CNS infections

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CNS infections

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Title: CNS infections

1
Infections of the CNS/Brain Abscesses

Dr Ngemera Johannes A
MD, Mmed (Int. Medicine)
August 24th , 2023

2
Introduction

The Nervous system
Complex and sophisticated system
Regulates and coordinates body activities
Two major divisions
Central nervous system
Brain
Spinal cord
Peripheral nervous system
Sensory
Motor
Autonomic

3
Meninges

Three layers of membranes that cover the brain
and spinal cord
Dura mater
outer, tough fibrous membrane
Arachnoid mater
middle web-like membrane containing the CSF
Pia mater
innermost layer containing several blood vessels

4
Meninges
5
CNS Infections - Introduction

CNS infections divided into
Meningitis
Primarily involve the Meninges
Encephalitis
primarily confined to the Brain parenchyma
Meningoencephalitis
involve both Meninges and Brain

6
CNS infections causes

Viral
HIV, Cytomegalovirus, Rabies virus, etc
Bacterial
S.pneumoniae, N.meningitidis,
Mycobacterium tuberculosis, Trepanema pallidum,
etc
Fungi
Cryptococcus neoformans, Candida albicans
Protozoa
Toxoplasmosis, Malaria
Helminthes
Taenia solium (cysticercosis)

7
Overview of CNS infections

CNS infections are life-threatening
Associated with high mortality and morbidity
Based on severity, onset of clinical presentation
may be
Acute symptoms manifest within 24 hours,
Sub-acute symptoms last 1-7 days,
Chronic symptoms last over 7 days.

8
Overview of CNS infections

Clinical findings are determined by
anatomic site of involvement
infecting pathogen
host response
Vulnerability of CNS to the effects of
inflammation edema mandates prompt diagnosis
with appropriate therapy if consequences to be
minimized.

9
Pathogenesis

Four routes which infectious agents can enter
the CNS
Hematogenous spread - most common
usually via arterial route
can enter retrograde via veins
Direct implantation - most often is traumatic
iatrogenic (rare) via lumbar puncture
Local extension (secondary to established
infections)
most often from mastoid, frontal sinuses,
infected tooth, etc.
PNS into CNS
viruses (e.g. Rabies, Herpes zoster)

10
Meningitis

Clinical syndrome characterized by inflammation
of the meninges
Meningoencephalitis
Inflammation to meninges and brain parenchyma
Meningitis classified as
acute pyogenic - usually bacterial meningitis
Aseptic - usually acute viral meningitis
Chronic - usually TB, spirochetes, Cryptococcus.

11
Risk Factors

Lack of immunization
against S. pneumoniae, H.influenzae type B in
children
Hematogenous spread after invasion from a mucosal
surface (nasopharynx)
Parameningeal focus
Otitis media
Sinusitis
Extremes of age (lt5 or gt 60 years)
Penetrating head trauma, Previous neurosurgical
procedures, shunts

12
Risk Factors

immunodeficiency
corticosteroids
HIV/AIDS
Diabetes Mellitus
asplenia
hypogammaglobulinemia
complement deficiency
Over crowding
contact with colonized or infected persons e.g.
meningococcal meningitis
anatomical meningeal defects CSF leaks

13
Bacterial meningitis pathogens based on
patients age
Age Common Bacterial pathogens
0 - 4 weeks Strep. agalactiae, E.coli, Salmonella spp. Listeria monocytogenes, Enterococcus spp., Klebsiella pneumoniae,
4-12 week S.agalactiae, E.coli, L.monocytogenes, Haemophilus influenzae, Strept. pneumoniae, Neisseria meningitidis
3 mo - 18yr H.influenzae, N.meningitidis, S.pneumoniae
18 - 50 yr S.pneumoniae, N.meningitidis
gt50 yr S.pneumoniae, N.meningitidis, L.monocytogenes, aerobic gram-negative bacilli
14
Clinical Features

About two third of patients present with triad
of
Fever rapid onset
Neck stiffness
Altered mental status
Other symptoms include
Headache
Photophobia
Lethargy
Malaise
Seizure/convulsions
Vomiting

15
Physical examination

Neurological examination to evaluate for
Focal neurological deficits
increased intracranial pressure (ICP)
Level of consciousness - GCS
Features of meningeal irritation
Neck stiffness
Brudzinskis sign
Kernings sign
Dermatological manifestation
Purpura or petechia ?meningococcemia

