Meningitis pathophysiology

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Meningitis Main Page

Patient Information

Overview

Causes

Classification

Viral Meningitis
Bacterial Meningitis
Fungal Meningitis

Differential Diagnosis

Diagnosis

Treatment

Editor-In-Chief: C. Michael Gibson, M.S., M.D. [1]; Associate Editor(s)-In-Chief: Cafer Zorkun, M.D., Ph.D. [2]

Overview

Pathophysiology

The clinical picture of meningitis largely arises from the host response to the inciting organism in the CSF.

  • It seems that the subcapsular components (the cell wall and lipopolysaccharide) of bacteria are more important in determining inflammation than the surface components (pili and polysaccharide capsule).
  • The primary site of breakdown of the blood-brain barrier is the cerebral microvascular endothelium.
    • Electron microscope (EM) studies have shown complete separation of the intercellular tight junctions
  • It appears that there is a final common pathway, mediated by TNF-alpha, IL-1 and IL-6, that results in meningeal inflammation and loss of the blood-brain barrier.
    • One of the major roles of these cytokines is to facilitate the migration of neutrophils across the vascular endothelium into the CSF.
    • A key initial step in this process is obviously adhesion of the PMN to the endothelial surface.
      • This is mediated by the expression of specific transmembrane glycoproteins expressed on the endothelial surface that interact with specific counterparts on the neutrophils.
      • These adhesion molecules fall into three large categories: the immunoglobin superfamily (including the antigen-specific T and B cell receptors, ICAM-1 and ICAM-2), the integrin family (beta-1, beta-2, and beta-3) and the selectin family (including ELAM-1).
    • The interaction of beta-2 integrin (CD18) and ICAM-1 is largely responsible for PMN diapedesis.
  • Additionally, patients get cerebral edema that is mediated by an increase in capillary permeability, the inflammatory response from the neutrophils, and CSF outflow resistance.
  • The above pathophysiologic processes are not only important in producing the symptoms associated with meningitis, but the understanding of the underlying disease process is necessary to guide therapy (see below).

Mechanism

  • In order to gain access to the CNS, the pathogen needs to colonize mucosal epithelium, invade and survive in the intravascular space, cross the blood-brain barrier and survive in the CSF.
  • Colonization of the nasopharynx is usually asymptomatic, and during peak seasons, approximately 20% of the population are colonized with N. meningitidis.

Pathological Findings

Images shown below are courtesy of Professor Peter Anderson DVM PhD and published with permission. © PEIR, University of Alabama at Birmingham, Department of Pathology






Histopathology: Acute Bacterial Meningitis

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References


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