Highly pathogenic avian influenza H5N1, Thailand, 2004.In January 2004, highly pathogenic path·o·gen·ic or path·o·ge·net·ic adj. 1. Having the capability to cause disease. 2. Producing disease. 3. Relating to pathogenesis. avian influenza avian influenza: see influenza. (HPAI HPAI Highly Pathogenic Avian Influenza HPAI Hospital Pharmacists Association, Ireland HPAI Hewlett Packard Associates International ) virus of the H5N1 subtype (programming) subtype - If S is a subtype of T then an expression of type S may be used anywhere that one of type T can and an implicit type conversion will be applied to convert it to type T. was first confirmed in poultry and humans in Thailand. Control measures, e.g., culling culling removal of inferior animals from a group of breeding stock. The removal is premature, i.e. before completion of its life span, disposal of an animal from a herd or other group. poultry flocks, restricting poultry movement, and improving hygiene, were implemented. Poultry populations in 1,417 villages in 60 of 76 provinces were affected in 2004. A total of 83% of infected flocks confirmed by laboratories were backyard chickens (56%) or ducks (27%). Outbreaks were concentrated in the Central, the southern part of the Northern, and Eastern Regions of Thailand Thailand's four regions are the largest subdivisions of the country. In contrast to the provinces the regions have no administrative character, but are subdivisions of Thailand used for statistical or other geographical purposes only. , which are wetlands, water reservoirs, and dense poultry areas. More than 62 million birds were either killed by HPAI viruses or culled. H5N1 virus from poultry caused 17 human cases and 12 deaths in Thailand; a number of domestic cats, captive tigers, and leopards also died of the H5N1 virus. In 2005, the epidemic is ongoing in Thailand. ********** Highly pathogenic avian influenza (HPAI) is a devastating dev·as·tate tr.v. dev·as·tat·ed, dev·as·tat·ing, dev·as·tates 1. To lay waste; destroy. 2. To overwhelm; confound; stun: was devastated by the rude remark. disease in poultry; it is associated with a high death rate and disrupts poultry production and trade (1,2). HPAI viruses may be transmitted from birds to humans (3,4), and they are a potential source of future human influenza pandemics
Asian nation country, land, state - the territory occupied by a nation; "he returned to the land of his birth"; "he visited several European countries" (South Korea, Vietnam, Japan, Thailand, Cambodia, Hong Kong, Laos, Indonesia, China, and Malaysia) (1,13), and these outbreaks were not easily halted (11,14). Furthermore, H5N1 viruses crossed from birds to humans and caused 116 laboratory-confirmed cases in Vietnam, Thailand, Cambodia, and Indonesia with 60 deaths (as of September 29, 2005) (11,15). We describe epidemiologic features of the HPAI H5N1 epidemic in Thailand in 2004, with focus on introduction of the virus, distribution of disease in Thai poultry, control measures, and consequences. Poultry in Thailand and HPAI Virus Introduction Before 2004, Thailand was among the world's major poultry exporters and produced [approximately equal to] 1 billion chickens per year (16); >400,000 persons were employed in the poultry industry (17). Aside from commercial hybrid broilers and layers, backyard poultry are raised for food in most villages (18) (Table 1). The poultry population is concentrated in the Central and Eastern Regions of Thailand (Figure 1). Table 2 categorizes Thai poultry production into 4 sectors on the basis of farm management, biosecurity, and market orientation (14). [FIGURE 1 OMITTED] In late 2003, poultry farms poultry farm n → granja avícola poultry farm n → élevage m de volaille poultry farm poultry n → in the Central and Northern Regions of Thailand experienced large-scale die-offs (19-22). Beginning in mid-December 2003, H5N1 outbreaks were reported in South Korea, Vietnam, and Japan. Meanwhile, Vietnam confirmed the first human death from H5N1 (13). In December 2003, a nationwide surveillance program was initiated to detect human cases in Thailand (22). Subsequently, the surveillance program was strenuously implemented for poultry in mid-January 2004. Cloacal cloacal emanating from or pertaining to cloaca. cloacal kiss the contact which occurs during insemination in birds when the vent of the female is everted exposing the cloacal mucosa against which the phallus of the male is pressed. swabs were collected from poultry flocks throughout Thailand, and all samples were tested for avian influenza by virus isolation (2) at national and regional laboratories of the Thai Department of Livestock Development (DLD DLD Dihydrolipoamide Dehydrogenase (deficiency) DLD Domestic Long Distance DLD Digital Lifestyle Device DLD Deutsche Linux Distribution DLD Developmental Language Disorder DLD Don't Look Down (band) ). On January 23, 2004, the Thai national reference laboratory (National Institute of Animal Health [NIAH NIAH National Institute of Animal Husbandry (Vietnam) ]) officially confirmed the presence of an H5 HPAI virus in a layer chicken farm in Suphanburi Province Suphan Buri (Thai: สุพรรณบุรี) is one of the central provinces (changwat) of Thailand. (13). The route by which this virus was introduced could not be traced. The virus was characterized as the H5N1 subtype (13), a member of the 2000 avian influenza lineage; most of its genetic sequences were closely related to influenza influenza or flu, acute, highly contagious disease caused by a virus; formerly known as the grippe. There are three types of the virus, designated A, B, and C, but only types A and B cause more serious contagious infections. A/Duck/China/E319.2/03 (23); it belonged to genotype genotype (jēn`ətīp'): see genetics. genotype Genetic makeup of an organism. The genotype determines the hereditary potentials and limitations of an individual. Z (11). That same day, the Thai Ministry of Public Health (MOPH MOPH Ministry of Public Health MOPH Military Order of