16
Glasgow Coma Scale
Score Best Score 15 Comatose
8 Unresponsive - 3
17
Signs of meningeal irritation

Neck stiffness
The neck resists gentle passive flexion of the
neck to bring the chin on to the chest and the
patient experience pain
Kerning's sign
the patient experiences pain and hamstring muscle
spasms on extending the flexed knee
Brudzinskis sign
a forward flexing of the neck elicits involuntary
hip and knee flexion( found in infants and
children)

18
Testing for meningeal irritation
Kernings sign When the patient is lying with
the thigh flexed on the abdomen, the leg cant be
completely extended.
19
Testing for meningeal irritation
Brudziniskis sign When the patients neck is
flexed, involuntary flexion of the knees and hips
is produced.
20
Meningococcal petechial rashes
21
Investigations
22
Investigations

Lumbar Puncture ? CSF analysis
Single most important diagnostic test
Mandatory, especially if bacterial meningitis
suspected.
The desired insertion point of the needle is the
L3-L4 or L4-L5 interspace thus, the needle is
inserted below the level of the spinal cord.

23
Investigations

CSF analysis
Tube 1 Biochemistry ?Glucose, Protein and ADA
Tube 2 Cytology ? cell count and differential
Tube 3 Bacteriology ?Gram stain, AFB stain,
Indian ink Culture and Sensitivity, Cryptococcal
antigen, gene Xpert,
Tube 4 VDRL test, or viral studies (PCR)

24
CSF Characteristics
Bacterial Viral Fungal TB
Opening Pressure Elevated Slight elevated Normal or High Usually high
Glucose Low Normal Low Low
Protein Very high Normal High High
RBCs Few None None None
WBCs/mm3) gt200 lt200 lt50 20-30
Diff PMNs Mono Mono Mono
25
Other Investigations

26
BACTERIAL MENINGITIS

Managements

27
Management

Overall Goals
Promptly recognize the patient with acute CNS
infection
Rapidly initiate appropriate empirical therapy
Rapidly and specifically identify the etiologic
agent, adjusting therapies as indicated
Optimize management of complications

28
Approach to the patient with suspected meningitis
Decision-Making Within the First 30 Minutes
Quick Clinical Assessment
Mode of presentation Less than 24 hours ?
Acute Less than 7 days ? Subacute More
than 1 week ? Chronic
History/physical examination clues
Clinical status of the patient (ABCD)
Integrity of host defenses
29
Treatment - Bacterial Meningitis

Antimicrobial Rx
Recommended route Intravenous
High dose and bolus
Dosing intervals should be appropriate for drug
being administered.
Utilize cidal therapy whenever possible.
Initiate therapy promptly (i.e. within 30 mins)

30
Treatment - Bacterial Meningitis

CNS Penetration
Good Diffusion
Penicillins
3rd and 4th generation Cephalosporins
E.g. Ceftriaxone, Cefotaxime, Cefepime
Chloramphenicol
Rifampin
TSX
Poor Diffusion
Early Gen Cephalosporins, Clindamycin,
Aminoglycosides, Tetracycline and Macrolides

31
Empiric therapy of Meningitis in adults

Community-acquired Meningitis
Likely pathogens
S.Pneumoniae
N.meningitidis
Listeria and H.influenzae
Therapy
Ceftriaxone 2g 12hourly
Vancomycin 1-2g 12hourly
Ampicillin 2g 4hourly

32
Empiric therapy of Meningitis in adults

Closed head trauma
Likely pathogens
S. Pneumoniae
Streptococci
Therapy
Penicillin G 3-4 mU 4hourly AND
Vancomycin 1-2 g 12hourly

33
Specific therapy for known pathogens

S. pneumoniae, N. meningitidis or Streptococci
Pen G 18-24 mU/day, OR Ampicillin ?12 gm/day
Plus
Chloramphenicol ? 75-100 mg/kg/day OR
Ceftriaxone ?2-4 gm/day
H. influenzae
Cefotaxime 12 gm/d
Ceftriaxone 2-4 gm/d
Group B streptococci
Pen G 18-24 mU/d OR
Ampicillin 12 gm/day (plus aminoglycoside)

