Infections of Nervous System New.pptx

Transcript

Infections of
Nervous
System
Meningitis
and
Encephalitis
Prof Naga
 Account for around 4% of infections in the
ICU. Associated with significant morbidity
and mortality.
Early recognition and treatment improves
outcomes
Urgent brain imaging when clinical
evidence of raised ICP before lumbar
Key points puncture, but this should not delay
treatment with antibiotics.
Geographical location and immune status
should be considered when determining
the likely causative organism
Autoimmune encephalitis is suspected
CNS infection when microbiological tests
are negative.
 CNS can be infected by:
Parasites (hydatid cysts, cysticercosis)
Protozoa (toxoplasmosis)
Rickettsiae ( Rocky Mountain spotted fever)
Spirochetes (syphilis, leptospirosis, Lyme
disease)
Introducti Fungi (cryptococcus, candida)

on Chronic mycobacteria (TB, leprosy)
Pyogenic bacteria (meningococcus,
haemophilus influenza)
Chronic viruses (AIDS, SSPE)
Acute viruses (HSV, H Zoster, polio virus)
Prion disease ( Creutzfeldt-Jacob disease)
Mycoplasma (M pneumonia)
 Bacterial meningitis is defined as
inflammation of the meninges, particularly
the pia and arachnoid associated with
invasion of bacteria into the subarachnoid
space.
It is thought that bacterial invasion into
CNS is preceded by high-grade
bacteraemia, invasion in highly
Meningitis vascularized sites- choroid plexus and
leptomeningeal vessels.
Another source of entry is direct access to
CNS via local access as in sinusitis, or via
dural defects following trauma, surgery or
base of skull fracture or spontaneous.
Bacterial invasion leads to endothelial
activation and leucocyte infiltration.
Bacterial Infections
Acute Bacterial Meningitis 2 classical signs: Kernig’s sign
Medical emergency. and Brudzinski’s sign.
Headache, fever and neck Kernig’s sign: pain upon
stiffness. Confused, reduced passive extension at the knee
consciousness, seizures and when the hip is flexed.
other focal neurology Brudzinski’s sign: involuntary
depending on the extent of
involvement. flexion at the hips when the neck
(meningoencephalitis). is flexed.
Photophobia and vomiting A non-blanching petechial or
are often present. purpuric rash- meningococcal
infection.
Aetiology
Common organisms causing bacterial meningitis vary
depending on the age of presentation.
Streptococcus pneumoniae, Neisseria
meningitides, Haemophilus influenza- vaccination
against these have reduced the incidence among
children.
Spread: haematogenous from respiratory tract.
Traumatic or mechanical invasion into the subarachnoid
space such as after neurosurgery or open head injury.
Sinuses-----parameningeal foci to subarachnoid space.
 CSF analysis from lumbar puncture.
CT scan must be performed prior to LP to
avoid brain herniation if papilledema or
focal neurology is present.
CSF characteristics: elevated WBC
count, predominance of
Diagnosi polymorphonuclear leukocytes,
elevated protein and low glucose.
s CSF: gram stain, culture and sensitivity.
Auramine stain (TB) and India ink
stain (cryptococcal infection) in
immunocompromised or at-risk individual.
Empiric antibiotic therapy if potentially
life threatening.
 Appropriate antibiotic therapy promptly with
specific drugs chosen on most likely
organisms------Subsequently modified on Gram
stain and culture results.
IV Cefotaxime 2g 6-hourly for the initial
treatment of acute bacterial meningitis
Add IV Ampicillin 2g 4-hourly or co-
Treatmen trimoxazole if risk of Listeria (elderly or
immunocompromised)
t Key points:
a) medical emergency.
b) Classic CSF profile: high WBC count, high
protein and low glucose.
c) Antibiotics can be tailored based upon the
identification of responsible organisms and
penetration into subarachnoid space.
 Oral Rifampicin or Ciprofloxacin
to eradicate nasopharyngeal
carriage of the meningococcus.
Meningoco Those who had prolonged contact in
ccal a household setting during the 7
Prophylaxi days before the onset of the illness.
s A vaccine for meningococcal group
C and Haemophilus Influenza is now
a part of the routine childhood
immunization.
Tuberculous infection.
TB meningitis, intracranial tuberculoma, Pott disease of the
spine.
Affects basal meninges and thus can present with cranial nerve
palsies.
Basal meningitis leads to hydrocephalus or brain infarcts.
Subacute or chronic insidious presentation- prolonged prodrome of
malaise and non-specific symptoms.
CSF: leucocytosis with lymphocyte dominance and CSF glucose is
often very low.
AFB staining, cultures and PCR testing for antigens.
Anti-TB treatment for 9 months at least.
Brain Abscess
Presents like any other intracranial lesions: headache, focal
neurological signs, seizures and signs of raised ICP. Fever +/-
Most abscesses contain multiple organisms, often a mixture of aerobic and
anaerobic pathogens.
Routes of infection: sinuses, open trauma, mechanical instrumentation,
infective endocarditis or immunocompromised states.
