138 - Acute Meningitis

Question 1

What is meningitis?

Answer 1

Acute purulent infection within subarachnoid space, which may involve meninges, SAS and brain parenchyma (meningoencephalitis)
A/w CNS inflammatory reaction - reduced consciousness, seizures, raised ICP, stroke

Question 2

What are the commonest bacterias for bacterial meningitis? (5)

Answer 2

1. Streptococcus pneumoniae (~50%)
2. Neisseria meningitis (~25%)
3. Group B streptococci (~15%)
4. Listeria monocytogenes (~10%)
5. Haemophilus influenzae type B (<10%) - significantly reduced due to vaccination

Question 3

What are the commonest viruses for viral meningitis? (6)

Answer 3

1. Enteroviruses (Coxsackie, echovirus)
2. VZV
3. HSV
4. EBV
5. Arboviruses (West Nile)
6. HIV

Question 4

What is the commonest pathogen causing meningitis?
What are the risk factors for pneumococcal meningitis? (8)
What is the mortality prognosis with treatment?

Answer 4

Streptococcus pneumoniae

Risk Factors
1. Pneumococcal pneumonia (main risk factor)
2. Acute or chronic pneumococcal sinusitis or OM
3. Alcoholism
4. Diabetes
5. Splenectomy
6. Hypogammaglobulinaemia
7. Complement deficiency
8. Basilar skull fracture - CSF rhinorrhoea

Mortality: 20% despite antibiotics treatment

Question 5

Why is the incidence of Neisseria meningitidis still > 10% despite vaccine available?
What is the ACIP guideline of vaccination for N. meningiditis?

Answer 5

Routine immunisation 11-18 years old with quadrivalent meningococcal conjugate vaccine (A, C, W, Y) does not contain serogroup B (responsible for 1/3 of cases)

ACIP recommends further vaccination with quadrivalent + serogroup B meningococcal vaccine
- Serogroup B vaccine is poorly immunogenic - does not reduce nasopharyngeal carrriage -> requires quadrivalent for reduction

Question 6

What are the factors influencing pathogenicity of N. meningitidis and severity of N. meningitidis?

Answer 6

Initiation: often via nasopharyngeal colonisation
Factors: virulence factor, host immune defense
(individuals with complement deficiency highly susceptible)

Can be fulminant - petechial or purpuric rashes
Progressing to death within hours

Question 7

What are the risk factors for gram negative bacilli meningitis?

Answer 7

1. Diabetes
2. Cirrhosis and alcoholism
3. Recurrent UTI
4. Trauma with CSF rhinorrhoea or otorrhoea

Complicates neurosurgical procedures - craniotomy

Question 8

What are the bacterial meningitis associated with ENT infections? (5)

Answer 8

1. Streptococcus
2. Gram negative anaerobes
3. Staphylococcus aurues
4. Haemophilus
5. Enterobacteriaceae

Question 9

What are the bacterial meningitis associated with endocarditis? (5)

Answer 9

1. Viridans streptococci
2. Staphylococcus aureus
3. Streptococcus bovis
4. HACEK
5. Enterococci

Question 10

What bacterial meningitis is associated with young (neonates), elderly (>50 years) and immunocompromised? (3)

What are food contaminated with listeria? (4)

Answer 10

1. GBS
2. Streptococcus agalactiae
3. Listeria monocytogenes

Food contaminated with Listeria
Coleslaw
Milk and cheese
Ready-to-eat food - delicatessen meat, hotdogs
Melons (rockmelons)

Question 11

What are conditions associated with S. aurues and CONS meningitis?

