Clinical Review

Viral meningitis

BMJ 2008; 336 doi: https://doi.org/10.1136/bmj.39409.673657.AE (Published 03 January 2008) Cite this as: BMJ 2008;336:36
  1. Sarah A E Logan, specialist registrar,
  2. Eithne MacMahon, consultant
  1. 1Infection and Immunology, Guy’s and St Thomas’ NHS Foundation Trust, London SE1 7EH
  1. Correspondence to: E MacMahon eithne.macmahon{at}gstt.nhs.uk
  • Accepted 21 November 2007

Viral meningitis is common and often goes unreported. In the absence of a lumbar puncture, viral and bacterial meningitis cannot be differentiated with certainty, and all suspected cases should therefore be referred. Lumbar puncture and analysis of cerebrospinal fluid may be done primarily to exclude bacterial meningitis, but identification of the specific viral cause is itself beneficial. Viral diagnosis informs prognosis, enhances care of the patient, reduces the use of antibiotics, decreases length of stay in hospital, and can help to prevent further spread of infection. Over the past 20 years, vaccination policies, the HIV epidemic, altered sexual behaviour, and increasing travel have altered the spectrum of causative agents. In this review we outline the changing epidemiology, discuss key clinical topics, and illustrate how identification of the specific viral cause is beneficial. Neonatal meningitis may be a component of perinatal infection and is not covered here.

Summary points

  • Bacterial and viral meningitis cannot reliably be differentiated clinically, and all suspected cases should be referred to hospital

  • Viral meningitis is most common in young children; the incidence decreases with age

  • Enteroviruses are the most common cause at all ages

  • Although most cases are self limiting, morbidity may be considerable

  • Herpes simplex virus causes viral meningitis, which may recur

  • Genital herpes infection may be acquired from a partner after many years within a monogamous relationship

  • Meningitis is a feature of HIV seroconversion

  • In the absence of associated encephalitis, the prognosis is usually good

Definitions

  • Meningitis—Inflammation of the meninges associated with an abnormal number of cells in the cerebrospinal fluid1

  • Aseptic meningitis—A syndrome characterised by acute onset of meningeal symptoms and fever, with pleocytosis of the cerebrospinal fluid and no growth on routine bacterial culture2

  • Mononuclear pleocytosis—An elevated white cell count in the cerebrospinal fluid, with predominant mononuclear cells (as opposed to polymorphonuclear leucocytes)

  • Encephalitis—Inflammation of the brain parenchyma; cerebral cortex disease causes altered mental status early in the course, and focal or diffuse neurological signs may be present1 3

  • Meningoencephalitis—Central nervous system infection with clinical features of both meningeal and parenchymal disease

Sources and selection criteria

We searched PubMed with the terms “viral”, “encephalitis”, “HIV”, “Herpes simplex”, “Mumps”, “Varicella”, “Enterovirus”, “Diagnosis”, and “immunosuppression”, in conjunction with meningitis. We also searched OVID, Embase, and Cochrane databases. We hand searched references from papers. For clinical guidelines, we accessed the websites of the UK Health Protection Agency, UK Department of Health, US Centers for Disease Control and Prevention, and World Health Organization. We also consulted several formal medical, infectious diseases, and virological textbooks.

How common is viral meningitis?

Viral meningitis can occur at any age but is most common in young children. In the largest reported study, a 1966 birth cohort of 12 000 children in Finland, the annual incidence of presumed viral meningitis was 219 per 100 000 in infants under 1 year and 27.8 per 100 000 overall in children under 14.4 In a smaller retrospective study, the incidence of aseptic meningitis in people aged 16 and over was lower at 7.6 per 100 000.5

Viral meningitis is a notifiable disease in England and Wales, but many cases undoubtedly go unreported.4 6 7 In 2005-6, 2898 people were admitted to hospital with a diagnosis of viral meningitis, 10 times the number of cases notified to the Health Protection Agency (233) for England and Wales over the same period (fig 1).7 8

Figure1

Fig 1 Notifications of viral meningitis for England and Wales compared with hospital episodes in England

What causes it?