34
Specific therapy for known pathogens

S. Aureus
Nafcillin 12 gm/d or Vancomycin 2-3 gm/d
Listeria
Ampicillin 12 gm/d or
Pen G 18-24 mu/d plus aminoglycoside
Gram negative bacilli
Cefotaxime 12 gm/d Ceftriaxone 2-4 gm/d
Pseudomonas
Ceftazidime 6-8 gm/d or
Cefepime 6 gm/d plus aminoglycoside

35
Duration of Antibiotic treatment

Depends on causative agent

Organism Duration of treatment
H. influenzae 7 days
N. meningitidis 7 days
S. pneumoniae 10-14 days
L. monocytogenes 14-21 days
Group B streptococci 14-21 days
Gram Negative Rods 21 days
36
Role of corticosteroids in Meningitis

Role of steroids still somewhat uncertain
Recent studies suggested that Dexamethasone is
associated with
? in risk of unfavorable outcome (25?15, RR
0.59) and
? in mortality (15?7, RR for death 0.48)
Benefit primarily ? patients with S. pneumoniae
Dose of Dexamethasone
10mg IV q6h for 4days per protocol,
Given concurrent with or 15-20 minutes before 1st
dose of Antibiotics
Almost all pts with presumed bacterial meningitis
are candidates for at least single dose of
Dexamethasone

37
Aseptic Meningitis
38
Aseptic Meningitis

All non-bacterial causes of meningitis
Typically less ill appearing than bacterial
meningitis
Most common cause is viral
HSV
Consider especially in infants presenting with
seizure
Usually HSV type II
Treat with acyclovir
Enterovirus (coxsackie, echovirus)
Typically occurs during late summer and fall
Spread via respiratory secretions and fecal-oral
Affects all ages
Generally self-limited illness

39
Aseptic Meningitis - Other Viruses

HIV
Arbovirus
Mumps
Cytomegalovirus
Influenza and parainfluenza
Lymphocytic choriomeningitis virus

VZV
Adenovirus
Measles
Rubella
Rotavirus
EBV

40
Aseptic Meningitis

Other infectious
Borrelia burgdorferi
Mycobacterium tuberculosis
Treponema pallidum - Syphilis
Mycoplasma pneumoniae, Chlamydia
Fungal
Cryptococcus, Coccidiodes, Histoplasmosis
Parasitic
Toxoplasmosis

41
Aseptic Meningitis

Malignancies
Lymphoma and leukemia
Metastatic carcinoma
Autoimmune disorders
Sarcoid
Behcets
SLE

42
Meningitis in HIV/AIDS

AIDS defining illness
Infections commonly found in association with HIV
and AIDS include
Cryptococcus neoformans
Pneumocystic jiroveci
Candida species and
Histoplasma capsulatum
TB meningitis

43
Cryptococcal Meningitis

AIDS defining illness
Causative agent
Cryptococcus neoformans
Major cause of meningitis in HIV /AIDS

44
Cryptococcal Meningitis Clinical features

Contrary to bacterial meningitis, the patient may
not suffer from fever in this case.
However, the common presenting features are
severe headache with or without meningism
altered level of consciousness
Diagnosis CSF Analysis
Indian Ink preparation
Cryptococcal Antigen (CRAg test)

45
Cryptococcal Meningitis - Treatment

The preferred regimen - 3 phases
Phase 1 Induction phase
Amphotericin B 0.7mg/kg/day IV, and
5 Flucytosine 100mg/kg/day orally for 14 days
Phase 2 Consolidation phase
Fluconazole 400mg/ day for 8 weeks or until CSF
is sterile.
Phase 3 Suppressive phase
Maintenance therapy with Fluconazole 200mg/day

46
Cryptococcal Meningitis - Treatment

Alternatively regimen
Inj. Fluconazole IV 1.2g daily for 10 days or
until the drug can be administered orally then
continue with the same dose for 10 weeks.
Thereafter maintain 200 mg daily on alternate
days as secondary chemoprophylaxis.
Serial lumbar puncture ? ?intracranial pressure ?
?mortality

47
Tuberculous meningitis

more frequently secondary infection in HIV/AIDS
The usual local source of infection is a caseous
focus in the meninges or brain substance adjacent
to the CSF pathway.
The brain is covered by a greenish, gelatinous
exudate, especially around the base, and numerous
scattered tubercles are found on the meninges.

