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Volume 20, Number 6—June 2014
Letter

Hepatitis E Virus Infection, Papua New Guinea, Fiji, and Kiribati, 2003–2005

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To the Editor: We report hepatitis E virus (HEV) infection rates in 3 South Pacific island countries—Papua New Guinea (PNG), Fiji, and Kiribati—determined from results of HEV IgG testing. During 2003–2005, specimens were collected from volunteers as part of a study of the epidemiology of viral hepatitis (1,2). Participants recruited were apparently healthy adults in the community and mother–infant pairs (specifically infants who were receiving, or had recently completed, their vaccinations). No specific inclusion/exclusion criteria were applied. Samples were collected from outpatient clinics and hospitals in PNG from Port Moresby, Goroka, Mt Hagen, Madang, and Daru. Samples from Fiji were collected in Suva from outpatient clinics and hospital wards. A proportion of samples from children were taken from nonjaundiced inpatients in PNG and Fiji. In Kiribati, samples were collected from participants at village preschools, vaccination clinics, and outpatient clinics on North Tarawa and North Tabiteuea (2). These were convenience samples and therefore might not be nationally representative cohorts. We obtained ethics permission for the study from appropriate national agencies. Signed informed consent was obtained from each participant or, for children, from a parent or guardian.

From this sample pool, in a time sequential manner, the first serum samples were assayed: 545 from PNG (48 Goroka, 99 Mt Hagen, 87 Daru, 47 Madang, 156 Port Moresby), 265 from Fiji, and 238 from Kiribati. We evaluated samples using the Wantai (PE2) HEV IgG ELISA kit (Wantai Pharmaceutical Enterprise, Beijing, China), which detects IgG for all 4 known strains of human HEV. The assays were used according to the manufacturer’s instructions, and repeat equivocal results were defined as negative (3,4). HEV IgG positivity was highest in PNG (15.2%), followed by Kiribati (8.8%) and Fiji (2.2%) (Table). IgG positivity did not differ significantly between adults and children (<16 years of age) (PNG: 16.1% vs. 11.4%, p = 0.23; Kiribati: 6.0% vs. 13.3%, p = 0.06; and Fiji: 1.7% vs. 3.3%, p = 0.42 [Fisher exact test]).

To investigate potential parent–child transmission, we tested mother/child (MC); father/child (FC); and when possible, mother/father/child (MFC) sets. We found no transmission association: In PNG, we tested 88 sets (67 MC, 2 MFC, and 19 FC); in Fiji, 29 sets (20 MC and 9 MFC); and in Kiribati, 65 sets (59 MC and 6 MFC); of the 11 PNG, 1 Fijian, and 8 Kiribati HEV IgG–positive children, none had IgG-positive parents. Because these samples were tested retrospectively, ascertaining the HEV IgG status of other family members was not possible.

The high percentage of HEV-seropositive children <5 years of age in PNG and Kiribati implies active viral circulation in these countries. This is an unusual finding, compared with findings from seroprevalence studies in developing countries where IgG prevalence increases with age (3). The reason for this difference remains to be determined. It is unlikely to relate to acute HEV infection in hospitalized children sampled because the Wantai assay measures IgG, not IgM. The finding that these young seropositive children commonly have seronegative parents suggests that parent–child transmission is not the primary mechanism of infection in the population studied, which is in accord with published data (4).

To investigate whether HEV seropositivity was higher in certain areas, we partitioned the data into regions defined by participant’s place of birth and tribal ethnicity. In Fiji and Kiribati, no significant region association was detected. However, in PNG, the proportion of HEV antibody–positive specimens was greater among participants from highland communities (altitude >1,500 m) than from lowland communities (20.4% vs. 9.7%, p = 0.01). (Port Moresby has a mixed immigrant population and was excluded from this analysis).