As a consequence of mumps, measles, and rubella vaccination, enteroviruses have supplanted mumps as the most common cause of viral meningitis in children (box 1).4 6 Enteroviruses are said to account for 80% of cases in adults, but a wider range of causes is increasingly implicated.5 9 Often no cause is identified; among 144 consecutive adults with aseptic meningitis, only 72 had a confirmed diagnosis. Enteroviruses were most common, accounting for 46%, followed by herpes simplex virus type 2 (31%), varicella zoster virus (11%), and herpes simplex virus type 1 (4%).5

Box 1 Viral meningitis: causes to consider139

All patients
  • Enteroviruses

  • Herpes simplex viruses (HSV-2 and HSV-1)

  • Varicella zoster virus (VZV)

  • Human immunodeficiency virus (HIV)

  • Epstein-Barr virus (EBV)

Unvaccinated/incomplete vaccination course
  • Mumps virus

Immunocompromised host
  • Cytomegalovirus (CMV)

Travel history
  • West Nile virus (Americas, Africa, West Asia, Australia, mainland Europe)

  • Saint Louis encephalitis virus (United States)

  • Tick-borne encephalitis viruses (mainland Europe and Asia)

Contact with rodent droppings or urine
  • Lymphocytic choriomeningitis virus (LCMV)

What is the initial approach to the patient?

Viral meningitis and bacterial meningitis are both characterised by acute onset of fever, headache, photophobia, and neck stiffness, often accompanied by nausea and vomiting.1 9 Untreated patients with bacterial meningitis show progressive deterioration in mental status, whereas spontaneous recovery is usual in viral cases. At initial presentation, no reliable clinical indicators are available to differentiate between acute viral meningitis and bacterial meningitis, so all suspected cases should be referred to hospital.

Particular caution is warranted with young children, in whom meningitis is manifest as fever and irritability, without, as a rule, evidence of meningeal irritation.9 Neck stiffness and photophobia may also be absent in adults.1 10 Assessment should include evaluation for possible encephalitis, suggested by seizures, reduced Glasgow coma score, or focal neurological signs. Suspected encephalitis warrants empirical antiviral treatment with intravenous aciclovir. History and examination can yield clues as to viral causes (box 2).

Box 2 Approach to the patient

History
  • Classic symptoms—fever, headache, photophobia, neck stiffness

  • Associated symptoms—rash, sore throat, swollen glands, vomiting, genitourinary symptoms

  • Illness in contacts

  • Sexual history

  • Travel abroad

  • Risk factors for HIV

  • Mumps immunisation status

  • Compromised immunity

  • Exposure to rodents/ticks

Examination
  • Classic signs:

    • Fever, nuchal rigidity

    • Absence of focal neurological signs; mental status intact

  • Rash

  • Lymphadenopathy

  • Pharyngitis

  • Parotid swelling

  • Genital herpes

Imaging before lumbar puncture?

Recommended if any of the following are present111213

  • Immunocompromised host:

    • Immunosuppressive treatment

    • Immunodeficiency (for example, HIV)

  • History of central nervous system disease—mass lesion, stroke, focal infection

  • New onset of seizure(s)—within one week of presentation

  • Focal neurological deficit

  • Abnormal level of consciousness manifest by:

    • Glasgow coma score (GCS) <12 or

    • Fluctuating conscious level (drop in GCS ≥2)

  • Papilloedema

How is it diagnosed?

Analysis of cerebrospinal fluid is needed, and lumbar puncture should be done unless it is contraindicated. Whether prior computed tomography imaging is needed is controversial, and guidance is now available (see box 2).11 12 Viral meningitis in itself is not associated with abnormalities on imaging. C reactive protein concentration and peripheral blood white cell count can be helpful but do not reliably differentiate between possible causes. A blood glucose concentration is essential and should be collected immediately before lumbar puncture.3 Cerebrospinal fluid needs to be processed promptly to avoid depletion of cell counts during transport or storage. Although characteristically associated with a mononuclear pleocytosis, neutrophils may predominate initially in viral meningitis (table 1). In 138 children with aseptic meningitis, 57% had a polymorphonuclear predominance that persisted beyond 24 hours.14

Table 1

 Typical cerebrospinal fluid (CSF) findings in infectious meningitis1 3 14

View this table:

The usual initial approach to viral diagnosis (table 2) is to test the cerebrospinal fluid for enteroviruses, herpes simplex virus, and varicella zoster virus by using polymerase chain reaction technology, estimated to be threefold to 1000-fold more sensitive than routine viral culture.15 Identification of a viral cause has been shown to be beneficial, facilitating reduced administration of antibiotics and decreased length of stay in hospital.16

Table 2

 Diagnosing viral meningitis1 15 17 18

View this table:

Enteroviruses

Enteroviruses are by far the most common cause of viral meningitis; they account for most cases, at all ages, in which the cause is identified.456 9 The term enteroviruses refers to the mode of transmission rather than the symptoms of infection. Indeed, infections with these ubiquitous viruses are mostly asymptomatic. They can cause systemic infections, however, and have a proclivity to be neuroinvasive. The enteroviruses encompass Coxsackie A and B viruses, echoviruses, polioviruses, and the more recently identified viruses designated by number, such as enterovirus 71.19 Almost any of the enterovirus types can give rise to neurological manifestations ranging from aseptic meningitis to meningoencephalitis and paralytic poliomyelitis. Coxsackie B viruses and echoviruses account for most cases of enterovirus meningitis. Enteroviral typing is essential to identify and monitor outbreaks.19

Who gets it?

