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Bacterial meningitis

Bacterial meningitis is a condition in which the layers lining the brain (the meninges) have become inflamed as a result of infection with bacteria. more...

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Symptoms and signs

The classic symptoms of bacterial meningitis are similar to those of other forms of meningitis, including fever, headache, light sensitivity (photophobia), and confusion. Because of the continuity of the meninges and the linings of the spinal cord, movements that place strain on the spinal cord can cause worsening pain. In particular, movement of the neck and stretching of the legs cause a worsening of symptoms.

Clinicians will often attempt to elicit objective evidence of these latter symptoms. Brudzinski's sign (a correlate of nuchal rugidity), is detected when the knees passively flex when the neck is brought forward in a patient lying supine. A similar phenomenon, Kernig's sign, refers to an inability to stretch the hamstrings of an affected patient lying supine. Both are likely reflex responses to attempts to place traction on inflamed dura.

Bacterial meningitis can seldom be distinguished from other forms of meningitis based on symptoms alone, and usually requires lumbar puncture for definitive diagnosis.

Diagnosis

Meningitis is diagnosed when the cerebrospinal fluid, obtained via lumbar puncture, reveals the presence of an increased number of leukocytes. The condition is attributed to bacteria when their presence is detected via Gram stain or bacterial culture.

Etiology

In most cases, the reason that the meninges have become infected is never determined. Occasionally, the infection is the result of direct bacterial invasion from infections of adjacent structures, such as the paranasal sinuses or the inner ear. The latter is seen more commonly in children with untreated otitis media, although it should be noted that the true incidence of this complication and the ability of antibiotics to prevent it is a matter of controversy. Finally, bacteria can reach the meninges via the bloodstream, in a phenomenon known as hematogenous spread. In this situation, the most common predisposing infection is bacterial endocarditis, an infection of the structures of the heart.

Microbiology

The most common organisms involved in bacterial meningitis include Neisseria meningitidis (or meningococcus), Streptococcus pneumoniae (G001), Haemophilus influenzae (G000), and Staphylococcus aureus (G003). Less common bacterial causes include Listeria monocytogenes, Staphylococcus and Escherichia coli. In developing countries, Mycobacterium tuberculosis is a common cause of bacterial meningitis. The less common organisms are particularly found in elderly or immunocompromised individuals.

Treatment

The mainstay of treatment for bacterial meningitis is antibiotic therapy. Empiric therapy, directed at the most common organisms, is provided until a microbiologic diagnosis is made. The initiation of antibiotics in a patient suspected to have bacterial meningitis should not be delayed while a diagnosis is made, due to the high incidence of complications in untreated patients—including brain damage, hearing loss, and death.

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CSF Leukocyte Aggregation to Identify Bacterial Meningitis - cerebrospinal fluid
From American Family Physician, 5/1/00 by Richard Sadovsky

Bacterial meningitis is a life-threatening condition that has more serious sequelae in children than viral meningitis. Unfortunately, current laboratory tests cannot effectively distinguish bacterial from viral meningitis. Bacterial cultures of blood and cerebrospinal fluid (CSF) have been the most useful diagnostic technique, despite a delay of at least 24 hours for bacteria to grow in CSF. Several studies have shown that leukocytes tend to aggregate spontaneously in the blood in a variety of infectious conditions and in noninfectious inflammatory conditions, including osteomyelitis, postimmunization conditions and myocardial infarction. The biologic mechanism for this phenomenon is poorly understood. Aggregate formation appears to play a role in the immune response by drawing white blood cells to the site of inflammation. Use of a simple bedside test may be helpful in earlier diagnosis of meningitis, thus avoiding unnecessary antibiotic treatment and prolonged hospitalization. Michelow and associates evaluated the efficacy of a bedside test to accurately identify children with bacterial meningitis.

All children undergoing lumbar puncture for suspected meningitis were enrolled in the prospective study provided there was ample CSF available for slide preparation and culture. Classic culture criteria were used to classify the types of meningitis. Medical staff were instructed in slide preparation. Testing was easily standardized; white blood cells with nuclei less than one-cell diameter apart were considered aggregated. A leukocyte aggregation score (LAS) was determined using an air-dried, fixed smear of the CSF with the proportion of aggregated leukocytes expressed as a percentage of total leukocytes.

Of the 113 children enrolled in the study, 67 had bacterial meningitis, 23 had viral meningitis, 19 had culture-negative (undefined) meningitis, three had tuberculous meningitis and one patient had neurocysticercosis. Neisseria meningitidis, Streptococcus pneumoniae and Haemophilus influenzae type B accounted for most of the bacterial cases. Patients with bacterial meningitis had a significantly higher median LAS than patients with viral or culture-negative meningitis. There was a substantial overlap in scores between patients with bacterial and aseptic meningitis. The bottom of the stained CSF slide appeared to be the optimal location to evaluate aggregation.

The authors conclude that among the conventional tests used to identify the cause of meningitis, LAS has the most favorable odds ratio for arriving at the correct diagnosis. The technique is simple but susceptible to technical difficulties and requires extensive cell counts. Although LAS appears to have promise as a helpful adjunct in the timely diagnosis of bacterial meningitis in children, further validation of its clinical usefulness is needed.

Michelow IC, et al. Value of cerebrospinal fluid leukocyte aggregation in distinguishing the causes of meningitis in children. Pediatr Infect Dis J January 2000;19:66-72.

COPYRIGHT 2000 American Academy of Family Physicians
COPYRIGHT 2000 Gale Group

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