The reason for the higher proportion of HEV IgG–positive specimens among participants in highland than lowland communities is unclear but might be explained by increased zoonotic transmission. In highland regions, pigs are more frequently kept, and the animals are kept closer to home (5). HEV genotypes 1 and 2 are hyperendemic to many developing countries and typically cause waterborne outbreaks of acute hepatitis in humans (6). Genotypes 3 and 4 are endemic to industrialized countries and are known to be a porcine zoonosis (7). Genotype 3 has been found in pigs in New Caledonia (8).

In our investigation of 3 developing nations in Oceania, we found that HEV IgG positivity varies substantially between, and within, countries; it is high in PNG (15.2%) and low in Fiji (2.2%). By using the same sensitive, diagnostic assay, the seroprevalence of HEV in blood donors in New Zealand was reportedly 4% (9). In New Caledonia, 1.7% of 351 military recruits tested positive (10). In our study, the sampling method limits the applicability of the data to the general population. Nevertheless, our findings suggest HEV infection should be considered in cases of unexplained hepatitis.

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Acknowledgments

We thank Nakapi Tefuarani, John Vince, Mark Paul, Peter Siba, research staff from the Papua New Guinea Institute of Medical Research, Elenoa Areito, Bale Maleli Naiguilevu; Kabwea Tiban, Airam Metai, Tekaibeti Tarataake, Artin Ruatu, and Rosemary Tekoaua for their assistance with sample collection. We also thank Wantai Pharmaceutical Enterprise for providing the anti-HEV IgG kits free of charge.

The Welcome Trust (AL061746 and 091663MA), Oxford Martin School, and National Institute for Health Research Biomedical Research Centre Oxford provided funding for this study.

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John S. Halliday1Comments to Author , G.L. Abby Harrison1, Anthony Brown, Jeremy G. Hunter, Richard Bendall, David Penny, Tebuka Toatu, Mohammad Y. Abdad, Paul Klenerman, Eleanor Barnes, and Harry R. Dalton
Author affiliations: University of Oxford, Oxford, UK (J.S. Halliday, A. Brown, P. Klenerman, E. Barnes); Royal Melbourne Hospital, Melbourne, Victoria, Australia (J.S. Halliday); Walter and Eliza Hall Institute of Medical Research, Melbourne (G.L.A. Harrison); University of Exeter, Truro, UK (J.G. Hunter, R. Bendall, H.R. Dalton); Massey University, Palmerston North, New Zealand (D. Penny); Disease Surveillance, Control and Research Unit, Secretariat of the Pacific, Suva, Republic of the Fiji (T. Toatu); Papua New Guinea Institute of Medical Research, Goroka, Papua New Guinea (M.Y. Abdad)

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References

  1. Harrison  A, Lemey  P, Hurles  M, Moyes  C, Horn  S, Pryor  J, Genomic analysis of hepatitis B virus reveals antigen state and genotype as sources of evolutionary rate variation. Viruses. 2011;3:83101 . DOIPubMedGoogle Scholar
  2. Harrison  GLA, Pryor  J, Malani  J, Supuri  M, Masta  A, Teriboriki  B, Infection frequency of hepatitis C virus and IL28B haplotypes in Papua New Guinea, Fiji, and Kiribati. PLoS ONE. 2013;8:e66749. DOIPubMedGoogle Scholar
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  10. Bauduceau  O, Berlioz  A, Buisson  Y, Hepatitis  B. C, and E in New Caledonia. Seroepidemiologic study in military recruits. Med Trop (Mars). 2000;60:16770 .PubMedGoogle Scholar

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Table

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Cite This Article

DOI: 10.3201/eid2006.130562

1These authors contributed equally to this article.

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John S. Halliday, Department of Gastroenterology, Royal Melbourne Hospital, 300 Grattan St, Parkville 3050, Victoria, Australia

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Page created: May 19, 2014
Page updated: May 19, 2014
Page reviewed: May 19, 2014
The conclusions, findings, and opinions expressed by authors contributing to this journal do not necessarily reflect the official position of the U.S. Department of Health and Human Services, the Public Health Service, the Centers for Disease Control and Prevention, or the authors' affiliated institutions. Use of trade names is for identification only and does not imply endorsement by any of the groups named above.
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