Infants and young children with no immunity are most susceptible to enteroviruses, and the incidence decreases with age. Infection is seasonal in temperate climates—highest in summer and autumn—but high all year round in tropical and subtropical climates.9

Clinical features and management

Meningitis may be accompanied by mucocutaneous manifestations of enterovirus infection, including localised vesicles such as in hand, foot, and mouth disease; herpangina; and generalised maculopapular rash. Most cases that present clinically with meningitis are self limiting and carry a good prognosis. Nevertheless, enteroviral meningitis causes considerable morbidity, with moderate or high fever despite antipyretics and several days of severe headache warranting opiate analgesia.10 Abrupt deterioration in mental status or seizures may be caused by progression from meningitis to meningoencephalitis.9

No specific antiviral treatment is available, and management is conservative. Immunoglobulin replacement has a role in patients with hypogammaglobulinaemia, who are prone to severe and chronic enteroviral disease.

Herpes simplex viruses (HSV-2, HSV-1)

Confusion sometimes arises when herpes simplex virus is detected in the cerebrospinal fluid of a patient with clinical meningitis. Recognising that herpes simplex virus meningitis and encephalitis are discrete entities in the immunocompetent host, rather than part of a continuous spectrum, is essential. Whereas herpes simplex virus encephalitis is a life threatening medical emergency warranting empiric antiviral treatment, herpes simplex virus meningitis is a self limiting condition in patients with normal immunity.20

Who gets it?

Herpes simplex virus now ranks second among the causes of viral meningitis in adolescents and adults in developed countries.5 Herpes simplex virus meningitis is a complication of primary genital herpes, especially with HSV-2. By definition, primary herpes simplex virus infection is the first infection with either virus type in the absence of pre-existing antibodies to HSV-1 or HSV-2. In the most comprehensive study, 36% of 126 women and 13% of 63 men with primary genital HSV-2 infection had meningeal symptoms.21

Non-primary infection includes first episodes in the presence of pre-existing antibodies to HSV-1 or HSV-2 and recurrences. Unlike primary infection, non-primary genital infection with herpes simplex virus is rarely accompanied by aseptic meningitis. HSV-2 meningitis may also occur in the absence of clinical genital herpes. Of 69 patients with meningeal symptoms and HSV-2 detected in the cerebrospinal fluid, 82% had neither a history of genital herpes nor active genital lesions.22

As a consequence of the increasing incidence of genital herpes,23 clinical cases of herpes simplex virus meningitis in the United Kingdom are set to increase. The rate of childhood infection with HSV-1 is declining; a documented drop in seropositivity rates among 10-14 year olds from 34% (1986-7) to 24% (1994-5) has occurred.24 Thus, in the absence of previous oral herpes simplex virus infection, an increasing proportion of young people are likely to have symptomatic primary genital herpes simplex virus infections and hence meningitis.

Clinical features and management

In addition to fever and symptoms of meningitis, constitutional symptoms of primary herpes infection may occur, with malaise and clinical features of genital herpes simplex virus infection. Whereas autonomic dysfunction occurs in 2% of cases of primary genital herpes, sacral radiculomyelitis (manifest as urinary retention, constipation, paraesthesias, and motor weakness) complicates one third of cases with primary HSV-2 meningitis.21

HSV-2 meningitis can recur, especially in women with primary genital infection.21 Clinical recurrences have been described in 20-50% of cases, both with and without genital symptoms.25 26 Indeed HSV-2 has been implicated in recurrent benign lymphocytic meningitis (including Mollaret’s meningitis), a syndrome characterised by spontaneous recovery after each of at least three episodes of aseptic meningitis. HSV-2 (and occasionally HSV-1) DNA and herpes simplex virus type specific antibodies have been detected in the cerebrospinal fluid of up to 85% of patients.26

Although antiviral treatment with aciclovir, valaciclovir, or famciclovir is indicated for the treatment of first episode genital herpes, therapeutic trials have yet to be done in herpes simplex virus meningitis.20 Evidence is lacking, but early treatment might decrease the viral burden, speed resolution of symptoms, and reduce the risk of recurrence.

