Inferior view of a brain with meningitis caused by Haemophilus influenzae. Source: CDC
Find information on thousands of medical conditions and prescription drugs.

Meningitis

Meningitis is inflammation of the membranes (meninges) covering the brain and the spinal cord. Although the most common causes are infection (bacterial, viral, fungal or parasitic), chemical agents and even tumor cells may cause meningitis. Meningitis can produce a wide range of symptoms including fever, headache or confusion and in extreme cases, deafness, brain damage, stroke, seizures or even death. Encephalitis and brain abscess can complicate infective meningitis. more...

Home
Diseases
A
B
C
D
E
F
G
H
I
J
K
L
M
Mac Ardle disease
Macroglobulinemia
Macular degeneration
Mad cow disease
Maghazaji syndrome
Mal de debarquement
Malaria
Malignant hyperthermia
Mallory-Weiss syndrome
Malouf syndrome
Mannosidosis
Marburg fever
Marfan syndrome
MASA syndrome
Mast cell disease
Mastigophobia
Mastocytosis
Mastoiditis
MAT deficiency
Maturity onset diabetes...
McArdle disease
McCune-Albright syndrome
Measles
Mediterranean fever
Megaloblastic anemia
MELAS
Meleda Disease
Melioidosis
Melkersson-Rosenthal...
Melophobia
Meniere's disease
Meningioma
Meningitis
Mental retardation
Mercury (element)
Mesothelioma
Metabolic acidosis
Metabolic disorder
Metachondromatosis
Methylmalonic acidemia
Microcephaly
Microphobia
Microphthalmia
Microscopic polyangiitis
Microsporidiosis
Microtia, meatal atresia...
Migraine
Miller-Dieker syndrome
Mitochondrial Diseases
Mitochondrial...
Mitral valve prolapse
Mobius syndrome
MODY syndrome
Moebius syndrome
Molluscum contagiosum
MOMO syndrome
Mondini Dysplasia
Mondor's disease
Monoclonal gammopathy of...
Morquio syndrome
Motor neuron disease
Motorphobia
Moyamoya disease
MPO deficiency
MR
Mucopolysaccharidosis
Mucopolysaccharidosis...
Mullerian agenesis
Multiple chemical...
Multiple endocrine...
Multiple hereditary...
Multiple myeloma
Multiple organ failure
Multiple sclerosis
Multiple system atrophy
Mumps
Muscular dystrophy
Myalgic encephalomyelitis
Myasthenia gravis
Mycetoma
Mycophobia
Mycosis fungoides
Myelitis
Myelodysplasia
Myelodysplastic syndromes
Myelofibrosis
Myeloperoxidase deficiency
Myoadenylate deaminase...
Myocarditis
Myoclonus
Myoglobinuria
Myopathy
Myopia
Myositis
Myositis ossificans
Myxedema
Myxozoa
N
O
P
Q
R
S
T
U
V
W
X
Y
Z
Medicines

Features

The classical symptoms of meningitis are headache, neck stiffness and photophobia (the trio are called "meningism"). Fever and chills are often present, along with myalgia. An altered state of consciousness or other neurological deficits may be present depending on the severity of the disease. In meningococcal meningitis or septicaemia, a petechial rash may appear. A lumbar puncture to obtain cerebrospinal fluid (CSF) is usually indicated to determine the cause and direct appropriate treatment.

Convulsions are a known complication of meningitis and are treated with appropriate anti-seizure drugs such as phenytoin.

Diagnosis

Most important in the diagnosis of meningitis is examination of the cerebrospinal fluid. A lumbar puncture should be performed promptly whenever the diagnosis of meningitis is suspected. The opening pressure is recorded and the cerebrospinal fluid sample is taken for microscopic examination (complete blood count with differential), chemical analysis (glucose and protein) and microbiology (gram staining and bacterial cultures).

In patients with focal neurological deficits or signs of increased intracranial pressure, a CT scan of the head should be obtained to help determine if there is a raised intracranial pressure that might cause a serious or fatal brain herniation during lumbar puncture. In the absence of these signs, a CT scan is unnecessary and should not delay lumbar puncture and initiation of antibiotic therapy.

Pathophysiology

Meningitis and encephalitis are usually caused by viruses or bacteria. Most often, the body’s immune system is able to contain and defeat an infection. But if the infection passes into the blood stream and then into the cerebrospinal fluid that surrounds the brain and spinal cord, it can affect the nerves and travel to the brain and/or surrounding membranes, causing inflammation. This swelling can harm or destroy nerve cells and cause bleeding in the brain.

Pathology

Purulent (suppurative) leptomeningitis is a diffuse purulent inflammation. The leptomeninges (arachnoida and piamater) contain purulent exudate (pus): leukocytes (neutrophils), fibrin, germs, proteins, necrotic debris. Blood vessels in the subarachnoidian space and those intracerebral are congested and neutrophil margination is present.

