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Volume 16, Number 11—November 2010

Dispatch

Enterovirus 71 Infection with Central Nervous System Involvement, South Korea

Wi-Sun Ryu, Byunghak Kang, Jiyoung Hong, Seoyeon Hwang, Ahyoun Kim, and Jonghyun Kim
Author affiliations: Seoul National University Hospital, Seoul, South Korea (W.-S. Ryu); Korea Centers for Disease Control and Prevention, Seoul (B. Kang, J. Hong, S. Hwang, A. Kim, D.S. Cheon); Catholic University College of Medicine, Suwon, South Korea (J. Kim)

Suggested citation for this article

Abstract

We assessed neurologic sequelae associated with an enterovirus 71 (EV71) outbreak in South Korea during 2009. Four of 94 patients had high signal intensities at brainstem or cerebellum on magnetic resonance imaging. Two patients died of cardiopulmonary collapse; 2 had severe neurologic sequelae. Severity and case-fatality rates may differ by EV71 genotype or subgenotype.

Several major outbreaks of enterovirus 71 (EV71) have been reported since 1974 (1,2). Countries of the Asia Pacific Rim particularly have been recently affected by large outbreaks of EV71-associated hand-foot-and-mouth disease (HFMD). Most patients with HFMD experience a mild disease course, but recent reports on the outbreak of EV71 infection in various countries, including Taiwan, People’s Republic of China, and Malaysia, indicate that some EV71-infected persons have severe neurologic complications or systemic disease (3,4).

The varying prevalences of neurologic complications of EV71 infection among outbreaks are assumed to have been driven by differences of genotypes and co-infection with other viruses, such as a newly characterized adenovirus; however, the exact reasons remain unclear (3,5,6). We report an outbreak of EV71 infection with neurologic involvement on the basis of information from a prospective, clinical, and virologic study that was collected through South Korea’s nationwide surveillance system.

The Study

Figure

Thumbnail of Geographic distribution of clinics participating in enterovirus surveillance, South Korea, 2009.

Figure. Geographic distribution of clinics participating in enterovirus surveillance, South Korea, 2009.

The EV surveillance system in South Korea consists of 62 clinics (8 primary clinics, 14 secondary hospitals, and 40 tertiary hospitals located nationwide) managed by pediatric physicians (Figure). During 2009, a total of 2,427 cases of viral disease were reported to the Korea Centers for Disease Control and Prevention through a web-based system. In addition, an experienced neurologist (W.-S.R.) collected detailed clinical information about, and results of imaging studies of, patients reported to have central nervous system (CNS) involvement. We monitored the patients until they were discharged or for 3 weeks if duration of hospitalization was >3 weeks. Patient outcome was classified into 1 of 4 groups; no sequelae (neurologic dysfunction without dependency), mild sequelae, severe sequelae (neurologic dysfunction requiring assistance), or death.

EV genome detection was attempted by real-time reverse transcription–PCR (RT-PCR) by using TaqMan technology (Applied Biosystems, Foster City, CA, USA). Briefly, viral RNAs were extracted by using the magnetic bead–based viral nucleic acid purification protocol described by Boom et al. (7). Subsequently, 1-step real-time RT-PCR was performed by using a dual-labeled fluorogenic EV-specific probe and primers designed on the basis of previous data (8). For genotyping, seminested RT-PCR was used to amplify part of the viral protein (VP) 1 gene of EV, based on the Korea Centers for Disease Control and Prevention protocol for detection of pan-EV, and sequencing analysis for VP1 amplicon was performed by using automatic sequencer and DNAstar software package (9).

In 2009, a total of 2,427 patients were recruited. Of these patients, 519 had symptoms of HFMD or herpangina. EV was detected in 461 (19%) of all patients and in 321 (66%) of patients with suspected HFMD and herpangina. Samples from 331 (72%) of the 461 EV-seropositive patients were available for genotyping (Table 1). In addition, we found 112 cases of HFMD with CNS complications (meningitis or encephalitis); EV was detected in 95 (85%) and EV71 in 92 (82%) case-patients. Furthermore, EV71 was detected in 2 of the 187 case-patients in which meningitis without HFMD or herpangina was diagnosed. Thus, 94 patients were enrolled in this study. The incidence of EV71 infection peaked in July and decreased drastically in August.

