)
• predisposing illness/conditions e.g. frail elderly, COPD/asthma, diabetes, obesity, pregnancy etc

Question 48

What is it important to know about virus binding?

Answer 48

Most respiratory viruses can infect cells throughout the respiratory tract, but tend to preferably adapt to bind cells of the upper respiratory tract if they have existed in humans for a prolonged time

Question 49

Where does H1N1 influenza A bind?

Answer 49

Haemagglutinin on H1N1 binds alpha-2,6 sialic acids on epithelial cells in upper respiratory tract (nose, pharynx)

Question 50

Where does H5N1 avian flu bind?

Answer 50

Haemagglutinin on H5N1 binds alpha-2,3 sialic acids on epithelial cells in lower respiratory tract (nasopharynx)

Question 51

How does the respiratory epithelium act as first line of defence against pathogens? (5)

Answer 51

• tight junctions
• mucous lining and cilial clearance
• antimicrobials
• pathogen recognition receptors
• interferon pathways

Question 52

Where does SARS-Cov-2 bind?

Answer 52

• spike (S) protein binds angiotensin converting enzyme 2 (ACE2)
• ACE2 is expressed highly in nasal epithelium and in type 2 pneumocytes in lungs (higher in smokers) –> nasal symptoms e.g. anosmia + high risk of pneumonia

Question 53

What do tight junctions do (respiratory epithelium as first line of defence)?

Answer 53

Prevents systemic infection

Question 54

What does mucous lining and cilial clearance do (respiratory epithelium as first line of defence)?

Answer 54

Prevents attachment, clears particulates

Question 55

What do antimicrobials do (respiratory epithelium as first line of defence)?

Answer 55

Recognise, neutralise and/or degrade microbes and their products

Question 56

What do pathogen recognition receptors do (respiratory epithelium as first line of defence)?

Answer 56

Recognise pathogens either outside or inside a cell

Question 57

What do interferon pathways do (respiratory epithelium as first line of defence)?

Answer 57

• activated by viral infection
• promotes upregulation of antiviral proteins and apoptosis

Question 58

What is a serotype?

Answer 58

Pathogens which cannot be recognised by serum (antibodies) that recognise another pathogen - implications for protective immunity, need to mount a unique antibody response

Question 59

What is an antigen?

Answer 59

Any molecule against which antibodies can be generated

Question 60

What is antibody mediated immunity?

Answer 60

• humoral immunity
• adaptive, so dependent on previous exposure
• B cells activated to differentiate into antibody-secreting plasma cells
• different antibody classes provide different biochemical properties and functions

Question 61

What kind of antibody is common in the upper respiratory tract?

Answer 61

• enriched for IgA
• high frequency of IgA-plasma cells
• endothelial cells express poly IgA receptor, allowing export of IgA to the mucosal surface
• homodimer is extremely stable in protease-rich environment

Question 62

What kind of antibody is common in the lower respiratory tract?

Answer 62

• enriched for IgG
• thin-walled alveolar space allows transfer of plasma IgGs into the alveolar space

Question 63

What is the potential issue with too much IgG?

Answer 63

Too much inflammation and damage in exchange surfaces

Question 64

Compare influenza, RSV and SARS-CoV-2 in terms of immunity.

Answer 64

• influenza: no reinfection by same strain
• RSV: recurrent reinfection with similar strains
• SARS-CoV-2: no prior immunity

Question 65

Compare influenza, RSV and SARS-CoV-2 in terms of vaccines.

Answer 65

• influenza: imperfect vaccines - vaccine-induced immunity rapidly wanes, mainly homotypic immunity and annual vaccination required
• RSV: no vaccine - poor immunogenicity, vaccine-enhanced disease, very active research field
• SARS-CoV-2: newly licensed vaccine - waning immunity, potential for reinfection, unclear what regime will be required

Question 66

What are some epidemiological facts about RSV (respiratory syncytial virus) in children?

Answer 66

• leading cause of infant hospitalisation in the developed world
• 50% of children infected in year 1 of life, all children by year 3
• 1% develop severe bronchiolitis
• can repeatedly infect children
• similar viruses at lower prevalence include hMPV and PIV

Question 67

What are the symptoms of RSV in infants? (6)

Answer 67

• nasal flaring
• croupy cough
• chest wall retractions
• hypoxaemia and cyanosis
• tachypnoea with apnoeic episodes
• expiratory wheezing, prolonged expiration, rales and rhonchi

Question 68

What are the risk factors for RSV in infants? (2)

Answer 68

• premature birth
• congenital heart and lung disease

Question 69

How do we treat RSV in infants?

Answer 69

Give oxygen - usually helps

Question 70

What supportive therapy do we give for viral infections? (5)

Answer 70

• oxygen (for hypoxia)
• fluids (for dehydration)
• analgesia (for pain)
• nebulised saline (may help expectoration)
• chest physiotherapy?

Question 71

What preventative/prophylactic measures are there for viral infections? (3)

Answer 71

Vaccines:

• major surface antigen - spike protein
• viral vector (e.g. adenovirus vaccine Oxford/AZ)
• mRNA vaccines (e.g. BioNtech/Pfizer)

Question 72

What anti-inflammatory therapeutic medications can be given for viral infection? (2)

Answer 72

• dexamethasone (steroids)
• tocilizumab (anti-IL6R) or sarilumab (anti-IL6)

Question 73

What anti-virals are there for viral infection? (3)

Answer 73

• remdesivir - broad spectrum antiviral, blocks RNA-dependent RNA polymerase activity
• paxlovid - antiviral protease inhibitor
• casirivimab and imdevimab - monoclonal neutralising antibodies for SARS-CoV-2

Question 74

What do viruses set the scene for?

Answer 74

• for bacterial infections, especially bacterial pneumonia
• 55% of rhinovirus-infected COPD patients also have bacterial infections

Question 75

How do viruses interplay with other lung diseases? (3)

Answer 75

• viral bronchiolitis is associated with the development of asthma
• rhinoviruses are the most common cause of asthma/COPD exacerbations
• high likelihood of secondary bacterial pneumonia after viral infection

Question 76

What does age dependence mean in terms of RSV?

Answer 76

• children - infantile bronchiolitis, causally related to wheeze, older siblings spreaders
• caring adults - repeated colds, transmitters, rarely severe
• old and infirm - major cause of progressive lung disease and winter deaths

Question 77

If an infant presents with a viral infection, what is the most likely cause?

Answer 77

RSV