Causes

Infectious

  • G020: Viruses are the most common cause of meningitis.
  • G00-G01: Major bacteria that cause Bacterial meningitis are Neisseria meningitidis (meningococcus), Streptococcus pneumoniae (pneumococcus), and Haemophilus influenzae. Less-common bacterial causes include Listeria monocytogenes, Staphylococcus and Escherichia coli. In developing countries, Mycobacterium tuberculosis is a common cause of bacterial meningitis. Streptococcus agalactiae is an important cause of neonatal meningitis associated with a high mortality rate.
  • G021:In immunocompromised patients, fungal meningitis may occur, typically caused by Cryptococcus neoformans.

Read more at Wikipedia.org


[List your site here Free!]


Toscana virus and acute meningitis, France
From Emerging Infectious Diseases, 5/1/05 by Christophe N. Peyrefitte

To the Editor: Sandfly fever Naples virus, Sandfly lever Sicilian virus, and Toscana virus (family Bunyaviridae, genus Phlebovirus) have been recognized as etiologic agents of human illnesses in European countries bordering the Mediterranean Sea. These viruses are responsible for rapidly resolving diseases with nonspecific symptoms such as fever and myalgia. However, infection with Toscana virus may involve the central nervous system: severity may range from aseptic meningitis to meningoencephalitis (1). In most cases, illnesses caused by Toscana virus mimics a flulike syndrome with fever, photophobia, headache, red eyes, and stiff neck. Recently, 2 cases of Toscana virus meningoencephalitis in patients with unusual symptoms and life-threatening complications were described in Italy (2). However, sequelae have never been reported.

Toscana virus infection is now epidemic in Italy and Spain (1,3). Furthermore, sporadic cases have been reported in travelers returning from Italy, Spain, Greece, Portugal, and the South of France (4-6). The epidemiology of Toscana virus in France is still unknown. Although infections with this virus have been diagnosed by serologic tests in French patients and in tourists residing in southeastern France, this pathogen has reportedly never been isolated in France (7,8). Here we describe the clinical and biologic features of autochthonous meningitis due to Toscana virus.

On July 9, 2004, a 57-year-old woman who had never left the southeastern coast of France reported malaise and vomiting. On hospital admission, her body temperature was 38.5[degrees]C, and clinical examination showed photophobia and stiff neck.

Skin and abdomen were normal. Cardiopulmonary and neurologic functions were also normal. Analysis of hematologic and biochemical blood tests revealed mild hyperglycemia (6.88 mmol/L) and elevated [gamma]-glutamyltransferase (104 1U/L) and C-reactive protein levels (57 mg/L). Cerebrospinal fluid (CSF) analysis showed 3,500 leukocytes/[micro]L (70% lymphocytes, 30% neutrophils), and glucose and protein levels of 2.5 mmol/L and 2.749 mg/L, respectively. Blood and CSF cultures were bacteriologically sterile. Polymerase chain reaction (PCR) assays of CSF for herpes simplex virus were also negative. The patient received intravenous amoxicillin and acyclovir for 3 days. The patient recovered after 6 days without sequelae.

Serum and CSF samples collected during the acute phase were tested for immunoglobulin (Ig)M and IgG antibodies to a battery of arboviruses. These samples contained no antibodies (optical density [OD] ratio <1.5) to flaviviruses, dengue virus, West Nile virus, and tickborne encephalitis, Tahyna virus, or Sandfly fever Sicilian virus (Table). However, the IgM OD ratios (>2.5) obtained against Toscana virus antigen were high. A second serum sample tested 1 month later showed seroconversion to Toscana virus with OD ratios >3 for both IgM and IgG (Table).

Virus isolation was attempted by incubation of peripheral blood mononuclear cells and CSF collected on the day of onset with C6/36 (Aedes albopictus) and Vero (E6 clone) monolayers. Toscana virus was found only on Vero cells by indirect immunofluorescence by using mouse hyperimmune ascitic fluid against Toscana virus. In contrast, no fluorescence was found by using mouse hyperimmune ascitic fluids against Rift Valley fever and Sandfly fever Sicilian virus.

S egment of Toscana virus genome was partly amplified from culture supernatants by reverse-transcription PCR and sequenced (9). Nucleotide and peptide sequences obtained (GenBank accession no. AY766034) displayed 87% and 100% identity, respectively, with Toscana virus sequences available on GenBank database, thus confirming the infection by Toscana virus.