the Purple Heart ) announced 2 laboratory-confirmed cases of H5N1 virus in children from Suphanburi and Kanchanaburi Provinces Kanchanaburi (Thai: กาญจนบุรี) is the largest of the central provinces (changwat) of Thailand. ; the children eventually died (24,25). Spread of the Epidemic The onset of H5N1 human cases (22) showed that the H5N1 virus was already introduced into Thailand by the end of 2003 (Figure 2), before the first identification of the virus. In addition, the 149 reported outbreaks in poultry in 144 villages in 32 of the 76 provinces during the first week of the epidemic indicated that the virus had been widespread throughout the country. The epidemics in Thailand took place in 2 distinct periods, January-May 2004 (termed P1 or the first wave) and July-December 2004 (termed P2 or the second wave) (Figure 2). The epidemic is ongoing in Thailand in 2005, but the current analysis includes only outbreaks from January to December 2004. [FIGURE 2 OMITTED] From January to May 2004, HPAI infections were detected in 188 villages in 42 of 76 provinces throughout Thailand (Table 3). The outbreaks occurred in all parts of Thailand but particularly in the Central, the southern part of the Northern, and the Eastern Regions. The last outbreak of the first wave was reported on May 24, 2004, from a layer farm in Chiangmai Province (13). On July 3, 2004, the recurrence recurrence /re·cur·rence/ (-ker´ens) the return of symptoms after a remission.recur´rent re·cur·rence n. 1. of HPAI was confirmed in layer farms in Ayudthaya and Pathumthani Provinces, north of Bangkok. These viruses were characterized as the H5N1 subtype, with genetic sequences similar to the H5N1 isolated in January 2004 (26). During P2, HPAI infections were detected in 1,243 villages in 51 provinces (Table 3), which were concentrated in the same 3 regions (Figure 3). From July 3 onward on·ward adj. Moving or tending forward. adv. also on·wards In a direction or toward a position that is ahead in space or time; forward. , [approximately equal to] 1-5 cases per day were detected in the first weeks of the epidemic. It reached a peak of 61 cases per day in mid-October 2004 (Figure 2B). [FIGURE 3 OMITTED] The geographic distribution of the second wave differs markedly from that of the first wave, and the number of confirmed outbreaks was 8 times higher. Most HPAI outbreaks were found in the Central and Northern Regions where chicken and duck flocks are relatively more abundant. In the Northern Region, 99% of infected flocks were detected in the southern part. Figure 3 shows that HPAI was sporadic in the Southern, the northern part of the Northern, and the Northeastern Regions, which have a lower number and density of poultry populations. Figure 2 shows a dramatic increase in HPAI-positive flocks in January and October 2004, which coincided with the nationwide surveillance programs implemented at that time. Also, the number of infected flocks, particularly of backyard chickens and ducks, increased markedly in these months (Figure 4). [FIGURE 4 OMITTED] Type of Poultry Affected Table 1 shows the various types of poultry in HPAI-positive flocks in 2004. Eighty-three percent of infected flocks were backyard chickens (56%) or ducks (27%); the rest were broilers (6%), layers (5%), quails (2%), and other birds (3%). From field studies in early 2004, ducks were determined to be silent carriers of HPAI virus (10,27). Accordingly, the proportion of infected ducks diagnosed during P2 markedly increased when compared to the number diagnosed during the early epidemic (P1) because more samples from ducks were submitted to laboratories. Figure 4 shows epidemic curves by species; consistent dissemination of infection was confined con·fine v. con·fined, con·fin·ing, con·fines v.tr. 1. To keep within bounds; restrict: Please confine your remarks to the issues at hand. See Synonyms at limit. to backyard chickens and ducks. Figure 5 illustrates the percentage of HPAI-infected poultry by region. More than 50% of infected flocks were of the backyard type in all regions except the Central Region ([approximately equal to] 40% of infected flocks were backyard), which suggests that backyard chickens played a crucial role in the epidemic. However, during P2, 46% of infected flocks in the Central Region were ducks, which shows that they also contributed substantially to the epidemic. Free-grazing ducks are common in the Central Region (Table 1), with its abundance of wetlands and rice paddies. In 102 flocks (6.05%), HPAI was detected in >1 species (mixed farms). Table 1 also shows cumulative incidence and relative risk (RR) of HPAI outbreaks. RRs of a flock's becoming inflected in·flect v. in·flect·ed, in·flect·ing, in·flects v.tr. 1. To alter (the voice) in tone or pitch; modulate. 2. Grammar To alter (a word) by inflection. 3. were 3.7 and 1.3 times higher, respectively, in the Central and Eastern Regions compared to the Northern Region. Moreover, risks for HPAI infection were 5.3, 5.1, 1.5, 32.4, and 2.3 times higher, respectively, in layers, broilers, ducks, quails, and geese geese domestic geese which were derived from the wild goose Anser anser. There are many other species in this genus and in the other genus of geese, the Branta spp. of which Branta canadensis is typical. compared to backyard chickens. Spread to Other Species In the early epidemic, domestic cats, captive tigers, and leopards also died from H5N1 viruses, which indicates that avian influenza can cross species barriers (13,20,25). In October 2004, the infection of H5N1 viruses was confirmed in captive tigers at Sriracha tiger zoo in Chonburi Province Chonburi (Thai: ชลบุรี) is a province (changwat) of Thailand. Neighboring provinces are (from north clockwise) Chachoengsao, Chanthaburi and Rayong. To the west is the Gulf of Thailand. , eastern Thailand (28). A total of 147 of 441 tigers kept in the zoo died or were euthanized to prevent possible spread to other zoo animals. Fresh chicken carcasses used to feed the zoo animals, contaminated contaminated, v 1. made radioactive by the addition of small quantities of radioactive material. 