ISSN: 1080-6059
Soawapak Hinjoy,* Pilaipan Puthavathana,† Yongjua
Laosiritaworn,* Khanchit Limpakarnjanarat,‡ Phisanu Pooruk,† Teerasak Chuxnum,*
James M. Simmerman,‡ and Kumnuan Ungchusak*
*Ministry of Public Health, Nonthaburi, Thailand; †Mahidol
University, Bangkok, Thailand; and ‡Global Disease Detection/International
Emerging Infections Program, Nonthaburi, Thailand
Suggested citation for this article
Abstract
In Thai provinces where avian influenza outbreaks in poultry
had been confirmed in the preceding 6 months, serum from 322 poultry farmers
was tested for antibodies to avian influenza virus subtype H5N1 by
microneutralization assay. No study participant met the World Health Organization
serologic criteria for confirmed infection.
During late 2003 and 2004, highly pathogenic avian influenza virus (H5N1) caused extensive outbreaks and die-offs in poultry flocks in Thailand and several other countries in Southeast Asia (1). From January through March 2004, 12 cases, 8 fatal, in humans resulted from infection with influenza virus (H5N1) in Thailand (2). In response, the Thailand Department of Livestock Development enlisted government employees to conduct a large-scale cull of poultry in the affected provinces (www.dld.go.th/home/bird_flu/emergency.html). This effort began on January 23, 2004, and resulted in the slaughter of >21 million birds (www.fao.org/ag/againfo/subjects/en/health/diseases-cards/avian_bg.html). Poultry farmers and persons involved in culling are at increased risk for infection (3). In May 2004, we conducted a seroepidemiologic investigation of Thai poultry farmers to determine the frequency of avian influenza (H5N1) transmission to humans.
We conducted a cross-sectional study among poultry farmers
and cullers from 1 district in each of the 5 provinces (Chachoengsao,
Kanchanaburi, Khon Kaen, Sukhothai, and Suphanburi) where outbreaks of avian
influenza (H5N1) among poultry and human infections had been confirmed since
January 2004 (Figure). With the assistance of provincial human and animal
health authorities, we contacted farmers living in these districts. Informed
consent was obtained, and a brief interview was conducted. Because the precise
timing of potential exposures could not be determined, a single serum sample
was collected from each patient and stored at –20°C until tested under Biosafety
Level 3 (BSL-3) conditions. Specimens were tested, according to adapted methods
described by Katz et al. (4), at the Department of Microbiology, Faculty
of Medicine, Siriraj Hospital, Mahidol University by Microneutralization assay (micro-Nt) for antibody to H5N1
viruses. Before this study, senior laboratory staff from Siriraj Hospital
received 2 weeks of on-site training by a visiting scientist from the US
Centers for Disease Control and Prevention who had expertise with this assay.
The World Health Organization (WHO) defines a positive test result as a
microneutralization antibody titer for influenza virus (H5N1) of >80 with a
confirmatory ELISA or Western blot assay (3,4)
(www.who.int/csr/disease/avian_influenza/guidelines/case_definition2006_
08_29/en/index.html).
Serum samples from persons >50 years of age were excluded from laboratory
analysis because the microneutralization assay for antibodies against subtype H5N1
has been reported to be less specific for older persons (5).
Of 350 farmers asked to participate, 322 (92%) enrolled in the study, of which 167 (52%) were women, and 28 (8%) persons declined to participate. The mean age of participants was 34 years (range 5–50 years) (Table). Among participants, 188 (58%) reported handling sick or dying poultry, 107 (33%) were involved in culling operations of apparently well poultry in outbreak areas, and 27 (9%) reported only contact with well poultry in the context of routine farming practices. Although no study participant had an anti-H5N1 antibody titer of >80, 7 (2.2%) farmers had lower reactive antibody titers. Of these, 4 had titers of 10, 2 had titers of 20, and 1 had a titer of 40. The small number of study participants with anti-H5 antibody titers precluded statistical comparisons to those without reactive antibodies.
