Echovirus 13 Aseptic Meningitis, Brazil
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《传染病的形成》
Instituto Oswaldo Cruz, Rio de Janeiro, Brazil
Secretaria Municipal de Saúde do Rio Grande do Sul, Rio Grande, Brazil
Instituto de Pesquisas Biologicas, Rio Grande, Brazil
We describe an outbreak of aseptic meningitis that occurred in southern Brazil in 2003 with echovirus 13 (E13) virus as the etiologic agent. This is the first meningitis outbreak due to E13 reported in the country.
From March to April 2003, 17 children and young adults from Horizontina City (population 16,800), Rio Grande do Sul State, southern Brazil, with symptoms of meningitis, sought medical attention at the local hospital. Seven of these case-patients were linked to each other either by school or domiciliary contact. Lumbar puncture showed clear cerebrospinal fluid (CSF), which suggests a viral cause. The following symptoms were associated with patients: fever (92%), headache (84%), vomiting (79%), diarrhea, stiff neck, and fatigue (7.69% each). Patients' ages ranged from 1 to 19 years of age, with the age peak incidence in children 5–9 years of age (46%). Fifty-eight percent of patients were male. All patients recovered, and no sequelae or deaths were identified. The pattern of meningitis associated with E13 in this outbreak was clinically similar to those observed in aseptic meningitis due to other enteroviruses in previous outbreaks.
For diagnostic purposes, 12 CSF and 8 fecal specimens were collected from the 17 patients with clinically suspected viral meningitis. For viral diagnosis, RD and HEp2 cells were injected with 0.2 mL of each clinical specimen (clarified fecal specimens and CSF) and examined daily for at least 7 days postinoculation. Enterovirus characteristic cytopathic effect was observed in 6 (50%) of 12 CSF samples and in 5 (62.5%) of 8 fecal samples. All isolates were typed as echovirus 13 by a reverse transcription–PCR and nucleotide sequencing of a portion of the VP1 gene (5).
Before 2000, echovirus 13 was considered a rare serotype of enterovirus (6) and had never been reported in association with outbreaks (7). In the United States, before 2001, this enterovirus accounted for only 65 of the 45,000 reported enteroviral isolates (6). However, the incidence of E13 is increasing; several meningitis outbreaks have been recently reported in England, Germany, Belgium, Spain, France, Israel, and Japan (8).
In spite of the temporal clustering and close contact of 7 patients, the causes of the outbreak were not completely defined and remain speculative. The sudden emergence of E13 as a prominent enterovirus associated with viral meningitis in many countries, including Brazil, demonstrates the potential of enteroviruses to circulate widely and to unpredictably cause diseases, which underscores the continued need for enterovirus surveillance.
Although this specific outbreak was restricted both geographically and in terms of magnitude (only 17 cases), E13 seemed to be widely distributed in Brazil and has been detected in fecal specimens obtained from patients with acute flaccid paralysis since 1998 (C. Blal, unpub. data). Epidemiologic surveillance plays a crucial role in understanding the changing patterns of enterovirus infection and disease associations. Such knowledge may help in the control of diseases (9,10). Although identifying the enterovirus serotype does not contribute substantially to patient management, establishing the dominant virus each year or in each outbreak is essential for epidemiologic purposes.
Acknowledgments
We thank the staff of the enterovirus laboratory for the excellent technical work.
Coordenao Geral de Laboratorios de Saúde Pública, Conselho Nacional de Pesquisas, and Fundao Oswaldo Cruz provided financial support.
References
King AMQ, Brown F, Christian P, Hovi T, Hyypia T, Knowles NJ, et al. Family Picornaviridae. In: Van Regenmortel MHV, Fauquet CM, Bishop DHL, Carstens EB, Estes MK, Lemon SM, et al., editors. Virus taxonomy: classification and nomenclature of viruses. Seventh report of the International Committee on Taxonomy of Viruses. San Diego: Academic Press; 2000. p. 657–83.
Morens DM, Pallansch MA. Epidemiology. In: Rotbart HA, editor. Human enterovirus infections. Washington: ASM Press; 1995. p. 3–23.
Melnick JL. Enterovirus: polioviruses, coxsackievirus, echoviruses and newer enteroviruses. In: Fields BN, Knipe DM, Howley PM, Chanock RM, Melnick JL, Monath TP, et al., editors. Fields virology, 3rd ed. Philadelphia: Lippincott-Raven Publishers; 1996. p. 655–712.
Alexander JP, Baden L, Pallansch MA, Anderson LJ. Enterovirus 71 infections and neurologic disease—United States, 1977–1991. J Infect Dis. 1994;169:905–8.
Oberste MS, Maher K, Kilpatrick DR, Flemister MR, Brown BA, Pallansch MA. Typing of human enteroviruses by partial sequencing of VP1. J Clin Microbiol. 1999;37:1288–93.
Centers for Disease Control and Prevention. Echovirus type 13—United States, 2001. MMWR Morb Mortal Wkly Rep. 2001;50:777–80.
Moore M. Enteroviral disease in the United States, 1970–1979. J Infect Dis. 1982;146:103–8.
Mullins JA, Khetsuriani N, Nix WA, Oberste MS, LaMonte A, Kilpatrick DR, et al. Emergence of echovirus type 13 as a prominent enterovirus. Clin Infect Dis. 2004;38:70–7.
McIntyre JP, Keen GA. Laboratory surveillance of viral meningitis by examination of cerebrospinal fluid in Cape Town, 1981–9. Epidemiol Infect. 1993;111:357–71.
