Avian influenza H5N1 and healthcare workers.To the Editor: Since January 2004, 35 human cases of avian avian /avi·an/ (a´ve-an) of or pertaining to birds. a·vi·an (   v
influenza A virus H5N1 H5N1 - [not an acronym] Avian Influenza A have been reported in Vietnam. Human-to-human
transmission of H5N1 is a major concern, particularly because of
reported family clustering (1). Two probable cases of human-to-human
transmission were recently reported from Thailand (2), and evidence for
human-to-human transmission was found in the 1997 Hong Kong outbreak
(3). We evaluated healthcare workers exposed to 2 patients (patients 5
and 6 [1], referred to as patients A and B, respectively, in this
article) with H5N1 infection, confirmed by polymerase chain reaction
(PCR), to determine the potential risk for nosocomial 1. Of or relating to a hospital. 2. Of or being a secondary disorder associated with being treated in a hospital but unrelated to the patient's primary condition. Patient A was admitted to a general ward of a pediatric hospital in Ho Chi Minh Ho Chi Minh (hô chē mĭn), 1890–1969, Vietnamese nationalist leader, president of North Vietnam (1954–69), and one of the most influential political leaders of the 20th cent. His given name was Nguyen That Thanh. In 1911 he left Vietnam, working aboard a French liner. City on January 15, 2004, on day 8 of illness; no infection control measures were taken at that time. On January 18, 2004, she was transferred to the intensive care unit (ICU). Eight hours after ICU admission, limited infection control measures were implemented: the patient was transferred to a single room, and healthcare workers were required to use disposable surgical masks and gloves and wear nondisposable gowns. However, because resources were limited, each healthcare worker wore only 1 glove. On January 23, patient A was transferred to another hospital. Patient B was admitted to the infectious diseases ward of the pediatric hospital on January 19, 2004, on day 6 of illness; he was transferred to the ICU after 4 hours and stayed there until he died on January 23. Infection control measures were implemented 2 days after ICU admission; these measures were similar to those taken for patient A except that no single room was available. From January 25 to 27, 2004, a nasal swab specimen and baseline serum sample were collected from healthcare workers at the hospital; each worker also completed a questionnaire. On February 9 and 10, follow-up serum samples were collected. Nasal swab samples were tested by reverse transcription (RT)-PCR to detect the H5 gene (1). Paired serum samples were subjected to enzyme-linked immunosorbent assay (ELISA) (Virion/Serion, Wurzburg, Germany) to detect immunoglobulin G against the nucleoprotein of influenza A; samples were also subjected to an H5-specific microneutralization assay (4). Of 62 healthcare workers involved in caring for patient A, patient B, or both, 60 (97%) provided both samples and questionnaires: 16 who cared for patient A on the general ward, 33 who cared for patients A and B in the ICU, and 11 who cared for patient B on the infectious diseases ward or who were consulted for diagnostic or clinical procedures involving either patient. Characteristics of the workers and their exposures are shown in the Table. The median time between last exposure and collection of the nasal swab and the baseline serum samples was 7 days (range 2-12 days). The median time between last exposure and collection of the follow-up serum sample was 21 days (range 17-26 days). All 60 nasal swab samples were negative by RT-PCR. Paired serum samples were available from 46 healthcare workers, and 42 were negative in the influenza A--specific ELISA, 2 reacted with a negative-to-borderline response, 1 had a borderline-to-positive response, and 1 had 2 positive responses. A positive response indicates recent infection. All paired serum samples, 12 additional baseline samples, and 2 additional follow-up samples were negative in the H5-specific microneutralization assay. None of the paired samples from 4 healthcare workers that were reactive in the ELISA showed 4-fold or greater changes in titer in H1- and H3-specific hemagglutination he inhibition and microneutralization assays, which
indicates they had not recently been infected with human influenza. None
of these 4 healthcare workers reported any illness or potential exposure
to H5N 1 other than to patient A or B. The ELISA results were considered
nonspecific. Paired serum samples from patient A showed clear
seroconversion in both ELISA and H5 microneutralization. Serum specimens