Poultry farmers and cullers are at increased occupational risk for exposure to avian influenza viruses. However, since 2004, infections have been less commonly reported in cullers, while poultry farmers have made up a large proportion of cases worldwide. A study in Hong Kong Special Administrative Region, People's Republic of China, examined influenza virus (H5N1) transmission and risk factors among poultry workers and government workers involved in culling during the 1997–98 outbreak (3). The study concluded that although no hospitalized poultry workers were identified among the 18 patients in that outbreak, 3% of 293 cullers and 10% of 1,525 poultry workers had antibody titers against influenza (H5N1) of >80, which suggested that a substantial number of mild or asymptomatic infections had occurred in this occupationally exposed population. In contrast, we found that no poultry workers had microneutralization titers >80, whereas 7 (2%) had lower titers that did not meet the WHO definition for seropositivity.
These findings could have several possible explanations. The lower titers may have resulted from cross-reactivity with circulating antibodies after previous human influenza virus infections (5,6). These low titers could be the result of mild or asymptomatic influenza (H5N1) infections because not all influenza virus infections invariably result in marked antibody responses (7). Likewise, these results could reflect the decay of antibody titers over time (8). Finally, the Micro-NT assay is a highly specific and strain-sensitive test. Although we used the same virus that was circulating in Thailand at that time, these lower titers could be attributable to infections with another virus variant.
Most human influenza (H5N1) infections have occurred in persons who had had direct contact with sick or dying poultry (9–11). While human infections with avian influenza (H5N1) continue to be reported, growing evidence indicates that this virus is not easily transmitted from poultry to humans and that mild or asymptomatic infections in humans are not common. A seroepidemiologic investigation in rural Cambodia surveyed 351 participants from 93 households in an area where influenza (H5N1) infections in poultry and a single fatal human case had been documented (10). Despite frequent, direct contact with poultry suspected of having influenza (H5N1) infection, none of the Cambodian study participants had antibodies reactive to this subtype. A similar study in Nigeria found that all of 295 poultry workers had negative test results for influenza (H5N1) neutralizing antibodies (12). Studies of healthcare workers suggest that transmission of influenza virus (H5N1) to hospital staff who cared for infected patients also appears to be uncommon (13–15).
Our study provides additional evidence to suggest that influenza
virus (H5N1) is not easily transmitted to humans. However, the wide geographic
distribution of this subtype, ubiquitous exposures, and the high case-fatality
ratio from the infection underscore the importance of adherence to poultry-handling
practices recommended by the Food and Agriculture Organization and WHO (www.wpro.who.int/NR/rdonlyres/7693BAF7-13E7-42DB-B92B-004CF5D517E7/0/
WHOinterimrecommendation26012004.pdf, www.fao.org/ag/againfo/subjects/en/health/diseases-cards/avian_qa.html#8).
Molecular surveillance indicates that the avian influenza virus (H5N1)
continues to evolve rapidly (www.who.int/csr/disease/avian_influenza/guidelines/recommendationvaccine.pdf).
Additional seroepidemiologic studies are warranted to monitor for changes in
transmissibility and the spectrum of clinical illness.
We thank the following for their valuable assistance during this study: the staff of Chachoengsao, Kanchanaburi, Khon Kaen, Sukhothai and Suphanburi Provincial Health Office; the staff of Communicable Disease Section, Surveillance and Investigation Section (Bureau of Epidemiology, Department of Disease Control); the International Emerging Infectious Program (Thailand MOPH-US CDC Collaboration); and Robert Gibbons, Preecha Prempre, Rungnapa Prasantong, Pravit Choomkasien, and Prasert Thongcharoen.
This study was supported by the Department of Disease Control, Thailand Ministry of Public Health.
Dr Hinjoy is a veterinarian and epidemiologist at the Bureau of Epidemiology, Thailand Ministry of Public Health. She was extensively involved in the case investigations and control efforts for avian influenza outbreaks in Thailand during 2004–2006.
Hinjoy S, Puthavathana P, Laosiritaworn Y, Limpakarnjanarat K, Pooruk P, Chuxnum T, et al. Low frequency of infection with avian influenza virus (H5N1) among poultry farmers, Thailand, 2004. Emerg Infect Dis [serial on the Internet]. 2008 March [date cited]. Available from http://www.cdc.gov/EID/content/14/3/499.htm
Please use the form below to submit correspondence to the authors or contact them at the following address:
James M. Simmerman, International Emerging Infections Program, Thailand MOPH-US CDC Collaboration, DDC Building 7, 4th Floor, Thailand MOPH, Nonthaburi, Thailand 11000; email: msimmerman@cdc.gov
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