pneumonia

Question 1

definiton

Answer 1

= acute lower resp tract illness due to infection of distal lung parenchyma

Question 2

how can pneumonia be classified

Answer 2

1. community acquired/ hospital acquired ‘nosocomial’
2. aspiration pneumonia
3. pneumonia of immunosuppressed
4. typical/ atypical pneumonia [latter- more vague symptoms, seen in mycoplasma/chlamydia/legionella infections]
5. bronchopneumonia vs lobar pneumonia

• bronchopneumonia = patchy consolidation of different lobes
• lobar pneumonia = fibrosuppurative consolidation of a single lobes occuring in STAGES
  
  • congestion = blood vessels and alveoli get filled with excess fluid [1-2d]
  • red = hepatisation exudate [rbcs, np’s, fibrin] fill airspaces making them more solid live like appearance. [3-4th days]
  • grey= hepatization, firm still. colour chnage = rbc in exudate breakdown [5-7th days]
  • resolution = day 8-3 weeks] as exudate is digested by enzymes/mp’s/coughed up

6. Idiopathic interstitial pneumonia

Question 3

epidemiology

Answer 3

incidence: 1 in 100

mortality- 10% in hosp, 30% in ITU

Question 4

CAP’s causative organisms

Answer 4

Community acquired pneumonia (CAP) may be caused by the following infectious agents:

• Streptococcus pneumoniae (accounts for around 80% of cases)
• Haemophilus influenzae
• Staphylococcus aureus: commonly after the ‘flu
• atypical pneumonias (e.g. Due to Mycoplasma pneumoniae)
• viruses

[[[[may be 1ry/2ry to underlying disease]]]]]]
Klebsiella pneumoniae is classically in alcoholics

Question 5

HAP + VAP - define and causative organisms

Answer 5

Hospital acquired pneumonia occurs mostly in patients who are severely debilitated or who are immune suppressed.

Hospital-acquired pneumonia (HAP) is a respiratory infection developing more than 48 h after hospital admission.

in a proportion of patients, HAP is associated with mechanical ventilation, in which case it is termed ventilator-associated pneumonia (VAP)

Most common organisms isolated from respiratory specimens of patients known or suspected to have HAP are

• Pseudomonas aeruginosa,
• Staphylococcal aureus and
• Enterobacteriaceae (especially Klebsiella, E. coli and Enterobacter spp.)

early vs late onset

early-onset HAP or VAP

often caused by typical antimicrobial-susceptible community organisms such as Streptococcus pneumoniae or Haemophilus influenzae

late-onset HAP or VAP

commonly caused by P. aeruginosa or other antimicrobial-resistant opportunistic Gram-negative bacteria or by MRSA

Question 6

aspiration pneumonia

Answer 6

Aspiration pneumonia is a pneumonia that develops as a result of foreign materials gaining entry to the bronchial tree, usually oral or gastric contents such as food and saliva.

Depending on the acidity of the aspirate a chemical pneumonitis can develop, as well as bacterial pathogens adding to the inflammation.

Aspiration pneumonia often results from an incompetent swallowing mechanism, such as those that occur in

• neurological disease or injury such as stroke, multiple sclerosis and intoxication.
• Iatrogenic causes, such as intubation, can also result in aspiration pneumonia developing.

Risk factors for the development of aspiration pneumonia include:

• Poor dental hygiene
• Swallowing difficulties
• Prolonged hospitalization or surgical procedures
• Impaired consciousness
• Impaired mucociliary clearance

The bacteria often implicated in aspiration pneumonia are aerobic, and often include:

• Streptococcus pneumoniae
• Staphylococcus aureus
• Haemophilus influenzae
• Pseudomonas aeruginosa

Other aerobic, and anaerobic, organisms can also result in aspiration pneumonia, but are less common.

Question 7

pneumonia of immunocompromised causative organisms

Answer 7

usual suspects

• strept penumoniae
• h. influenzae
• staph aureus
• m catarrhalis
• m pneumoniae

as well as:

• PCP
• TB
• fungi
• CMV/HIV

Question 8

HIV: Pneumocystis jiroveci pneumonia

Answer 8

Whilst the organism Pneumocystis carinii is now referred to as Pneumocystis jiroveci, the term Pneumocystis carinii pneumonia (PCP) is still in common use

• Pneumocystis jiroveci is an unicellular eukaryote, generally classified as a fungus but some authorities consider it a protozoa
• PCP is the most common opportunistic infection in AIDS
• all patients with a CD4 count < 200/mm³ should receive PCP prophylaxis

Features

• dyspnoea
• dry cough
• fever
• very few chest signs

Pneumothorax is a common complication of PCP.