Toscana virus, transmitted to humans by Phlebotomus vectors, has been recognized as a major cause of aseptic meningitis in Italy and Spain. P. perniciosus, proven to be a vector of Toscana virus (10), is abundant along the French Mediterranean coast. The isolation of an autochthonous Toscana virus strain shows that the conditions of an efficient transmission cycle were combined in southern France. Until now, human infection by Toscana virus was fortuitously detected by serologic means, suggesting that subclinical infection may also occur (8). Thus, Toscana virus infection in France likely has been underestimated. Moreover, meningitis caused by Toscana virus has been underestimated and other diseases caused by Toscana virus may have also been underestimated. The requirement for virus growth in cell culture delays a diagnosis based on viral isolation, which is limited by the transitory presence of the virus in blood or CSF. As reported here, Toscana virus infection was only confirmed after the patient relapsed. Considering that signs and symptoms of Toscana virus meningitis are not pathognomic, this case highlights the need for rapid and specific diagnostic tools, such as PCR assays, to identify infections caused by Toscana virus and other neurotropic viral agents. Moreover, a systematic serologic study of recovered meningitis patients may help to better characterize viral meningitis of unknown etiology.

Finally, this work suggests that, in addition to West Nile virus, Toscana virus should now be considered as a potential etiologic agent of acute meningitis in the southeastern part of France. Entomologic and epidemiologic surveys, however, will have to be conducted in the near future to determine the risk for the people living in that area.

Acknowledgments

We thank Matthieu Kaltenbach for reviewing the manuscript. We also thank J-R Durand for skillful discussions and scientific rigor.

This work was supported by the French Delegation Generale de la Sante.

References

(1.) Valassina M, Cusi MG, Valensin PE. A Mediterranean arbovirus: the Toscana virus. J Neurovirol. 2003;9:577-83.

(2.) Baldelli F, Ciufolini MG, Francisci D, Marchi A, Venturi G, Fiorentini C, et al. Unusual presentation of life-threatening Toscana virus meningoencephalitis. Clin Infect Dis. 2004;5:38:515-20.

(3.) Echevarria JM, de Ory, F, Guisasola ME, Sanchez-Seco MP, Tenorio A, Lozano A, et al. Acute meningitis due to Toscana virus infection among patients from both the Spanish Mediterranean region and the region of Madrid. J Clin Virol. 2003;26:79-84.

(4.) Ehrnst A, Peters CJ, Niklasson B, Svedmyr A, Holmgren B. Neurovirulent Toscana virus (a sandfly fever virus) in Swedish man after visit to Portugal. Lancet. 1985;1:1212-3.

(5.) Calisher CH, Weinberg AN, Muth DJ, Lazuick JS. Toscana virus infection in United States citizen returning from Italy. Lancet. 1987;1:165-6.

(6.) Schwarz TF, Gilch S, Jager G. Travel-related Toscana virus infection. Lancet. 1993;342:803-4.

(7.) Dobler G, Treibl J, Haass A, Frosner G, Woesner R, Schimrigk K. Yoscana virus infection in German travellers returning from the Mediterranean. Infection. 1997;25:325.

(8.) Hemmersbach-Miller M, Parola P, Charrel RN, Durand J-P, Brouqni P. Sandfly fever due to Toscana virus: an emerging infection in southern France. Eur J Intern Med. 2004;15:316-7.

(9.) Valassina M, Valentini M, Valensin PE, Cusi MG. Fast duplex one-step RT-PCR for rapid differential diagnosis of entero- or Toscana virus meningitis. Diagn Microbiol Infect Dis. 2002;43:201-5

(10.) Tesh RB, Lubroth J, Guzman H. Simulation of arbovirus overwintering: survival of Toscana virus (Bunyaviridae: Phlebovirus) in its natural sandfly vector Phlebotomus perniciosus. Am J Trop Med Hyg. 1992;47:574-81.

Christophe N. Peyrefitte, * Ivan Devetakov, [dagger] Boris Pastorino, * Laurent Villeneuve, [dagger] Mael Bessaud, * Philippe Stolidi, [dagger] Jerome Depaquit, [dagger] Laurence Segura, [dagger] Patrick Gravier, * Fabienne Tock, * Francoise Durand, [dagger] Jean-Paul Vagneur, [dagger] Hugues J. Tolou, * and Marc Grandadam *

* Laboratoire Associe au Centre National de Reference des Arbovirus, Marseille, France; [dagger] Centre Hospitalier Edmond Gamin, Aubagne, France; and [dagger] Faculte de Pharmacie, Reims, France

Address for correspondance: Christophe N. Peyrefitte, IMTSSA, Unite de Virologic Tropicale, BP 46 13998, Marseille, Armees, France; fax: 33-4-91-15-01-72; email: publi.viro@laposte.net

COPYRIGHT 2005 U.S. National Center for Infectious Diseases
COPYRIGHT 2005 Gale Group

Return to Meningitis
Home Contact Resources Exchange Links ebay