2. made contaminated by adding infective or radiographic materials. 3. an infective surface or object. with HPAI viruses, were considered to be the most plausible source of the infection (28). Control Measures Basic Control Measures Several measures were taken after the first isolation of HPAI virus in January 2004. Initially, all poultry, their products, feed, bedding, waste, and manure manure, term used in the United States to refer to excreta of animals, with or without added bedding; also called barnyard manure. In other countries the term often refers to any material used to fertilize the soil. from infected flocks were destroyed immediately by the veterinary authorities. Culling infected birds in each flock was generally completed 1-2 days after the virus was confirmed by virus isolation (confirmatory diagnosis took [approximately equal to] 2-8 days after submission of samples). Meanwhile, a restriction on moving poultry and their products within a 5-km radius around the infected flocks was enforced by DLD inspectors in collaboration with local police, and control checkpoints were temporarily established in these areas. Moreover, infected premises and equipment were cleaned and disinfected Disinfected Decreased the number of microorganisms on or in an object. Mentioned in: Isolation . In July 2004, DLD implemented a series of control measures to enable quick action. Specifically, if the poultry death rate in any facility was >10% within a single day, all birds, their products, and other potentially contaminated materials had to be destroyed without delay. Cloacal swabs of affected flocks were then collected for laboratory confirmation. Subsequently, neighboring neigh·bor n. 1. One who lives near or next to another. 2. A person, place, or thing adjacent to or located near another. 3. A fellow human. 4. Used as a form of familiar address. v. flocks were destroyed immediately or quarantined quar·an·tine n. 1. a. A period of time during which a vehicle, person, or material suspected of carrying a contagious disease is detained at a port of entry under enforced isolation to prevent disease from entering a country. until H5N1 laboratory confirmation. Upon a confirmative laboratory result, quarantined flocks were culled. Furthermore, movement of poultry and their products was restricted within a 1- to 5-km radius around the infected area. Preemptive pre·emp·tive or pre-emp·tive adj. 1. Of, relating to, or characteristic of preemption. 2. Having or granted by the right of preemption. 3. a. Culling In January 2004, contiguous flocks were preemptively culled as quickly as possible within a 5-km radius of a confirmed outbreak. After July 2004, preemptive culling was implemented only within a village, within an area of 1 km around an outbreak, or on suspected farms. This new strategy was adopted because the density of poultry flocks decreased after the massive culling during P1. Negative public perception of massive culling was another reason that this strategy was revised. Surveillance and Diagnosis In mid-January 2004, DLD launched a nationwide surveillance program to detect possible HPAI infections in poultry. Cloacal swabs were randomly collected from 4 flocks in each village (5 birds per flock). Swab samples were placed in tubes that contained virus transfer medium; usually 5 swabs were pooled per tube. During P1, > 100,000 tubes of swab samples were tested for avian influenza virus. During P2, [approximately equal to] 130,000 tubes of swab samples and 72,000 serum samples were collected for diagnosis. Swab samples as well as sick or dead bird specimens were submitted to NIAH or regional laboratories. All samples were processed for virus isolation in embryonated chicken eggs ([approximately equal to] 1-2 days) (2); 2 serial passages in embryonated chicken eggs were performed before a specimen was regarded as negative ([approximately equal to] 8 days). In January 2004, the first avian influenza isolate was sent to the University of Hong Kong The University of Hong Kong (commonly abbreviated as HKU, pronounced as "Hong Kong U") is the oldest tertiary institution in Hong Kong. Its motto is "Sapientia et Virtus" in Latin, and " to identify the virus and serotype serotype /se·ro·type/ (ser´o-tip) the type of a microorganism determined by its constituent antigens; a taxonomic subdivision based thereon. se·ro·type n. See serovar. v. hemagglutinin hemagglutinin /he·mag·glu·ti·nin/ (-gloo´ti-nin) an antibody that causes agglutination of erythrocytes. cold hemagglutinin one which acts only at temperatures near 4° C. (HA) and neuraminidase neuraminidase /neu·ra·min·i·dase/ (-ah-min´i-das) an enzyme of the surface coat of myxoviruses that destroys the neuraminic acid of the cell surface during attachment, thereby preventing hemagglutination. (NA) antigens. Thereafter, NIAH itself established the necessary facilities to identify and serotype virus. Furthermore, real-time reverse transcription-polymerase chain reaction analyses for avian influenza were used to detect the virus at all laboratories to reduce the time of diagnosis. Hemagglutination hemagglutination /he·mag·glu·ti·na·tion/ (he?mah-gloo-ti-na´shun) agglutination of erythrocytes. he·mag·glu·ti·na·tion n. inhibition (HI) test was used to detect antibodies to avian influenza virus in serum samples (2). A nationwide comprehensive surveillance program (known as "x-ray survey") was implemented October 1-31, 2004. The goal of this survey was to detect HPAI infection in any village. In close collaboration among the Ministry of Agriculture and Cooperatives, MOPH, and provincial governors, volunteer public health MOPH workers and DLD livestock workers searched for and reported sick and dead poultry in villages. Through the surveillance program, farmers were also persuaded to report sick or dead poultry in their flocks to authorities. In 2005, x-ray surveys were implemented continuously