Extrapulmonary manifestations are rare (1-2% of cases), may cause

• hepatosplenomegaly
• lymphadenopathy
• choroid lesions

Investigation

1. CXR: typically shows bilateral interstitial pulmonary infiltrates but can present with other x-ray findings e.g. lobar consolidation. May be normal
2. exercise-induced desaturation
3. sputum often fails to show PCP, bronchoalveolar lavage (BAL) often needed to demonstrate PCP (silver stain shows characteristic cysts)

Management

• co-trimoxazole
• IV pentamidine in severe cases
• steroids if hypoxic (if pO2 < 9.3kPa then steroids reduce risk of respiratory failure by 50% and death by a third)

Question 9

s/s

[bro i’m caved *pleural rub*]

Answer 9

symptoms

• fevers, rigors
• malaise, anorexia
• dyspnoea
• cough, purulent sputum, haemoptysis
• pleuritic pain

signs:

bro - bronchial breathing

(i’m)

c- crackles

a - decreased air entry

v- increased vocal resonance ie. cos remember, sound travels better thru fluid than air

e - decreased expansion

d- dull percussion note

*pleural rub* [rub hands together]

Question 10

ix for pneumonia

Answer 10

First line investigations:

1. chest radiology
2. FBC differential WCC- neutrophilia in bacterial infections
3. urea and electrolytes - check for dehydration
4. CRP- raised in response to infection
5. sputum and blood culture - especially for pneumococcus, Mycobacterium tuberculosis
6. Also pulse oximetry and/or blood gases[if severe pneumonia/pa02 <92%/if pt has pre-existing respiratory disease, for example COPD];
7. consider ECG and cardiac enzymes.

Further investigation:

• serology for atypical organisms - slow, but useful for:
  
  • Mycoplasma pneumoniae,
  • Legionella pneumophila,
  • Chlamydia psittacosis and
  • Chl. pneumoniae,
  • Coxiella burnetti,
  • viruses
  • ====> on admission send clotted 10 ml blood sample with a second sample 10 days later
• Microbiological specimens may be necessary in patients whom fail to respond to conventional treatment - for example, bronchial washings from fibre-optic bronchoscopy, or percutaneous lung aspiration.
• Some centres have countercurrent immunoelectrophoresis available for the identification of pneumococcal antigen from sputum, urine, blood, or CSF. It is not affected by antibiotic therapy.

Question 11

radiological features of hemophilus influenza

Answer 11

Chest radiology usually shows a lobar pneumonia

Less commonly, a diffuse or bronchopneumonia may be seen.

Pleural effusion and empyema may be seen.

Question 12

radiological appearance of Legionnaire’s disease

Answer 12

usually, unilateral lobar and then multilobar shadowing

small pleural effusions present in 20 to 50% of cases

uncommonly, cavitation

Question 13

radiological appearance of mycoplasma pneumonia

Answer 13

Chest radiology is highly variable:

most frequent pattern is one of bronchial thickening with areas of interstitial infiltration and subsegmental atelectasis involving one of the lower lobes

sometimes, there may be dramatic lower lobe shadowing in both lower lobes

Often, there is no correlation between radiologic appearance and the clinical state of the patient.

Question 14

radiological appearance of pneumococcal pneumonia

Answer 14

classically, shows consolidation with a lobular distribution

note that radiological changes may lag behind the clinical course of the disease and conversely, radiologic features may persist for several weeks after being cured

Question 15

radiological appearance of staphylococcal pneumonia

Answer 15

The chest radiograph often appears cavitated.

Infection starts in the bronchi, causing areas of patchy consolidation in one or more lobes.

These break down to form multiple thin walled abscesses - pneumatocoeles - which appear as cysts.

Concomitant pathologies such as a pneumothorax, pleural effusion or empyema may be seen depending on the precise aetiology of the disease.

Question 16

radiological appearance of TB

Answer 16

In primary tuberculosis:

• less than half of patients show radiological abnormalities
• there may be hilar lymph node enlargement; this subsides as immunity to the tubercle bacillus develops
• the hilar nodes or the Ghon focus may be calcified

In post-primary tuberculosis the radiological appearance is variable, including features such as:

• patchy solid lesions
• cavitated solid lesions
• streaky fibrosis
• flecks of calcification
• solitary tuberculoma presenting as a coin lesion
• hilar node enlargement

Classically, in miliary tuberculosis there are millet-sized nodules present throughout the lung fields, in practice, the chest radiograph is often normal.

Question 17

When should a chest radiograph be performed in the community?