Hovi T, Stenvik M, Rosenlew M. Relative abundance of enterovirus serotypes in sewage differs from that in patients: clinical and epidemiological implications. Epidemiol Infect. 1996;116:91–7.(Claudete I. Kmetzsch, Est)
Secretaria Municipal de Saúde do Rio Grande do Sul, Rio Grande, Brazil
Instituto de Pesquisas Biologicas, Rio Grande, Brazil
We describe an outbreak of aseptic meningitis that occurred in southern Brazil in 2003 with echovirus 13 (E13) virus as the etiologic agent. This is the first meningitis outbreak due to E13 reported in the country.
From March to April 2003, 17 children and young adults from Horizontina City (population 16,800), Rio Grande do Sul State, southern Brazil, with symptoms of meningitis, sought medical attention at the local hospital. Seven of these case-patients were linked to each other either by school or domiciliary contact. Lumbar puncture showed clear cerebrospinal fluid (CSF), which suggests a viral cause. The following symptoms were associated with patients: fever (92%), headache (84%), vomiting (79%), diarrhea, stiff neck, and fatigue (7.69% each). Patients' ages ranged from 1 to 19 years of age, with the age peak incidence in children 5–9 years of age (46%). Fifty-eight percent of patients were male. All patients recovered, and no sequelae or deaths were identified. The pattern of meningitis associated with E13 in this outbreak was clinically similar to those observed in aseptic meningitis due to other enteroviruses in previous outbreaks.
For diagnostic purposes, 12 CSF and 8 fecal specimens were collected from the 17 patients with clinically suspected viral meningitis. For viral diagnosis, RD and HEp2 cells were injected with 0.2 mL of each clinical specimen (clarified fecal specimens and CSF) and examined daily for at least 7 days postinoculation. Enterovirus characteristic cytopathic effect was observed in 6 (50%) of 12 CSF samples and in 5 (62.5%) of 8 fecal samples. All isolates were typed as echovirus 13 by a reverse transcription–PCR and nucleotide sequencing of a portion of the VP1 gene (5).
Before 2000, echovirus 13 was considered a rare serotype of enterovirus (6) and had never been reported in association with outbreaks (7). In the United States, before 2001, this enterovirus accounted for only 65 of the 45,000 reported enteroviral isolates (6). However, the incidence of E13 is increasing; several meningitis outbreaks have been recently reported in England, Germany, Belgium, Spain, France, Israel, and Japan (8).
In spite of the temporal clustering and close contact of 7 patients, the causes of the outbreak were not completely defined and remain speculative. The sudden emergence of E13 as a prominent enterovirus associated with viral meningitis in many countries, including Brazil, demonstrates the potential of enteroviruses to circulate widely and to unpredictably cause diseases, which underscores the continued need for enterovirus surveillance.
Although this specific outbreak was restricted both geographically and in terms of magnitude (only 17 cases), E13 seemed to be widely distributed in Brazil and has been detected in fecal specimens obtained from patients with acute flaccid paralysis since 1998 (C. Blal, unpub. data). Epidemiologic surveillance plays a crucial role in understanding the changing patterns of enterovirus infection and disease associations. Such knowledge may help in the control of diseases (9,10). Although identifying the enterovirus serotype does not contribute substantially to patient management, establishing the dominant virus each year or in each outbreak is essential for epidemiologic purposes.
Acknowledgments
We thank the staff of the enterovirus laboratory for the excellent technical work.
Coordenao Geral de Laboratorios de Saúde Pública, Conselho Nacional de Pesquisas, and Fundao Oswaldo Cruz provided financial support.
References
King AMQ, Brown F, Christian P, Hovi T, Hyypia T, Knowles NJ, et al. Family Picornaviridae. In: Van Regenmortel MHV, Fauquet CM, Bishop DHL, Carstens EB, Estes MK, Lemon SM, et al., editors. Virus taxonomy: classification and nomenclature of viruses. Seventh report of the International Committee on Taxonomy of Viruses. San Diego: Academic Press; 2000. p. 657–83.
Morens DM, Pallansch MA. Epidemiology. In: Rotbart HA, editor. Human enterovirus infections. Washington: ASM Press; 1995. p. 3–23.
Melnick JL. Enterovirus: polioviruses, coxsackievirus, echoviruses and newer enteroviruses. In: Fields BN, Knipe DM, Howley PM, Chanock RM, Melnick JL, Monath TP, et al., editors. Fields virology, 3rd ed. Philadelphia: Lippincott-Raven Publishers; 1996. p. 655–712.
Alexander JP, Baden L, Pallansch MA, Anderson LJ. Enterovirus 71 infections and neurologic disease—United States, 1977–1991. J Infect Dis. 1994;169:905–8.
Oberste MS, Maher K, Kilpatrick DR, Flemister MR, Brown BA, Pallansch MA. Typing of human enteroviruses by partial sequencing of VP1. J Clin Microbiol. 1999;37:1288–93.
Centers for Disease Control and Prevention. Echovirus type 13—United States, 2001. MMWR Morb Mortal Wkly Rep. 2001;50:777–80.
Moore M. Enteroviral disease in the United States, 1970–1979. J Infect Dis. 1982;146:103–8.
Mullins JA, Khetsuriani N, Nix WA, Oberste MS, LaMonte A, Kilpatrick DR, et al. Emergence of echovirus type 13 as a prominent enterovirus. Clin Infect Dis. 2004;38:70–7.
McIntyre JP, Keen GA. Laboratory surveillance of viral meningitis by examination of cerebrospinal fluid in Cape Town, 1981–9. Epidemiol Infect. 1993;111:357–71.
Hovi T, Stenvik M, Rosenlew M. Relative abundance of enterovirus serotypes in sewage differs from that in patients: clinical and epidemiological implications. Epidemiol Infect. 1996;116:91–7.(Claudete I. Kmetzsch, Est)