every 6 months. Moreover, commercial poultry flocks spend [approximately equal to] 8 days waiting for the results of cloacal swab or blood tests; only if birds are free of the virus will their owners be allowed to move them to slaughterhouses or new areas. Other Supportive Measures A public awareness campaign was started to educate the public on avian influenza and to bolster consumers' confidence that poultry was safe. In addition, the so-called "Big Cleaning Week" was promoted from March 1 to 7, 2004, to encourage relevant parties to be aware of HPAI and to disinfect To remove the virus code that has attached itself to a legitimate file. Sometimes, the antivirus program cannot untangle the code, and the infected file has to be deleted. See quarantine. their facilities, e.g., poultry houses, farm equipment and vehicles, slaughterhouses, and retail markets. Soaps, detergents, alkalis, acids, aldehydes, chlorine, and quaternary ammonium compounds quaternary ammonium compound n. Any of a group of compounds in which a central nitrogen atom is joined to four organic radicals and one acid radical, used as antiseptics, solvents, and emulsifying agents. Noun 1. were used as disinfectants. Poultry exhibition and cockfighting cockfighting, sport of pitting gamecocks against one other. Though popular in ancient Greece, Persia, and Rome, cockfighting has been long opposed by clergy and humane groups. were prohibited (since early 2004). A violation of this regulation is subject to fine. Additionally, the practice of allowing ducks to freely graze was discontinued dis·con·tin·ue v. dis·con·tin·ued, dis·con·tin·u·ing, dis·con·tin·ues v.tr. 1. To stop doing or providing (something); end or abandon: . Because of traditional farming styles, however, these practices are unlikely to change in a short period of time. After an affected flock was culled, a wait of [greater than or equal to] 60 days in broiler broiler a young (about 8 weeks old) male or female chicken weighing 3 to 3.5 lb. farms and [is greater than or equal to] 90 days in layer farms and backyard chickens was imposed before a new flock could be established. Farmers must also improve sanitary measures in their farms to meet DLD's requirements. Consequences of Epidemic In early 2004, lack of information and communication with regard to HPAI caused the public to lose confidence in poultry products. The decrease in domestic consumption and bans on Thai poultry products by importing countries damaged the poultry industry. In addition, H5N1 virus from poultry caused 17 human cases with 12 deaths in 12 provinces (Figures 2 and 3) (15,22). [FIGURES 2-3 OMITTED] The Thai government used a stamping-out policy to control HPAI outbreaks and compensated farmers for their losses. According to according to prep. 1. As stated or indicated by; on the authority of: according to historians. 2. In keeping with: according to instructions. 3. the Animal Epidemic Act, farmers are entitled to compensation of 75% of the value of animals that are destroyed. However, 100% compensation was provided during P1 because the epidemic was widespread and devastating to Thai farmers; compensation was reduced to 75% during P2. Compensation per bird was (in US dollars) $0.38-$65, depending on the type of poultry ($0.38 for quail quail, common name for a variety of small game birds related to the partridge, pheasant, and more distantly to the grouse. There are three subfamilies in the quail family: the New World quails; the Old World quails and partridges; and the true pheasants and seafowls. ; $1.13 for broiler; $2 for meat duck; $2.25 for backyard chicken; $3.5 for layer chicken, layer duck, or goose; $7.25 for turkey; and $65 for ostrich ostrich, common name for a large flightless bird (Struthio camelus) of Africa and parts of SW Asia, allied to the rhea, the emu and the extinct moa. It is the largest of living birds; some males reach a height of 8 ft (244 cm) and weigh from 200 to 300 lb ). Approximately 62 million birds were either killed by H5N1 viruses or culled for disease control and animal welfare reasons. The government allocated a budget of [approximately equal to] 5.3 billion Thai baht baht n. pl. bahts or baht See Table at currency. [Thai b  t.]Noun 1. (US $132.5 million) for direct compensation to affected farmers (29). All costs of implemented basic measures were covered by the government. As of March 2004, the HPAI epidemic had an estimated effect on the national gross domestic product of 0.39%. These losses amount to 25.24 billion Thai baht (US $631 million) (30). Conclusions Detection and Early Distribution of HPAI Virus Epidemiologic data from the early epidemic indicate that the period between the introduction of the virus into Thailand and its conclusive identification was too long. The route of virus introduction could not be traced. Also the delay between primary infection, first diagnosis, and finding the initial case allowed widespread dissemination of the virus and contributed to the large scale of the epidemic (31,32). Early warning, early detection, and early response are essential to prevent and control HPAI. In view of potential public health implications of HPAI, notifying and collaborating with public health authorities is equally important. Geographic Regions, Affected Species, and Incidence The epidemic differed by region. The Central and Northern Regions contained 82% of the total outbreaks (Table 1). Infections were prominent in backyard chicken flocks in the southern part of the Northern Region and in free-grazing ducks in the area adjacent to the Central Region. Backyard chickens and free-grazing ducks played essential roles as H5N1 hosts (Figure 4); 83% of confirmed flocks were backyard chickens or ducks. Because of improved surveillance during P2, disease detections increased markedly (Figure 2). The difficulty of clinically detecting HPAI in ducks (27,33) and free-ranging backyard chickens and ducks also made controlling the disease difficult. [FIGURE 4 OMITTED] The 2004 cumulative