Fifty-nine (63%) patients were boys. Mean (SD) patient age was 46 (29) months (range 1 month–12 years); 12 (13%) patients were <1 year of age. Initial diagnoses were viral meningitis (60 patients), encephalitis (20), acute cerebellar ataxia (12), acute transverse myelitis (1), and Guillain-Barré syndrome (1). Rash and fever were the most common initial symptoms (85% and 81%, respectively). Approximately 50% of patients had headache, vomiting, and neck stiffness. Cerebrospinal fluid (CSF) profile was available for 77 patients. Median leukocyte count was 111 cells/mm3 (interquartile range 48–318 cells/mm3), mean (SD) protein level was 43 (18) mg/dL, and mean (SD) glucose level was 69 (13) mg/dL. Of the 32 (34%) patients who underwent magnetic resonance imaging of the brain, 24 (75%) had normal results, 4 (13%) had meningeal enhancement on T1-enhanced imaging, and 4 (13%) had high signal intensity at the brainstem or cerebellum on T2-weighted or fluid-attenuated inversion recovery imaging. All brain parenchymal lesions were located in the brainstem or cerebellum, and the 4 patients with brain lesions subsequently experienced ataxia.

EV71 was found in 72 (92%) of 78 lower gastrointestinal tract samples, 37 (60%) of 62 upper respiratory tract samples, and 2 (5%) of 37 CSF samples. On the basis of sequence analysis, C4a, with high similarity to strains from China in 2008, was a dominant serotype of EV71 (76%); and C1 was found in 2 patients and C5 in 1 patient.

The results of this and previous studies are summarized in Table 2. The partial VP1 sequences of Korean EV71 strains were registered in GenBank (HM443164–644), and viral genetic identity belonged to C4a genotype, which was not a prevailing genotype in the previous reports of other Asian Pacific countries.

Conclusions

The severity of, and case-fatality rate for, EV71 infection in our population were relatively low compared with those of previous reports in which the case-fatality rate ranged from 10% to 26% (12). This discrepancy has some plausible explanations. In previous studies, the prevailing genotype of EV71 was B (1,14). In contrast, the predominant genotype in our patients was C4, particularly C4a, which has been prevalent in China since 2008 (11). The case-fatality rate also was low in China, with 3 patients dying of the 1,149 reported with EV71 infection (11). Therefore, the virulence of the C4a genotype may be milder than that of other genotypes.

We detected EV71 rarely in the CSF of our patients. Possible explanations include the transient presence of the virus in CSF, a lower viral load in CSF, and use of an EV PCR assay that had not been optimized to detect EV71. In our population, the CSF profile of EV71 infection appeared to be broadly similar to that of other cases of viral encephalitis or meningitis. Thus, analyzing the CSF of patients with suspected EV71 infection may provide minimal information.

Several studies have shown that EV71 infection rate was most common during the warmer season (15). In our study, the seasonality of EV71 infection initially was similar to that of previous reports. However, the prevalence of EV71 infection decreased drastically in August, the warmest month in South Korea. A possible reason for this difference could be that in 2009, influenza pandemic (H1N1) 2009 affected South Korea; with the first death caused by it in South Korea reported in August. As a consequence, personal hygiene practices, such as handwashing and covering one’s cough or sneeze, were emphasized to prevent virus spread. Considering the transmission route of EV71 infection, the emphasis on personal hygiene may thus have hindered the spread of EV71, as well as of the influenza virus.

We report 94 cases of PCR-confirmed EV71 infection with CNS involvement, including 2 deaths, and provide additional clinical and virologic information about EV71. We confirmed that EV71 commonly involved the brainstem and cerebellum, and therefore ataxia is not uncommon in EV71 infection with CNS involvement. In addition, our study supports the hypothesis that the severity of and case-fatality rates for EV71 infection may differ by genotype or subgenotype of EV71.

Dr Ryu is a neurologist at the National Institute of Health, Korea Centers for Disease Control and Prevention and Seoul National University Hospital, Seoul. His primary research interest is viral infections in the central nervous system.

Acknowledgment

This study was supported by an intramural research fund from the National Institute of Health, South Korea.