48
Tuberculous meningitis Clinical features

Symptoms

Signs

Headache
Vomiting
Low-grade fever
Depression
Confusion
Behavior changes

Meningism
Neck stiffness
Kernings sign
Occulomotor palsies
Papilloedema
Altered Conscious level
Focal neurological deficit

49
Tuberculous meningitis

Untreated TB meningitis is fatal in few weeks
Complete recovery if treatment is started before
the appearance of focal signs or stupor
When treatment is started at a later stage,
recovery rate is 60 or less and
survivors show permanent neurological deficit.

50
Investigations

Lumbar puncture ? CSF analysis
?Opening Pressure
Clear but, when allowed to stand, a fine clot
(spider web) may form
WBC up to 500 106 cells/L, predominantly
Lymphocytes
?? Protein and ??glucose.
Positive AFBs, BUT Negative smear does not
exclude the diagnosis
Culture (results up to 6 weeks) treatment must
be started without waiting for confirmation.

51
Investigations

Brain CT-Scan
hydrocephalus
brisk meningeal enhancement on enhanced CT and/or
intracranial tuberculoma
Other Investigations
Sputum for AFBs and Gene Xpert
Mantoux test
FBP ESR
Chest radiography

52
Management

Anti-TB therapy - HRZE
Corticosteroids ?controversial
If given early ? improve mortality but NOT focal
neurological damage
For Obstructive hydrocephalus ? Surgical
ventricular drainage
Supportive Treatment
Adequate hydration
Analgesics/antipyretics
Anticonvulsants
Nutrition

53
TOXOPLASMOSIS
54
Toxoplasmosis

Causative Organism
Toxoplasma gondii intracellular protozoan
parasite.
Cat is a definitive host,
human and other animal are infected accidentally
from ingestion of food or water containing cat
faeces and by ingestion of undercooked meat of
infected animal.
Nearly all cases are associated with HIV related
immuno-suppression. mainly with CD4 count
lt100cell/mm3

55
Clinical features

Headache
Sub acute onset - days to weeks
Fever
Neurological sign - Pattern depend on brain
affected area
hemiparesis,
cranial nerve palsies
ataxia,
cofusion,
altered level of consciousness,
seizures

56
Diagnosis

Positive serological screening test
usually indicates previous exposure rather than
active disease.
Cerebrospinal fluid analysis
non diagnostic
Brain CT-Scan
shows ring enhancing lesions with surrounding
edema usually in basal ganglia or at the junction
of grey white matter in the cortex

57
Brain CT-Scan
ring enhancing lesions with surrounding edema
58
Management

High dose Trimethoprim/Sulphamethoxazole
1920mg twice a day for 4 weeks
Then 960mg twice a day for 8 weeks
Secondary prophylaxis
960mg daily if CD4 Count is lt350 cell/mm3

59
Management

The 6-week regimen is as follows
Pyrimethamine (100mg Stat, 25-50 mg/day) plus
Sulfadiazine (2-4 g/day divided 4 times daily) OR
Pyrimethamine (100stat, then 25-50 mg/day) plus
Clindamycin (300 mg orally 4 times daily)
Folinic acid (leucovorin) (10-25 mg/day) should
be given to all patients to prevent hematologic
toxicity of pyrimethamine
alternative
Trimethoprim (10 mg/kg/day) sulfamethoxazole (50
mg/kg/day) for 4 weeks

60
Neurocysticercosis

arises from the larvae of the pork tapeworm,
Tinea solium.
most common parasitic causing CNS disease.
develops when humans ingest ova from human
faeces-larval migrate and develop to cysts in
human brain or other organs.(intermediate host)
If human eat undercooked and measly pork
containing the viable larvae.
larvae develop to adult tapeworm in small
intestine. (Definitive host)

61
Clinical features

Single or repeated seizures, in gt 90 of cases
May also cause focal neurological disorders
hemiparesis,
hydrocephalus.

62
Diagnosis

Brain CT-scan or MRI
Serology

63
Neurocysticercosis - Brain CT Scan
Calcifications appear as hyperdense lesions
without surrounding inflammation, edema nor
enhancement
64
Treatment

Albendazole
15mg/kg 2-4 weeks or
Praziquantel
25mg/kg tds 2-3 weeks
AND
Steroids
Dexamethasone 8mg TDS gt 7days or
Prednisolone 60mg OD gt7 days

65
Prevention

personal hygiene
mass Rx
safe, faeces disposal,
pig husbandry meat inspection

66
Brain Abscess
67
Brain Abscess

Focal collection within brain parenchyma
Intracranial abscesses are uncommon, serious,
life-threatening infections.
Classified according to the anatomical location
or the etiologic agent

68
Pathogenesis

Direct (45-50 of cases)
Usually causes a single (Focal) abscess
may occur from necrotic areas of osteomyelitis
more commonly associated with subacute and
chronic otitis infection and mastoiditis
May extend to various sites in the CNS, causing
Cavernous sinus thrombosis
Retrograde meningitis and
epidural, subdural, and brain abscess.