incidence and RR also show a higher number of detections in the Central, Northern, and Eastern Regions relative to other parts of Thailand (Table 1). This finding reflects that the high density of poultry, the local geography (e.g., wetlands, water reservoirs, and rice paddies), and farming practice in these regions might be risk factors for outbreaks. Other studies showed a strong association between free-grazing duck populations and the practice of free-grazing farming with spread of the virus in the Central Region (M. Gilbert et al., pers. comm.). In our exploratory analysis, the RR for HPAI infection in Thai poultry production could not be clearly elucidated. The RR for HPAI infection was high in broilers, layers, quails, geese, and ducks compared to backyard chickens (Table 1). The number of detections in these types of poultry increased substantially in backyard chickens and ducks when national surveillance was implemented in January and October 2004. This observation suggests that when larger-scale farmers observed suspected cases in layer and broiler farms, they immediately reported them to local authorities, encouraged by the compensation that they received. In contrast, small farmers most likely did not report their few dead poultry. Consequently, the number of outbreaks in small farmers may have been underestimated. Additionally, size of flock may be a confounding confounding when the effects of two, or more, processes on results cannot be separated, the results are said to be confounded, a cause of bias in disease studies. confounding factor factor in the higher risk for infection in broiler, layer, and quail flocks (34,35). Course of the Epidemic The epidemic curve during P1 shows a steep rise in the first week; detections decreased sharply after control measures were taken (Figure 2A). In the early epidemic, samples of culled flocks were not tested during massive culling. Undoubtedly, the quantity of infected flocks was underestimated, thus obscuring the effectiveness of control measures to stem the outbreaks. High numbers of HPAI detections coincided with low temperatures in Thailand from October to February, when wild birds from central and northern Asia migrate into Thailand (7). Therefore, seasonal conditions and bird migration might have contributed to the introduction of HPAI virus. Furthermore, the lower temperature supports survival of the virus in the environment and facilitates transmission (33). In addition, several festivals, which are associated with raising, selling, and transporting poultry, occurred around the end of the year. Illegal transportation and cockfighting may have worsened the HPAI situation. Effectiveness of Control Measures Because of differences and changes to control measures and surveillance programs during P1 and P2, HPAI outbreak data are difficult to compare. The start of the outbreak was an emergency period, during which epidemiologic data could not be effectively or completely collected. However, our results indicate that although several measures were implemented in 2004, the epidemic could not be controlled. HPAI outbreaks can be controlled rapidly with highly restrictive measures by totally depopulating all poultry in the entire areas in some countries (6,32,36). However, given that HPAI was widespread in all parts of Thailand, total depopulation DEPOPULATION. In its most proper signification, is the destruction of the people of a country or place. This word is, however, taken rather in a passive than an active one; we say depopulation, to designate a diminution of inhabitants, arising either from violent causes, or the want of was not a practical option. But a combination of depopulation with improved early detection and response practiced during P2, combined with the culling rigor rigor /rig·or/ (rig´er) [L.] chill; rigidity. rigor mor´tis the stiffening of a dead body accompanying depletion of adenosine triphosphate in the muscle fibers. practiced during P1, may be a realistic option. The Thai epidemic shows that the virus continues to circulate in the country. The immediate challenge is, therefore, to control avian influenza in free-ranging animals in rural areas, particularly in backyard chickens and free-grazing ducks. However, control of outbreaks in these types of poultry is difficult because of traditional farming practices. Control could be achieved by improving biosecurity of poultry farms and changing farming practices (6,36,37). Meanwhile, educating farmers and staff on early detection and the basic concepts of biosecurity may be the most critical way to eliminate avian influenza virus (32). Since January 2004, a stamping-out policy has been used to control avian influenza outbreaks in Thailand; vaccination has been not allowed. According to the Office International des Epizooties Terrestrial Code 2005, 2 broad vaccination strategies exist, inactivated inactivated rendered inactive; the activity is destroyed. inactivated viruses treated so that they are no longer able to produce evidence of growth or damaging effect on tissue. whole avian influenza viruses and hemagglutinin expression--based vaccines. Thus, vaccination may be worthwhile to consider as an additional control measure (36). Vaccination significantly reduces excretion excretion, process of eliminating from an organism waste products of metabolism and other materials that are of no use. It is an essential process in all forms of life. In one-celled organisms wastes are discharged through the surface of the cell. of viruses (38,39), which may reduce viral load viral load n. The concentration of a virus, such as HIV, in the blood. viral load, n a measure of the number of virus particles present in the bloodstream, expressed as copies per milliliter. in the environment and decrease the risk for human exposure. However, HPAI infection could become endemic if vaccination is not managed appropriately (40). Early detection of all cases was essential to rapidly implement control measures. Meanwhile, comprehensive veterinary surveillance and long-term control measures are required (11). The success of HPAI elimination, therefore, depends on a collaboration of all stakeholders Stakeholders All parties that have an interest, financial or otherwise, in a firm-stockholders, creditors, bondholders, employees, customers, management, the community, and the government. , including farmers, industries, veterinarians Veterinarians and veterinary surgeons (vets) are medical professionals who operate exclusively on animals. Well-known and notable veterinarians include:
Acknowledgments This article could not have been written without the meticulous and hard work of the staff of the Thai Department of Livestock Development, Ministry of Agriculture and Cooperatives. The authors appreciate everyone who helped control the HPAI epidemic in Thailand. We also thank Louis Gooren, Dirk Pfeiffer, Wantanee Kalpravidh, Laurence Gleeson, Orapan Pasavorakul, and Vishnu Songkitti for providing technical comments. References (1.) Capua I, Alexander DJ. Avian influenza: recent developments. Avian avian /avi·an/ (a´ve-an) of or pertaining to birds. a·vi·an adj. Of, relating to, or characteristic of birds. Pathol. 2004;33:393-404. (2.) Office International des Epizooties. Manual of diagnostic tests and vaccines for terrestrial animals Terrestrial animals are animals that live predominantly or entirely on land, as compared with aquatic animals, which live predominantly or entirely in the water (e.g., fish, lobsters, octopuses), or amphibians, which rely on a combination of aquatic and terrestrial habitats (e.g. (mammals The class Mammalia (the Mammals) is divided into two subclasses based on reproductive techniques: egg laying mammals (the Monotremes); and mammals which give live birth. The latter subclass is divided into two infraclasses: pouched mammals (the marsupials); and the placental mammals. , birds and bees). Paris: The Office; 2004. p. 258-69. (3.) Alexander DJ, Brown IH. Recent zoonoses Zoonoses Infections of humans caused by the transmission of disease agents that naturally live in animals. People become infected when they unwittingly intrude into the life cycle of the disease agent and become unnatural hosts. caused by influenza A influenza A n. Influenza caused by infection with a strain of influenza virus type A. influenza A Infectious disease An avian virus, especially of ducks–which in China live near the pig reservoir and 'vector'; viruses. Rev Sci Tech. 2000; 19:197-225. (4.) Koopmans M, Wilbrink B, Conyn M, Natrop G, van der Nat H, Vennema H, et al. Transmission of H7N7 avian influenza A virus to human beings during a large outbreak in commercial poultry farms in the Netherlands. Lancet. 2004;363:587-93. (5.) Capua I, Alexander DJ. Human health implications of avian influenza viruses and paramyxoviruses. Eur J Clin Microbiol Infect infect /in·fect/ (in-fekt´) 1. to invade and produce infection in. 2. to transmit a pathogen or disease to. in·fect v. 1. Dis. 2004;23:1-6. (6.) Sims LD, Ellis TM, Liu KK, Dyrting K, Wong H, Peiris M, et al. Avian influenza in Hong Kong 1997-2002. Avian Dis. 2003;47:832-8. (7.) Ellis TM, Bousfleld RB, Bissett LA, Dyrting KC, Luk GS, Tsim ST, et al. Investigation of outbreaks of highly pathogenic H5N1 avian influenza in waterfowl waterfowl, common term for members of the order Anseriformes, wild, aquatic, typically freshwater birds including ducks, geese, and screamers. In Great Britain the term is also used to designate species kept for ornamental purposes on private lakes or ponds, while in and wild birds in Hong Kong in late 2002. Avian Pathol. 2004;33:492-505. (8.) Tumpey TM, Suarez DL, Perkins LE, Senne DA, Lee JG, Lee Y J, et al. Characterization of a highly pathogenic H5N1 avian influenza A virus isolated from duck meat. J Virol. 2002;76:6344-55. (9.) Liu M, He S, Walker D, Zhou N, Perez DR, Mo B, et al. The influenza virus influenza virus n. Any of three viruses of the genus Influenzavirus designated type A, type B, and type C, that cause influenza and influenzalike infections. gene pool in a poultry market in south central China. Virology virology, study of viruses and their role in disease. Many viruses, such as animal RNA viruses and viruses that infect bacteria, or bacteriophages, have become useful laboratory tools in genetic studies and in work on the cellular metabolic control of gene expression . 2003;305:267-75. (10.) Chen H, Deng G, Li Z, Tian Tian or T'ien (Chinese; “Heaven”) In indigenous Chinese religion, the supreme power reigning over humans and lesser gods. The term refers to a deity, to impersonal nature, or to both. G, Li Y, Jiao jiao also chiao n. pl. jiao also chiao See Table at currency. [Chinese ji P, et al. The evolution of H5N1 influenza viruses in ducks in southern China. Proc Natl Acad Sci U SA. 2004;101:10452-7. (11.) Li KS, Guan guan: see curassow. Y, Wang J, Smith GJ, Xu KM, Duan L, et al. Genesis of a highly pathogenic and potentially pandemic pandemic /pan·dem·ic/ (pan-dem´ik) 1. a widespread epidemic of a disease. 2. widely epidemic. pan·dem·ic adj. Epidemic over a wide geographic area. n. H5N1 influenza virus in eastern Asia. Nature. 2004;430:209-13. (12.) Chaisingh A, Nuansrichay B, Kalpravidh W, Pasavorakul O, Teekayuwat T, Tiensin T, et al. Laboratory surveillance on avian influenza in Thailand during 1997-2002. In: Abstracts of the 11th International Symposium of the World Association of Veterinary Laboratory Diagnosticians and the Office International des Epizooties Seminar on Biotechnology. Bangkok; 2003 Nov 9-13. (13.) Office International des Epizooties. Update on avian influenza in animals in Asia. [cited 2005 Mar 12]. Available from http://www. oie.int/downld/AVIAN%20INFLUENZA/A_AI-Asia.htm (14.) Food and Agriculture Organization. FAO FAO, n See Food and Agriculture Organization. recommendations on the prevention, control and eradication of highly pathogenic avian influenza (HPAI) in Asia [monograph mon·o·graph n. A scholarly piece of writing of essay or book length on a specific, often limited subject. tr.v. mon·o·graphed, mon·o·graph·ing, mon·o·graphs To write a monograph on. on the Internet]. 