were not available from patient B. mag·gluti·nate v.We found no transmission of H5N1 to healthcare workers, despite the lack of infection control measures, which suggests inefficient human-to-human H5N1 transmission; similar results were found in Hanoi (5). Droplet and contact transmission are considered the most effective means of transmitting influenza A in hospitals, and the clinical importance of airborne transmission has not been fully elucidated (6). Diarrhea in H5Nl-infected patients potentially contains viable virus (1,7) and may affect the H5N1 transmission route. While these results appear reassuring, the limited options that were available to prevent nosocomial infection are worrisome. If reassortment between avian and human influenza A virus were to occur, resulting in a virus with pandemic potential, nosocomial transmission would be a concern. Infection control measures are crucial in all cases of avian influenza avian influenza: see influenza., and resources to prevent nosocomial infection must be made available in affected countries. Constance Schultsz,* Vo Cong Dong, ([dagger]) Nguyen Van Vinh Chau, (double dagger]) Nguyen Thi Hanh Le, ([dagger]) Wilina Lim, ([section]) Tran Tan Thanh,* Christiane Dolecek,* Menno D. de Jong,* Tran Tinh Hien, ([double dagger]) and Jeremy Farrar * * Oxford University Clinical Research Unit at The Hospital for Tropical Diseases, Ho Chi Minh City Ho Chi Minh City, formerly Saigon, city (1997 pop. 5,250,000), on the right bank of the Saigon River, a tributary of the Dong Nai, Vietnam. Ho Chi Minh City is the largest city, the greatest port, and the commercial and industrial center of Vietnam. It has an airport and is the focus of the country's highways, railroads, and Mekong Mekong (mā`kŏng, mē`–), Chinese Lancang, one of the great rivers of SE Asia, c.2,600 mi (4,180 km) long. From its marshy source (definitively identified in 1994) on the Rup-sa Pass in the highlands of Tibet, it rises as the Za Qu (Dza Chu) and flows generally S through Yunnan prov. in deep gorges and over rapids. delta waterways. An ancient Khmer settlement, Saigon passed (17th cent.) to the Annamese., Vietnam; ([dagger]) Pediatric Hospital Number 2, Ho Chi Minh City, Vietnam; ([double dagger]) The Hospital for Tropical Diseases, Ho Chi Minh City, Vietnam; and ([section] Department of Health, Hong Kong Special Administrative Region, People's Republic of China Table. Characteristics of 60 healthcare workers exposed to avian influenza patient A, patient B, or both Characteristic * No. (%) Median age, y (n = 60) 33 (range 22-54) Male/female (n = 60) 14/46 Occupation (n = 60) Nurse 28 (46.7) Physician 10 (16.7) Cleaner 9 (15.0) Technician (laboratory/radiology) 9 (15.0) Other 4 (6.7) Flulike illness in preceding 2 weeks (n = 49) 6 (12.0) Contact with poultry or birds 2 (3.4) (healthy or sick) (n = 59) Recent travel to Mekong Delta (n = 59) 5 (8.4) Duration of exposure (n = 59) <12 h 30 (50.8) 12-36 h 18 (30.5) >36 h 11 (18.6) Contact with secretions (n = 59) Yes 15 (25.4) No 15 (25.4) Don't know 29 (49.2) * n indicates number of healthcare workers for which data were available. References (1.) Tran TH, Nguyen TL, Nguyen TD, Luong TS, Pham PM, Nguyen VC, et al. Avian influenza A (H5N1) in 10 patients in Vietnam. N Engl J Med. 2004;350: 1179-88. (2.) Ungchusak K, Auewarakul P, Dowell SF, Kitphati R, Auwanit W, Puthavathana P, et al. Probable person-to-person transmission of avian influenza A (H5NI). N Engl J Med. 2005;352:333-40. (3.) Buxton Bridges C, Katz JM, Seto WH, Chan PK, Tsang D, Ho W, et al. Risk of influenza A (H5N1) infection among health care workers exposed to patients with influenza A (H5N1), Hong Kong. J Infect Dis. 2000;181:344-8. (4.) Rowe T, Abernathy RA, Hu-Primmer J, Thompson WW, Lu X, Lira W, et al. Detection of antibody to avian influenza A (H5N1) virus in human serum by using a combination of serologic assays. J Clin Microbiol. 1999;37:937-43. (5.) Thanh LN, World Health Organization International Avian Influenza Investigation Team V, Lim W. Lack of H5NI avian influenza transmission to hospital employees, Hanoi, 2004. Emerg Infect Dis. 2005;11:210 5. (6.) Bridges CB, Kuehnert MJ, Hall CB. Transmission of influenza: implications for control in health care settings. Clin Infect Dis. 2003;37:1094 101. (7.) De Jong MD, Bach VC, Phan TQ, Vo MH, Tran TT, Nguyen BH, et al. Fatal avian Influenza A (H5N1) in a child presenting with diarrhea followed by coma. N Engl J Med. 2005;352:686-91. Address for correspondence: Constance Schultsz, Oxford University Clinical Research Unit at the Hospital for Tropical Diseases, 190 Ben Ham Tu, Quan 5, Ho Chi Minh City, Vietnam; fax: 84-8-9238-904; email: schultsz@ hcm.vnn.vn |
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