Diagnosis: CT or MRI with iv contrast will show a mass lesion with ring
enhancement.
SPECT can distinguish a neoplasm from an abscess.
Blood cultures and neurosurgical drainage for definite pathogen.
Prolonged courses of iv antibiotics with broad spectrum coverage of
aerobic and anaerobic organisms or specifically tailored.
Spinal Epidural Abscess
Typically present with a combination of neck or back pain and focal
neurological signs of cord compression or cauda equina
involvement.
For thoracic and lumbar abscess, these signs include lower extremity
weakness, sensory loss with a detectable sensory level, urinary and sexual
dysfunction. For cervical involvement, upper extremities may be affected.
Fever +/-.
An acute presentation suggests associated spinal cord infarction.
Cause: spinal and epidural anaesthesia, spinal surgery, vertebral
osteomyelitis or diskitis.
CT or MRI with contrast. LP contraindicated. Blood cultures/
radiologically guided biopsy or drainage for culture and sensitivity.
Prolonged course of antibiotics.
Viral Infections
Viral Meningitis: commonly caused by enteroviruses
such as Coxsackie virus or arboviruses such as West Nile
virus..
Clinically very similar to acute bacterial meningitis.
CSF profile: lymphocyte dominance, elevated protein and
normal glucose levels.
Gram stain and bacterial culture negative.
Blood and CSF tests for virus specific serologies and PCR
assays.
Treatment supportive unless herpes simplex virus (HSV1)
is suspected.
Encephalitis
Viral encephalitis affects brain parenchyma- headaches, fever,
altered conscious level, seizures and focal neurological signs.
HSV 1: predilection for base of the brain especially medial temporal
lobes and orbitofrontal regions of cortex.
Limbic dysfunction, complex partial seizures of mesial temporal lobe
origin, hallucinations and memory disturbances.
CSF: elevated RBC count in addition to leucocytosis. CSF PCR for
HSV1.
EEG periodic discharges over one or both temporal lobes.
Prolonged iv acyclovir. Supportive care, analgesics and anticonvulsants
are appropriate. IV Acyclovir- (10 mg/kg every 8 hours for 2 to 3
weeks)
Fungal Infections
Cryptococcus neoformans, Coccidioides immitis,
Histoplasma capsulatum, candida species.
Cryptococcus is the most common. Immunocompromised as
well as immunocompetent hosts rarely.
Routes: inhalation of the fungus present in soil and pigeon
droppings.
Insidious- headache, neck pain, confusion and fever.
CSF: lymphocyte dominance (except initially), elevated
protein and low glucose. India ink stain, rapid agglutination
assay.
Treatment- amphotericin.
Parasitic Infections
Toxoplasmosis:
Toxoplasma gondii an intracellular parasite.
Congenital Toxoplasmosis is one of TORCH: Toxoplasma,
Rubella, CMV, HSV.
From cat faeces, under-cooked meat.
Intracranial infection in AIDS patients.
Imaging: multiple ring-enhancing lesions in basal ganglia or
at the grey-white matter junction.
Serologies and CSF PCR assays.
Brain biopsy if no improvement with treatment.
Neurocysticercosis.
Pork tapeworm, Taenia solium is a common parasitic
infection causing new-onset focal seizures.
Endemic in Central and South America.
Multiple cystic lesions which can be ring-enhancing or
calcified.
Treatment: albendazole and steroids.
HIV Infection
Late complications of direct HIV infection or prolonged
immunosuppression.
HIV-associated Dementia.
Vacuolar myelopathy- posterior column signs (loss of vibration and
position sense with sensory ataxia, spasticity and hyperreflexia.
Progressive multifocal leukoencephalopathy- demyelinating disease
of the CNS.
JC virus infection of oligodendrocytes.
MRI shows patchy, non-enhancing foci of T2 hyperintensity within
subcortical white matter.
Opportunistic infections like toxoplasmosis and cryptococcus
Primary CNS lymphoma – EBV
Neurosyphilis
Rare now.
Asymptomatic neurosyphilis: positive serology without
symptoms and signs.
Meningovascular syphilis (3-4 years): subacute meningitis
with cranial nerve palsies, Gumma as a mass lesion,
paraparesis.
General paralysis of the insane (10-15 years): progressive
dementia, brisk reflexes and upgoing plantars.
Tabes Dorsalis: Argyll Robertson pupils, ptosis and optic
atrophy, ataxia, sharp shooting neuropathic pain, neuropathic
joints (Charcot joints.
Treatment with benzyl penicillin 1 gm daily im for 10 days.
Transmissible spongiform
encephalopathy
Creutzfeldt-Jakob Disease.
Progressive dementia after 50 years of age.
Spongiform changes in the brain.
Caused by prions (proteinaceous infective particle)
Sporadic or infected material like corneal grafts and
human growth hormone.
VCJD, a variant neuropsychiatric symptoms, ataxia and
dementia.
Younger age group.
Diagnosis by tonsillar biopsy and CSG gel
electrophoresis.