Answer 11

1. Invasive neurosurigcal procedures - shunt for hydrocephalus
2. Subcutaneous Ommaya reservoirs (IT chemotherapy)

Question 12

Pathophysiology of bacterial meningitis

Answer 12

1. Colonisation and Transportation of Bacteria
   - S. pneumoniae, N. meningitidis most common
   - Colonises nasopharynx by attaching to epithelial cells
   - Transported across in membrane-bound vacuoles or invasion via separations in apical tight junctions -> bloodstream
2. Polysaccharide capsule -> avoids phagocytosis
3. Dissemination
   A. Bloodstream -> intraventricular choroid plexus -> infection and access to CSF
   B. Adherence of cerebral capillary endothelial cells -> migration into CSF
4. Rapid multiplication within CSF - absence of host immune defencses (very few WBC, complements, Ig)
5. Inflammatory and immune reaction to invading bacteria
   –> Responsible for neurologic injury and progression even after CSF has been sterilised by antibiotics
   - Bacteria cell wall lysis and components (GNR LPS molecules,
   s. pneumoniae teichoic acid, peptidoglycans) induce meningeal inflammation
   - Cytokines and chemokines release from immune cells, leukocytosis
   - Production of excitatory amino acids, ROS, RNS, mediators incude brain cell death, especially hippocampus dentate gyrus
6. Action of cytokines and chemokines
   - TNF-a and IL-1b increases permeabiltiy of BBB
   > Induction of vasogenic oedema, leakage of serum proteins into SAS
   - Proteinaceous material exudates and leukocytes obstruct flow of CSF, diminishes resorptive capacity of arachnoid granulations in dural sinuses
   > Obstructive and communicating hydrocephalus, concomittant interstitial oedema
   - Upregulation of selectins on capillary endothelial cells, leukocytes
   > Leukocyte adherence to endothelial cells and migration into CSF
   > Increases permeability of blood vessels, further worsening plasma protein leakage into CSF
7. Neutrophil degranulation
   - Toxic metabolites -> cytotoxic oedema, cell death
   –> CSF leukocytes do more harm than clearance of bacterial infections
8. Cerebrovascular dysregulation
   - Initial increased blood flow -> reduced due to narrowing of large arteries from enroachment of purulent exudates in SAS, infiltration of aterial wall by inflammatory cells
   - Vasculitis and intimal thickening
   –> Ischaemia, infarction
   > Frequently obstructs/thrombosis in branch of MCA, cerebral venous sinuses, thrombophlebitis of cerebral cortical veins
9. Raised ICP due to interstitial, vasogenic, cytotoxic oedema
   - Coma
   - Herniation
   - Hydrocephalus

Question 13

What is the classical triad of meningitis? (3)

Answer 13

1. Fever
2. Headache
3. Nuchal (neck) rigidity

Occurs in >80% of adult cases

Question 14

What are other features of meningitis apart from classical triad?

Answer 14

1. Classical triad (80%) - fever, headache, neck stiffness
2. Reduced level of consciousness (75%) - lethargy to coma
3. Nausea, vomiting
4. Photophobia
5. Seizure (15-40%)
   > Focal - arterial ischaemia or inarct, CVT, focal oedema
   > Generalised - hyponatraemia, cerebral anoxia, toxic effect of antibiotics/antivirals
6. Raised ICP -> obtundation, coma
   (>90% opening pressure > 400mmH2O)
   > reduced consciousness, papilloedema, dilated sluggish pupils, CN6 palsy, decerebrate posture
7. Cerebral herniation (1-8%) - Cushing reflex (bradycardia, hypertension, irregular respiration)
8. Special features - meningococcaemia rashes
   - Diffuse erythematous maculopapular rash
   - Petechial rashes over trunk, lower extremitis, mucous membrane, conjunctiva, palms, soles

Question 15

Neck stifness is the pathognomonic sign of __, present when neck resists passive __

Kernig’s sign - supine position, thigh and knee flexed on the abdomen, on knee passive __ pain is elicited.

Brudzinski’s sign - supine position, neck passive __ causes spontaneous flexion of hips and knees

** May be false positive in cervical spine disease **

Answer 15

Neck stifness is the pathognomonic sign of meningitis, present when neck resists passive flexion

Kernig’s sign - supine position, thigh and knee flexed on the abdomen, on knee passive extension pain is elicited.

Brudzinski’s sign - supine position, neck passive flexion causes spontaneous flexion of hips and knees

** May be false positive in cervical spine disease **

Question 16

Lumbar puncture findings in bacterial meningitis:
- Opening pressure
- WBC
- Glucose
- CSF/serum glucose ratio
- Protein
- Gram stain positivity rate
- CSF culture positivity rate
- Latex agglutination or PCR

Answer 16

Opening pressure: > 180mmH2O
WBC: 10-10,000/uL, neutrophils predominant
RBC: absent
Glucose: < 2.2 mmol/L (< 40mg/dL)
CSF/serum glucose ratio: low < 0.6, highly suggestive if < 0.4
Protein: > 0.45g/L (> 45mg/dL)
Gram stain: positive in > 60%
CSF culture: positive in > 80%
Latex agglutination test or PCR: S. pneumoniae, N. meningitidis, E. coli, L. monocytogenes, H. influenzae, S. agalactiae, viruses

Question 17

Will antibiotics initiation prior to LP affect CSF result?