References

  1. AbuBakar S, Sam IC, Yusof J, Lim MK, Misbah S, MatRahim N, et al. Enterovirus 71 outbreak, Brunei. Emerg Infect Dis. 2009;15:7982. DOIPubMed
  2. Connolly JH, O’Neill HJ. Echovirus type 4 outbreak in Northern Ireland during 1970–71. Ulster Med J. 1972;41:15560.PubMed
  3. Ooi MH, Wong SC, Clear D, Perera D, Krishnan S, Preston T, Adenovirus type 21–associated acute flaccid paralysis during an outbreak of hand-foot-and-mouth disease in Sarawak, Malaysia. Clin Infect Dis. 2003;36:5509. DOIPubMed
  4. Cardosa MJ, Perera D, Brown BA, Cheon D, Chan HM, Chan KP, Molecular epidemiology of human enterovirus 71 strains and recent outbreaks in the Asia-Pacific region: comparative analysis of the VP1 and VP4 genes. Emerg Infect Dis. 2003;9:4618.PubMed
  5. Wang JR, Tuan YC, Tsai HP, Yan JJ, Liu CC, Su IJ. Change of major genotype of enterovirus 71 in outbreaks of hand-foot-and-mouth disease in Taiwan between 1998 and 2000. J Clin Microbiol. 2002;40:105. DOIPubMed
  6. McMinn P, Lindsay K, Perera D, Chan HM, Chan KP, Cardosa MJ. Phylogenetic analysis of enterovirus 71 strains isolated during linked epidemics in Malaysia, Singapore, and Western Australia. J Virol. 2001;75:77328. DOIPubMed
  7. Boom R, Sol JC, Salimans MM, Jansen CL, Wertheim-van Dillen PM, van der Noordaa J. Rapid and simple method for purification of nucleic acids. J Clin Microbiol. 1990;28:495503.PubMed
  8. Tan EL, Yong LL, Quak SH, Yeo WC, Chow VT, Poh CL. Rapid detection of enterovirus 71 by real-time TaqMan RT-PCR. J Clin Virol. 2008;42:2036. DOIPubMed
  9. Nix WA, Oberste MS, Pallansch MA. Sensitive, seminested PCR amplification of VP1 sequences for direct identification of all enterovirus serotypes from original clinical specimens. J Clin Microbiol. 2006;44:2698704. DOIPubMed
  10. Zhang Y, Zhu Z, Yang W, Ren J, Tan X, Wang Y, An emerging recombinant human enterovirus 71 responsible for the 2008 outbreak of hand, foot and mouth disease in Fuyang city of China. Virol J. 2010;7:94. DOIPubMed
  11. Zhang Y, Tan XJ, Wang HY, Yan DM, Zhu SL, Wang DY, An outbreak of hand, foot, and mouth disease associated with subgenotype C4 of human enterovirus 71 in Shandong, China. J Clin Virol. 2009;44:2627. DOIPubMed
  12. Ooi MH, Wong SC, Podin Y, Akin W, del Sel S, Mohan A, Human enterovirus 71 disease in Sarawak, Malaysia: a prospective clinical, virological, and molecular epidemiological study. Clin Infect Dis. 2007;44:64656. DOIPubMed
  13. Lin TY, Chang LY, Hsia SH, Huang YC, Chiu CH, Hsueh C, The 1998 enterovirus 71 outbreak in Taiwan: pathogenesis and management. Clin Infect Dis. 2002;34(Suppl 2):S527. DOIPubMed
  14. Perez-Velez CM, Anderson MS, Robinson CC, McFarland EJ, Nix WA, Pallansch MA, Outbreak of neurologic enterovirus type 71 disease: a diagnostic challenge. Clin Infect Dis. 2007;45:9507. DOIPubMed
  15. Wang SM, Liu CC, Tseng HW, Wang JR, Huang CC, Chen YJ, Clinical spectrum of enterovirus 71 infection in children in southern Taiwan, with an emphasis on neurological complications. Clin Infect Dis. 1999;29:18490. DOIPubMed

Figure

Tables

Suggested citation for this article: Ryu W-S, Kang B, Hong J, Hwang S, Kim A, Kim J, et al. Enterovirus 71 infection with central nervous system involvement, Korea. Emerg Infect Dis [serial on the Internet]. 2010 Nov [date cited]. http://wwwnc.cdc.gov/eid/article/16/11/10-0104.htm

DOI: 10.3201/eid1611.100104

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