69
Pathogenesis

Hematogenous ( 25)
From a distant focus
Commonly cause multiple and multiloculated
abscesses
No identifiable sources in 20-40 of the cases
The most common effected lobes (in descending
frequency) are the fontal, temporal, parietal,
cerebellar, and occipital.

70
Pathogenesis

Trauma
Open skull fracture allows organisms to seed
directly in the brain.
Brain abscess can also occur as a complication
of
intracranial surgery, and
foreign body, such as bullets
Occasionally brain abscess can develop after
trauma to the face.
Cryptogenic (at least 15 of cases)
Unknown source of the infection

71
Primary sources in direct spread and distribution
of abscess

Otitis media inferior temporal lobe and
cerebellum
Frontal or ethmoid sinuses frontal lobe
Dental caries frontal lobe
Foreign bodies - bullet

72
Primary sources of hematogenous spread

Chronic pulmonary infections
Lung abscess and empyema
Skin infection
Intrabdominal and pelvic infection
Bacterial endocarditis
Cyanotic congenital heart disease most common
in children

73
Causative organisms

Anaerobics
Usually mouth flora
May be from pelvic or intraabdominal infections
multiple abscesses
E.g. anaerobic streptococci, bacteroides species,
fusobacterium

74
Causative organisms

Aerobics
Gram positive
Staphylococcus aureus neurosurgery and trauma
Streptococcus milleri proteolytic enzymes that
cause necrosis
Others viridans streptococci, microaerophilic
streptocci
Gram negative
Usually from trauma or neurosurgery
Klebsiella pneumoniae, Pseudodomonas species,
E.coli, and Proteus species

75
Immunocompromised hosts

Opportunistic infections
Toxoplasma gondii
Listeria
Fungi
Aspergillus,
cryptococcus neoformans,
coccidiodidides immitis,
Candida albicans

76
Immigrants

Parasites
Cysticercosis
85 of brain infection in Mexico city

77
Symptoms

Headache most common
Neck stiffness
Associated with occipital abscess
Abscess leaks into lateral ventricle
Altered mental status cerebral edema
Vomiting increased intracranial pressure

78
Physical finding

Fever not very reliable, since only 45-50
present
Focal neurological deficit days or weeks after
onset of headache
Seizure
25 of the cases
May be first manifestation of brain abscess
Grand mal in frontal infection
Third or sixth cranial palsy increased
intracranial pressure
Papilledema cerebral edema

79
Investigations

CT scan with contrast
MRI with gadolinium diethylenetriamine
Lumbar puncture
Contraindicated
Analysis
WBC lt 500/mm3 with predominately lymphocytes
WBC gt 1,000/mm3 consistent with meningitis but
not improved with antibiotics, consider MRI for
ruptured abscess

80
Treatment options

Antibiotics 6 to 8 weeks
Surgical drainage

81
Antibiotics for Brain abscess

Penicillin G
Aerobic and anaerobic streptococci from mouth
flora
Metronidazole
against anaerobes but not aerobes, good
intralesional penetration
Ceftriaxone or cefotaxime
Enterobacteraciae, particular chronic ear
infection
Ceftazidime
neurosurgery and p. aeruginosa
Oxacillin or nafcillin
head trauma or neurosurgery, mainly staph. aureus
coverage
Vancomycin
MRSA
Aminoglycosides
poor blood brain barrier, not use

82
Surgical drainage

Indications
No clinical improvement within a week
Depressed sensorium
Increased intracranial pressure
Progressive increase in the ring diameter of the
abscess

83
Surgical approach

Needle aspiration
Prefer approach because of less neurological
deficit
Under ultrasound or CT guided
Surgical excision
More neurological deficit
Prefer in traumatic abscess, particularly with
foreign body,and encapsulated fungal abscess
Advantages shorten antibiotics to 2 to 4 weeks
and less relapse

84
Steroid use