Post-infective neurological
syndromes
A) Acute disseminated encephalomyelitis:
Days or weeks after an infection or immunization, a
multifocal perivascular allergic reaction in the CNS,
associated with demyelination may occur.
Clinical expression may range from mild features of an
acute encephalomyelitis to a major focal or multifocal
neurological deficits to a life-threatening syndrome with
seizures, bilateral neurological signs, ataxia, brainstem
signs and coma.
Cont’d
B) Guillain-Barre syndrome:
Post-infectious immunological lesion affects the spinal roots, cranial
and peripheral nerves.
Damage to myelin.
Progressive weakness and numbness over 1-4 weeks.
The clinical state and pathological process stabilize with subsequent
recovery.
Recovery is usually complete, whereas persistent deficits are not
uncommon.
Schwann cells can reconstitute nerve myelin with greater efficiency
than oligodendrocytes within CNS
Cont’d
C) Reye’s syndrome:
Occurs in young children.
Damage to brain and liver in the wake of a viral
infection.
Especially influenza and varicella.
Treatment of child’s infection with aspirin seems to
increase the chances of developing the syndrome.
Vomiting, rapidly progressing to coma, seizures, raised
ICP (cerebral oedema) and bilateral neurological signs.
Abnormal LFTs, hypoglycaemia seen.
Cont’d
D) Myalgic encephalomyelitis:
A small number of patients enters into a protracted
clinical state following a viral infection.
Extreme tiredness, reduced exercise tolerance, muscle
aches and pains develop.
May last for months or even years.
Status of the illness not fully established.
? Psychosomatic or ? Immunological.
? Coxsackie B infection
Cont’d
Sydenham’s chorea (St Vitus’ dance):
Group A streptococcal sore throats, were common in
children.
Chorea with altered mental and emotional state.
1-4 weeks after the infection.
Lasts a few weeks, then settle with occasional relapses.
Rheumatic fever and raised ASOT titres in the blood.
Very rare now.
Q1
A 40-year-old alcoholic presented with 4-week history of headache,
lethargy and mental symptoms. On examination, he was conscious
but confused with signs of mild meningeal irritation. Results of CSF
examination:
Pressure 32 cm H2O.
White cells: 225/mm3 (70% lymphocytes and 30% polymorphs).
Protein 1.3 g/L (0.1 to 0.45), Glucose 1.7 mmol/L (blood glucose 6.4
mmol/L. CSF glucose 50 to 70% of blood level
Gram stain: negative
1) What further tests should be done on this CSF sample?
2) What is the most likely diagnosis?
Answers Q 1.
1) Ziehl-Neilson stain, Culture for pyogenic organisms,
mycobacterium and fungi
2) Tuberculous meningitis
Q 2.
A previously healthy 45-year-old man is admitted with 2-day
history of headache, fever, increasing confusion and seizures. He
was taking ampicillin for his sore throat. The first CSF sample on
admission and second sample 10 days later because of failure to
respond to antibiotics
1st and anti-TB
2nd drugs.
sample sample
WBC 67/mm3 150/mm3
Neutrophi 80% 10%
ls
Lymphocy 20% 90%
te
Red cells 1/mm3 10/mm3
Protein 0.47 g/L 1.2 g/L
CSF 3.8 3 mmol/L
glucose mmol/l
Answer 2
Presentation and initial sample- probably viral
encephalitis, partially treated bacterial meningitis or TB
meningitis.
However, seizures occurring early, increased
lymphocytes in CSF, normal glucose level and lack of
response to treatment favour encephalitis.
Herpes simplex is likely.
When in doubt, start IV acyclovir.
Q 3.
A 35-year-old male homosexual is seen for acute
confusional state. CSF sample showed:
Protein 0.46 g/L
WBC < 5/mm3
Glucose 2.4 mmol/L (blood glucose 5.2 mmol/L)
TPHA positive
VDRL negative
How would you interpret the results?
Answer Q 3
Previously treated neurosyphilis.
The presence of anti-treponemal antibodies in an
otherwise normal CSF (protein, cells and negative VDRL)
is evidence of previous, probably treated.
Specific tests TPHA, FTA (FTA-Abs) are specific.
VDRL non-specific but used to assess activity of disease.
Clinical presentation is unrelated.
Q4
A 28-year-old iv drug user was admitted with a 3-day
history of headache. He was febrile 38 degrees C, mild
neck stiffness; and CT Brain was normal. HIV screen
positive.
CSF: Protein 0.58 g/L, Red cell count < 5/mm3, WBC
count 32/mm3,
Glucose 3.5 (blood glucose 6.2), Gram stain-negative,
Ziehl-Neilsen stain- negative, TPHA, VDRL- negative.
What infective cause should be actively sought?
Answer Q 4
Cryptococcus neoformans.
Fungal complication of HIV infection.
Meningeal irritation, CSF showing lymphocytic pleocytosis
with normal glucose.
Cryptococcal meningitis causes subacute granulomatous
meningitis, severe meningoencephalitis, raised ICP, focal
deficits and systemic upset.
India ink staining is positive in 50-60% of cases. Latex
agglutination test is definitive.
IV amphotericin B