Meningitis – A Review

Adil Abbasi, MD, FACP


Learning Objectives

By the end of this review, the learner should be able to:


Introduction:

Meningitis is an inflammatory process involving the leptomeninges (pia and arachnoid mater) and the cerebrospinal fluid (CSF) within the subarachnoid space. It may be caused by infectious agents (bacteria, viruses, fungi, mycobacteria, parasites) or non-infectious mechanisms such as autoimmune disorders, neoplastic infiltration, and drug reactions (Hersi 2023).

Clinically, meningitis is characterized by combinations of fever, headache, neck stiffness, and altered mental status, but the presentation is often variable and nonspecific (Carter 2022; Mount 2017). 

Epidemiology, Prevalence, Morbidity, and Mortality:

Meningitis remains a major global public health problem. The World Health Organization notes that bacterial meningitis is particularly devastating: around 1 in 6 affected individuals die, and about 1 in 5 survivors have major sequelae such as hearing loss, cognitive impairment, seizures, or limb loss (WHO 2025). 

Recent global data suggest that community-acquired bacterial meningitis accounts for a substantial proportion of severe CNS infections, though overall incidence has decreased substantially in countries that have widely implemented conjugate vaccines against Haemophilus influenzae type b (Hib), Neisseria meningitidis and Streptococcus pneumoniae (van Ettekoven 2024; Hasbun 2017). 

Despite advances in therapy, case-fatality ratios (CFRs) remain significant. Modern cohorts report adult 30-day mortality from bacterial meningitis around 5–15%, with higher mortality in resource-limited settings and in infections due to S. pneumoniae or in older/immunocompromised patients (van de Beek 2004; Kiyani 2021; Makowiecki 2024). 

Viral meningitis is the most common overall type in many regions, typically caused by enteroviruses, and usually carries a much better prognosis with low mortality (Cantu 2023; CDC 2025). 


Pathophysiology

The pathophysiology varies with the pathogen but follows a common framework:

  1. Colonization and Invasion
  1. Crossing the Blood–Brain or Blood–CSF Barrier
  1. Inflammatory Cascade
  1. Raised Intracranial Pressure (ICP) and Ischemia
  1. Pathogen-Specific Features

Types and Classification

By Time Course

By Etiology

  1. Bacterial meningitis (pyogenic)
  1. Viral (aseptic) meningitis
  1. Fungal meningitis
  1. Tuberculous meningitis (TBM)
  1. Parasitic / eosinophilic meningitis
  1. Non-infectious meningitis

Causes and Risk Factors

Age-Based and Risk-Based Etiologies


Clinical Features (Symptoms and Signs)

Classic Triad and Common Features

The classic presentation of bacterial meningitis consists of:

  1. Fever
  2. Neck stiffness (nuchal rigidity)
  3. Altered mental status

However, these three symptoms are present in only a minority of patients; one study found that 95% of patients with bacterial meningitis had at least two of four features: fever, headache, neck stiffness, or altered consciousness (Carter 2022). 

Other features:

Meningeal signs (Kernig and Brudzinski) have variable sensitivity and specificity and cannot reliably distinguish bacterial from viral meningitis (Mount 2017). 

Special Populations


Diagnostic Approach

Initial Assessment and Stabilization

Meningitis is a medical emergency. In suspected acute bacterial meningitis, guidelines emphasize early empiric antimicrobial therapy, ideally after blood cultures and, when safe, a prompt lumbar puncture (Tunkel 2004; Carter 2022). 

Role of Neuroimaging

CT or MRI of the brain is not mandatory before LP in all patients, but is recommended when there is concern for a mass lesion or markedly raised ICP. Clinical features that should prompt neuroimaging before LP include (Tunkel 2004; Engelborghs 2017; Jane 2023): 

If none of these are present, immediate LP is generally recommended to expedite diagnosis.

Laboratory Studies

  1. Blood tests
  1. Microbiologic tests on CSF (after LP)
  1. Other tests

Lumbar Puncture (LP)

Indications:

Key indications include (AMBOSS 2024; Merck 2024; Stat Pearls 2023): 

Contraindications:

Absolute contraindications (Engelborghs 2017; Medscape 2024; Merck 2024; VIM-Book 2024): 

Relative contraindications:

In suspected acute bacterial meningitis with contraindications to immediate LP, blood cultures should be obtained, and empiric intravenous antibiotics and dexamethasone started before or while arranging neuroimaging and eventual LP (Tunkel 2004). 

Practical Considerations


CSF Findings

Typical Patterns

The following table summarizes typical CSF patterns. Individual patients may show overlaps, especially early in disease or after partial treatment. Data are adapted and synthesized from major clinical references (Merck Manual, AAFP, NCBI Bookshelf, RCH guideline, Geek Medics, and TBM studies). 