Patients with herpes simplex virus meningitis should be referred to a sexual health clinic after recovery. However, the diagnosis of herpes simplex virus meningitis and possible associations with genital herpes may come as a shock to the patient, and this needs to be discussed sensitively at the earliest appropriate opportunity. Many people harbour genital herpes simplex virus infection and intermittently shed virus without ever having symptoms. Infection can thus be spread unknowingly to sexual contacts. The timing of transmission is unpredictable; it may occur only after several years within a monogamous sexual relationship.27

Varicella zoster virus

Aseptic meningitis is a recognised but rare complication of primary infection with varicella zoster virus (varicella). It is more commonly seen in association with reactivation of varicella zoster virus (zoster) and can also occur in the absence of cutaneous lesions. Among 21 patients with varicella zoster virus meningitis, more than 50% had no skin manifestations.28 No specific recommendations for varicella zoster virus meningitis exist beyond the usual treatment for zoster.

Human immunodeficiency virus

Primary HIV infection is an important cause of aseptic meningitis. Symptoms occur in up to 17% of cases of HIV seroconversion and may be associated with faster disease progression.29 Other features of primary HIV infection—lymphadenopathy, rash, dermatitis, gastrointestinal disturbances, oral candidiasis, and pharyngitis—should be sought. Atypical lymphocytes may be seen on the blood film in both primary HIV and Epstein-Barr virus infections (both are causes of viral meningitis). The neurological symptoms generally resolve over several weeks. Early diagnosis may benefit intimate contacts, as the risk of transmission of HIV is greater in the early stages of infection.30

Mumps

Meningitis is by far the most common neurological manifestation of mumps virus infection. Before widespread immunisation, mumps was a common cause of meningitis, which occurred in 15% of patients with mumps.17 Mumps meningitis can precede or follow the parotid swelling, and 50% of cases occur in the absence of parotitis. Meningitis is more common in male than female patients.17 The recent epidemic among young adults was associated with more than 100 cases of mumps meningitis in England in 2004-6.8

Case studies

Patient 1

A 37 year old woman presented with headache, neck stiffness, photophobia, and vomiting. She had been increasingly unwell over the preceding 10 days and had sought medical advice for severe dysuria on more than one occasion; she was receiving treatment for a presumptive urinary tract infection. On examination, she was febrile with signs of meningism. Vulval inspection showed no evidence of vesicles. Analysis of cerebrospinal fluid showed white cells 692×106/l (99% lymphocytes), protein 1.6 g/l, and glucose 2.8 mmol/l; no concomitant serum sample was available. Polymerase chain reaction detected HSV-2 DNA in the cerebrospinal fluid, consistent with the diagnosis of herpes simplex virus meningitis. She was treated with intravenous aciclovir 10 mg/kg eight hourly for six days, followed by oralvalaciclovir 1 g eight hourly for two weeks. Her symptoms resolved gradually, and she was discharged after six days.

At the genitourinary clinic two months later, acute and convalescent type specific serology confirmed recent primary HSV-2 (HSV-2 IgG positive; HSV-1 IgG negative; anti-HSV IgM positive) infection in association with meningitis and presumed urethritis. Her husband also attended; although asymptomatic, he had serological evidence of previous HSV-2 infection. One year later she has had recurrent genital herpes but not meningitis.

Patient 2

A 32 year old woman presented with a three day history of headache, fever, and photophobia. She had perianal tenderness, and her boyfriend had noticed a rash. On examination, unilateral herpetic lesions were seen (fig 2). Cerebrospinal fluid showed mononuclear pleocytosis (67×106/l) and protein 1.2 g/l and was positive for varicella zoster virus DNA. She received oral valaciclovir 1 g eight hourly for seven days and opiates for severe headache. Her symptoms gradually resolved over three weeks.

Figure2

Fig 2 Patient 2—zoster associated with varicella zoster virus meningitis

Additional educational resources

Information for patients

Footnotes

  • We thank William Tong and Mike Kidd for critical evaluation of the draft manuscript and Alice Gem for secretarial help.

  • Contributors: SAEL and EMM searched the literature and wrote the manuscript. EMM is the guarantor.

  • Competing interests: EMM received sponsorship from Aventis Pasteur MSD towards conference attendance in 2002.

References

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