Answer 17

No - CSF WBC, glucose concentration, organisms, PCR will likely remained similar and investigative

Question 18

Will hypoglycaemia protocol treatment with 50mL D50% affect CSF glucose concentration?

Answer 18

No - it takes at least 30 minutes to several hours for CSF glucose to reach equilibrium with blood glucose

Question 19

Poor prognosis indicators (8)

Answer 19

1. Reduced consciousness on admission
2. Onset of seizure within 24 hours of admission
3. Signs of increased ICP
4. Age - young (infants) and > 50 years old
5. Severity - shock, mechanical ventilation
6. Delayed treatment initiation
7. Reduced CSF glucose < 2.2mmol
8. Marked increased CSF protein (> 3g/L)

Question 20

What are the sequelae of meningitis? (7)
Incidence of sequelae in ___ survivors

Answer 20

Incidence of sequelae ~25% survivors

Sequelae:
1. Intellectual function disability
2. Memory impairment
3. Seizure and epilepsy
4. Sensorineural hearing loss
5. Chronic dizziness
6. Gait disturbance, ataxia
7. Hemiparesis, hemianopia, CN palsy

Question 21

Empirical treatment for meningitis and rationality

Answer 21

Combination: 3rd/4th gen cephalopsporin + acyclovir

1. Ceftriaxone 2g Q12H
   - S. pneumoniae, GBS, H. influenzae, N. meningitidis
2. Acyclovir 800mg Q8H
   - HSV
   —————–
3. Add on ampicillin in:
   - L. monocytogenes in < 3months or > 55 years
   - Impaired cell mediated immunity: chronic illness, transplant, pregnancy, malignancy, immunosuppressed
4. Add on metronidazole in:
   - Gram negative anaerobes in otitis, sinusitis, mastoiditis
   —————-
5. Hospital acquired bacterial meningitis
   > vancomycin + ceftazidime or meropenem
   - MRSA, P. aeruginosa

Question 22

What are the possible adverse effect of cephalosporins, especially cefepime, in treatment of meningitis?

Answer 22

Seizures
Myoclonus
Encephalopathy

Question 23

Definitive treatment for N. meningitidis meningitis
- Antibiotics, duration, chemoprophylaxis for close contact

Answer 23

A. Antibiotics
- Penicillin sensitive: penicillin G or ampicillin
- Penicillin resistance: ceftriaxone (or cefotaxime)

B. Duration: 7 days

C. Chemoprophylaxis
- Rifampin 600mg Q12H for 2 days (adult) or 10mg/kg Q12H for 2 days in children > 1 years
(Not recommended in pregnant women)
- Others: PO azithromycin 500mg once dose
- Others: IM ceftriaxone 250mg once dose

Close contacts: oropharyngeal secretions - kissing, sharing toys, beverages, cigarettes

Question 24

What is the normal composition of CSF?
- Opening pressure, WBC, RBC, glucose, protein

Answer 24

Opening pressure: 8-15mmHg or 100-180mmH2O
WBC: 0-5/mm3
RBC: 0/mm3
Glucose: 2.5 - 4.4mmol/L (45-80mg/dL)
Protein: 15-45mg/dL

Question 25

What are the common contraindications to LP? (6)

Answer 25

• Localised skin infection: cellulitis, abscess
• Space-occupying lesion
• Herniation - uncal, central, transtentorial, cerebellar
• Coagulopathy - thrombocytopenia, liver failure
• Anticoagulant use
• Patient refusal

Question 26

Role of adjunctive corticosteroids in treatment of bacterial meningitis

Answer 26

Dose: IV dexamethasone 4mg Q6H for 4 days
Indication: streptococcus pneumoniae bacterial meningitis
- If CSF culture not S. pneumoniae, can be discontinued

Mechanism of action:
- Reduces ICP, brain oedema and meningeal inflammation
- Reduces inciidence of sensorineural hearing loss
- Significant reduction in unfavourable outcome and mortality