(Note: Values are approximate and should be interpreted in clinical context)

Parameter

Normal CSF

Bacterial Meningitis

Viral Meningitis

Fungal Meningitis (e.g., Cryptococcal)

Tuberculous Meningitis

Parasitic / Eosinophilic Meningitis

Opening pressure (cm H₂O)

10–20

↑ (often 20–40)

Normal or mildly ↑

↑ (often markedly ↑, especially cryptococcal)

↑ (often high)

Normal or ↑

Protein (mg/dL)

15–45

↑↑ (100–500+, sometimes >1000)

↑ (50–100) or mild ↑

↑↑ (100–500+)

↑↑ (100–500+, often >1000)

↑ (often 50–200)

Glucose (mg/dL) or CSF:serum ratio

50–80 (ratio ≈ 0.6)

↓ (<40 mg/dL or ratio <0.4)

Usually normal (ratio ≥0.5)

↓ or low-normal (ratio ≤0.4–0.5)

↓ (ratio <0.3–0.4)

Often normal or mildly ↓ (varies with pathogen)

LDH / Lactate

Normal

↑ (lactate >3.5–4 mmol/L strongly suggests bacterial)

Normal or mildly ↑

Variable; can be ↑

pH

~7.32

↓ (more acidic)

Near normal

Variable

Cell count (cells/µL)

<5 WBC, lymphocytes

100–10,000 (often >1000)

50–1000 (commonly <300)

20–500

100–500 (but range wide)

50–1000, often with eosinophilia

Differential

Mostly lymphocytes

Neutrophilic predominance (may become mixed/lymphocytic later or after therapy)

Lymphocytic predominance (early neutrophils possible)

Lymphocytic predominance

Lymphocytic predominance (early PMN possible)

Eosinophils ≥10 cells/µL or ≥10% of WBC

Stains

None

Gram stain often positive (cocci, diplococci, bacilli depending on organism)

Gram stain negative; may do PCR

India ink, Gram stain; fungal stains

Ziehl–Neelsen or auramine for AFB (low sensitivity)

May show parasites or larvae rarely; often none

Other pertinent tests

CSF culture; PCR/broad-range bacterial PCR; antigen tests (e.g., pneumococcal, meningococcal)

Viral PCR (enteroviruses, HSV, VZV, etc.)

Cryptococcal antigen; fungal culture; antigen/PCR for endemic fungi

Mycobacterial culture, NAAT, CSF interferon-γ assays

Serology/PCR for specific parasites (e.g., Angiostrongylus); eosinophil count


Treatment

Important: The following outlines general principles and is for educational purposes. Actual therapy must follow current guidelines and local resistance patterns and be individualized by clinicians.

General Principles in Acute Bacterial Meningitis

  1. Immediate empiric therapy
  1. Adjunctive corticosteroids
  1. Targeted therapy
  1. Supportive and ICU care

Viral Meningitis

Fungal Meningitis

Tuberculous Meningitis (TBM)

Parasitic / Eosinophilic Meningitis

Lyme meningitis.

CSF typically shows:

Diagnosis is confirmed with Lyme serology and/or CSF antibody testing for Borrelia (depending on local protocols).

Treatment:

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Case Scenarios

Case 1 – Acute Bacterial (Meningococcal) Meningitis

Presentation:
A 19-year-old college student presents with 12 hours of high fever, severe headache, photophobia, vomiting, and progressive confusion. On exam: T 39.5°C, HR 120, BP 100/60, neck stiffness, petechial rash on the legs, GCS 13, no focal deficits.

Key points:

Teaching message:
Rapid recognition and treatment of suspected meningococcal meningitis are lifesaving. Close contacts require 
chemoprophylaxis according to public health guidelines.


Case 2 – Subacute Tuberculous Meningitis

Presentation:
A 55-year-old man with poorly controlled diabetes and recent weight loss presents with 3 weeks of headache, low-grade fever, night sweats, and gradual cognitive decline. He has mild neck stiffness and right abducens nerve palsy.

Key points:

Teaching message:
TBM often presents sub acutely with basal meningitis and cranial neuropathies. Diagnostic tests may be insensitive; treatment should not be delayed when suspicion is high. 


Case 3 – Cryptococcal Meningitis in HIV

Presentation:
A 40-year-old man with untreated HIV infection (CD4 ~40 cells/µL) presents with 2 weeks of worsening headache, low-grade fever, and blurred vision. He is oriented but slow to respond. No focal deficits; mild papilledema on fundoscopic exam.

Key points:

Teaching message:
In immunocompromised patients, chronic or subacute meningitis with high opening pressure and lymphocytic CSF should prompt evaluation for 
fungal etiologies such as Cryptococcus.


Chapter Summary (Bullets)


References (Author–Year Format)

Note: All references are presented in author–year style and correspond to the in-text citations above.