Answer 17

not necessary to perform a chest radiograph in patients with suspected community acquired pneumonia (CAP) unless:

• the diagnosis is in doubt and a chest radiograph will help in a differential diagnosis and management of the acute illness
• progress following treatment for suspected CAP is not satisfactory at review
• the patient is considered at risk of underlying lung pathology such as lung cancer

Question 18

assessment and mx in 1ry care setting

Answer 18

Primary care setting

NICE recommends that patients should initially be assessed in primary care using the CRB65 criteria:

CriterionMarker

C-Confusion (abbreviated mental test score <= 8/10)

R-Respiration rate >= 30/min

B-Blood pressure: systolic <= 90 mmHg and/or diastolic <= 60 mmHg

65Aged- >= 65 years

Patients are stratified for risk of death as follows:

• 0: low risk (less than 1% mortality risk)
• 1 or 2: intermediate risk (1-10% mortality risk)
• 3 or 4: high risk (more than 10% mortality risk).

NICE recommend, in conjunction with clinical judgement:

• home-based care for patients with a CRB65 score of 0
• hospital assessment for all other patients, particularly those with a CRB65 score of 2 or more.

NICE also mention point-of-care CRP test. This is currently not widely available but they make the following recommendation with reference to the use of antibiotic therapy:

• CRP < 20 mg/L - do not routinely offer antibiotic therapy
• CRP 20 - 100 mg/L - consider a delayed antibiotic prescription
• CRP > 100 mg/L - offer antibiotic therapy

Question 19

assessment + mx of CAP in 2ry care setting

Answer 19

Secondary care setting

Note that in hospital, once blood tests are available the CURB65, rather than the CRB65, can be used. This adds an extra criterion of urea > 7 mmol/L:

CriterionMarker

• C Confusion (abbreviated mental test score <= 8/10)
• U urea > 7 mmol/L
• R Respiration rate >= 30/min
• B Blood pressure: systolic <= 90 mmHg and/or diastolic <= 60 mmHg
• 65Aged >= 65 years

NICE recommend, in conjunction with clinical judgement:

• consider home-based care for patients with a CURB65 score of 0 or 1 - low risk (less than 3% mortality risk)
• consider hospital-based care for patients with a CURB65 score of 2 or more - intermediate risk (3-15% mortality risk)
• consider intensive care assessment for patients with a CURB65 score of 3 or more - high risk (more than 15% mortality risk)

Investigations

1. chest x-ray
2. in intermediate or high-risk patients NICE recommend blood and sputum cultures, pneumococcal and legionella urinary antigen tests
3. CRP monitoring is recommend for admitted patients to help determine response to treatment

grading:

🐢 MILD AND NOT PREVIOUSLY RX’D = amox + clarithro

🐢 MOD [CURB 2] = amox + clarithro

🐢 SEV [CURB >3] =beta lactamase stable penecillin + macrolide

🐢 ATYPICAL:

• chlamydia: tetracycline
• PCP: co-trimoxazole [high dose]
• Legionella= clarithro + rifampicin + fluoroquinolone [if severe]

Management of low-severity CAP

• amoxicillin is first-line
• if penicillin allergic then use a macrolide eg. clarithromycin or tetracycline
• NICE now recommend a 5 day course of antibiotics for patients with low severity community acquired pneumonia

Management of moderate and high-severity CAP

• dual antibiotic therapy is recommended with amoxicillin and a macrolide
• a 7-10 day course is recommended
• NICE recommend considering a beta-lactamase stable penicillin such as co-amoxiclav, ceftriaxone or piperacillin with tazobactam and a macrolide in high-severity community acquired pneumonia

Question 20

HAP mx

[same mx in neutrophillic pts too]

Answer 20

aminoglycoside IV

+

antipseudomonal penecillin/3rdgen cepahlosporin iv

Question 21

aspiration pneumonia mx

Answer 21

iv cephalosporin

+

iv metronidazole

Question 22

2 main aims of pneumonia rx

Answer 22

Patients with pneumonia require the following:

1. antibiotics: to treat the underlying infection
2. supportive care: for example oxygen therapy if the patients is hypoxaemic, intravenous fluids if the patient is hypotensive or shows signs of dehydration

Question 23

summary of organisms causing pneumonia

Answer 23

Causes

As mentioned before, bacterial pneumonia is by far the most common type of pneumonia seen in clinical practice. Other infective causes include:

• viral
• fungal (e.g. Pneumocystis jiroveci)

Question 24

Idiopathic interstitial pneumonia

Answer 24

=a group of non-infective causes of pneumonia.

Examples include cryptogenic organizing pneumonia which describes a form of bronchiolitis which may develop as a complication of rheumatoid arthritis or amiodarone therapy.

Question 25

which peeps in ‘at risk’ groups need the pneumococcal vaccine

Answer 25

65yo and older

chronic HLKP failure/conditions

DM

immunosuppression: hyposplenism, chemo, hiv
nb. revaccinate every 6yrs

–> CONTRAINDICATED IN: preg, breast feeding, fever