2004 Sep [cited 2005 Feb 25]. Available from http://www.fao.org/ag/againfo/s ubjects/en/health/diseases-cards/27septrecomm.pdf (15.) World Health Organization. Confirmed human cases of avian influenza A (H5N1). Communicable disease communicable disease n. A disease that is transmitted through direct contact with an infected individual or indirectly through a vector. Also called contagious disease. surveillance and response (CSR (1) (Customer Service Representative) A person who handles a customer's request regarding a bill, account changes or service or merchandise ordered. Agents in call centers are known as CSRs. See call center. ). [cited 2005 Sep 29]. Available from http://www.who.int/csr/ disease/avian_influenza/country/cases_table_2005 09 29/en/index. Html (16.) National Economic and Social Development Board. Thai economic performance in fourth quarter of 2003 and economic outlook for 2004: macroeconomic mac·ro·ec·o·nom·ics n. (used with a sing. verb) The study of the overall aspects and workings of a national economy, such as income, output, and the interrelationship among diverse economic sectors. outlook on agricultural sector [in Thai]. [cited 2005 March 2]. Available from http://www.nesdb.go.th/econSocial/ macro/Outlook_data/econ_outlook_q4_46/06.pdf (17.) Sirimongkolkasem A. Poultry industry in Thailand. In: Abstracts of the 28th Annual Conference of the Thai Veterinary Medical Association. Bangkok; 2002 Nov. (18.) Department of Livestock Development. Annual report on statistics of livestock population in Thailand. Bangkok: The Department; 2004. p. 230. (19.) Simmerman JM, Thawatsupha P, Kingnate D, Fukuda K, Chaising A, Dowell SF. Influenza in Thailand: a case study for middle income countries. Vaccine. 2004;23:182-7. (20.) Keawcharoen J, Oraveerakul K, Kuiken T, Fouchier RAM, Amonsin A, Payungporu S, et al. Avian influenza H5N1 in tigers and leopards. Emerg Infect Dis. 2004; 10:2189-91. (21.) ProMED-mail. Avian influenza--Thailand (02): not. ProMED-mail. 2004 Jan 9 [cited 2005 Aug 19]. Available from http://www.promedmail.org, archive no. 20040109.0097. (22.) Chotpitayasunondh T, Ungchusak K, Hanshaoworakul W, Chunsuthiwat S, Sawanpanyalert P, Kijphati R, et al. Human disease from influenza A (H5N1), Thailand, 2004. Emerg Infect Dis. 2005;11:201-9. (23.) Viseshakul N, Thanawongnuwech R, Amonsin A, Suradhat S, Payungpom S, Keawchareon J, et al. The genome sequence analysis of H5N1 avian influenza A virus isolated from the outbreak among poultry populations in Thailand. Virology. 2004;328:169-76. (24.) Puthavathana P, Auewarakul P, Charoenying PC, Sangsiriwut K, Pooruk P, Boonnak K, et al. Molecular characterization of the complete genome of human influenza H5N1 virus isolates from Thailand. J Gen Virol. 2005;86:423-33. (25.) World Health Organization. Communicable disease surveillance and response (CSR). Thailand. [cited 2005 Jan 28]. Available from http://www.who.int/csr/don/2004_01_23/erdindex.html (26.) Buranathai C, Chaisingh A, Nuansrichay B, Damrongwattanapokin S, Limlamthong Y, Payungpom S, et al. Molecular characteristic of H5NI avian influenza A virus in Thailand, 2004 [abstract 71]. In: Abstracts of the OIE/FAO International Conference on Avian Influenza. Paris; 2005 Apr 7-8. (27.) Songserm T, Sae-Heng N, Jam-on R, Witoonsatient K, Meemak N. Clinical, gross-histopathologic and immunohistochemical finding of grazing grazing, n See irregular feeding. grazing 1. actions of herbivorous animals eating growing pasture or cereal crop. 2. area of pasture or cereal crop to be used as standing feed. See also pasture. ducks affected with HPAI H5N 1 in Thailand [abstract 74]. In: Abstracts of the OIE/FAO International Conference on Avian Influenza. Paris; 2005 April 7-8. (28.) Thanawongnuwech R, Amonsin A, Tantilertcharoen R, Damrongwatanapokin S, Theamboonlers A, Payungporn S, et al. Probable tiger-to-tiger transmission of avian influenza H5N1. Emerg Infect Dis. 2005; 10:699-701. (29.) Department of Livestock Development. Avian influenza situation [in Thai]. [cited 2005 Feb 10]. Available from http://www.dld.go.th/ home/bird flu/recover.html (30.) National Economic and Social Development Board. Analysis of avian influenza epidemics' impacts on the Thai economy in 2004. [cited 2005 Feb 15]. Available from http://www.nesdb.go.th/econSocial/ macro/Outlook_data/econ_outlook_q4_46/03.pdf (31.) Gibbens JC, Sharpe CE, Wilesmith JW, Mansley LM, Michalopoulou E, Ryan JB, et al. Descriptive epidemiology descriptive epidemiology see descriptive epidemiology. of the 2001 foot-and-mouth disease foot-and-mouth disease, highly contagious disease almost exclusive to cattle, sheep, swine, goats, and other cloven-hoofed animals. It is caused by a virus that was identified in 1897. epidemic in Great Britain Great Britain, officially United Kingdom of Great Britain and Northern Ireland, constitutional monarchy (2005 est. pop. 60,441,000), 94,226 sq mi (244,044 sq km), on the British Isles, off W Europe. The country is often referred to simply as Britain. : the first five months. Vet Rec. 2001;149:729-43. (32.) Capua I, Marangon S. The avian influenza epidemic in Italy, 1999-2000: a review. Avian Pathol. 2000;29:289-94. (33.) Songserm T, Jam-on R, Sae-Heng N, Meemak N. Survival and stability of HPAI H5N1 in different environments and susceptibility to disinfectants [abstract 73]. In: Abstracts of the OIE/FAO International Conference on Avian Influenza. Paris; 2005 Apr 7-8. (34.) Dohoo I, Martin W, Stryhn H. Confounder con·found tr.v. con·found·ed, con·found·ing, con·founds 1. To cause to become confused or perplexed. See Synonyms at puzzle. 2. bias: analytic control and matching. Veterinary epidemiologic research. Prince Edward Island Prince Edward Island, province (2001 pop. 135,294), 2,184 sq mi (5,657 sq km), E Canada, off N.B. and N.S. Geography One of the Maritime Provinces, Prince Edward Island lies in the Gulf of St. : AVC (1) (Advanced Video Coding) The video compression techniques used in the H.264 standard, jointly developed by ISO and the ITU-T. See H.264. (2) (Audio Visual C Inc.; 2003. p. 235-71. (35.) Rothman KJ, Greenland S Greenland, Green. Kalaallit Nunaat, Dan. Grønland, the largest island in the world (2005 est. pop. 56,000), 836,109 sq mi (2,166,086 sq km), self-governing overseas administrative division of Denmark, lying largely within the Arctic Circle. . Measures of effect and measures of association. In: Rothman KJ, Greenland S, editors. Modern epidemiology. 2nd ed. Philadelphia: Lippincott-Raven; 1998. p. 47-64. (36.) Stegeman A, Bouma A, Elbers AR, de Jong De Jong is the most common Dutch surname. Many people bear this name, including many important historical figures. Some of these people are mentioned below. De Jong may mean:
South African president (1989-1994) who shared the 1993 Nobel Peace Prize for his efforts toward ending apartheid in South Africa. F, et al. Avian influenza A virus (H7N7) epidemic in the Netherlands in 2003: course of the epidemic and effectiveness of control measures. J Infect Dis. 2004;190:2088-95. (37.) Capua I, Mutinelli F, Pozza MD, Donatelli I, Puzelli S, Cancellotti FM. The 1999-2000 avian influenza (H7N1) epidemic in Italy: veterinary and human health implications. Acta Trop. 2002;83:7-11. (38.) Swayne DE, Beck JR, Perdue Perdue may refer to:
(39.) Swayne DE, Perdue ML, Beck JR, Garcia M, Suarez DL. Vaccines protect chickens against H5 highly pathogenic avian influenza in the face of genetic changes in field viruses over multiple years. Vet Microbiol. 2000;74:165-72. (40.) Capua I, Marangon S. Vaccination for avian influenza in Asia. Vaccine. 2004;22:4137-8. Thanawat Tiensin, * ([dagger]) Prasit Chaitaweesub, * Thaweesak Songserm, ([double dagger double dagger n. A reference mark (  ) used in printing and writing. Also called diesis.Noun 1. ]) Arunee Chaisingh, ([section]) Wirongrong Hoonsuwan, * Chantanee Buranathai, * Tippawon Parakamawongsa, * Sith Premashthira, * Alongkorn Amonsin, ([paragraph]) Marius Gilbert, (#) Mirjam Nielen, ([dagger]) and Arian Stegeman ([dagger]) * Department of Livestock Development, Bangkok, Thailand; ([dagger]) Utrecht University The university's motto is "Sol Iustitiae Illustra Nos", which means "Sun of Justice, shine upon us". Utrecht University is led by the University Board, consisting of Yvonne van Rooy (president), prof.dr. Willem Hendrik Gispen (rector magnificus) and Hans Amman. , Utrecht, the Netherlands; ([double dagger]) Kasetsart University Kasetsart University (Thai: มหาวิทยาลัยเกษตรศาสตร์) the first agricultural university in Thailand, was established on February 2, 1943 with the prime , Nakhon Pathom Nakhon Pathom (nä`kôn pätŭm`), city (1990 pop. 44,999), capital of Nakhon Pathom prov., SW Thailand, on the Mekong River. It is a transportation and commercial center on the Bangkok-Singapore RR. , Thailand; ([section]) National Institute of Animal Health, Bangkok, Thailand; ([paragraph]) Chulalongkorn University Chulalongkorn University is the oldest university in Thailand [1] and has long been considered one of the country's most prestigious universities. It now has eighteen faculties and a number of schools and institutes. , Bangkok, Thailand; and (#) Free University of Brussels The Free University of Brussels may refer to one of two Belgian universities, both located in Brussels, Belgium:
Dr Tiensin is a veterinarian veterinarian /vet·er·i·nar·i·an/ (vet?er-i-nar´e-an) a person trained and authorized to practice veterinary medicine and surgery; a doctor of veterinary medicine. vet·er·i·nar·i·an n. at the Thai Department of Livestock Development, Ministry of Agriculture and Cooperatives, and he is doing doctoral research at Utrecht University. His major research interests are the epidemiology and control of infectious disease Infectious disease A pathological condition spread among biological species. Infectious diseases, although varied in their effects, are always associated with viruses, bacteria, fungi, protozoa, multicellular parasites and aberrant proteins known as prions. . Address for correspondence: Thanawat Tiensin, Department of Livestock Development, 69/1 Phaya Thai Phaya Thai (Thai: พญาไท) is a district in central Bangkok, Thailand. It is also name of a major road, as well as a BTS Skytrain station, both of which are in the nearby Ratchathewi district. Rd, Ratchathewee, Bangkok, Thailand; fax: 66-2-653-4921; email: ttiensin@gmail.com
Table 1. Poultry population categorized by geographic region in
Thailand in 2003
Poultry population North Central
Backyard chickens
Birds 18,067,529 9,312,042
Flocks 543,793 143,829
Infected flocks 491 296
Incidence, % 0.0903 0.2058
Layers
Birds 2,288,485 7,682,667
Flocks 4,209 6,396
Infected flocks 29 42
Incidence, % 0.6890 0.6567
Broilers
Birds 12,442,797 70,414,281
Flocks 4,588 6,242
Infected flocks 44 54
Incidence, % 0.9590 0.8651
Ducks
Birds 2,567,666 8,026,701
Flocks 58,606 33,607
Infected flocks 85 355
Incidence, % 0.1450 1.0563
Quails
Birds 199,357 2,920,216
Flocks 147 324
Infected flocks 12 26
Incidence, % 8.1633 8.0247
Geese
Birds 8,098 154,723
Flocks 1,650 1,870
Infected flocks 4 8
Incidence, % 0.2424 0.4278
Other
Infected flocks 10 14
Total
Birds 35,573,932 98,510,630
Flocks ([dagger]) 612,993 192,268
Infected flocks ([double dagger]) 665 781
Incidence, % 0.1085 0.4062
RR (95% CI) 1.0 3.7 (3.4-4.1)
Poultry population East South
Backyard chickens
Birds 3,880,535 6,280,375
Flocks 81,804 241,886
Infected flocks 107 31
Incidence, % 0.1308 0.0128
Layers
Birds 8,304,081 2,113,035
Flocks 3,941 7,666
Infected flocks 14 1
Incidence, % 0.3552 0.0130
Broilers
Birds 53,681,571 6,565,161
Flocks 6,507 6,166
Infected flocks 8 3
Incidence, % 0.1229 0.0487
Ducks
Birds 6,110,934 1,777,466
Flocks 17,917 95,216
Infected flocks 29 9
Incidence, % 0.1619 0.0095
Quails
Birds 189,342 302,291
Flocks 114 1,797
Infected flocks -- 1
Incidence, % 0 0.0556
Geese
Birds 101,465 9,980
Flocks 923 2,596
Infected flocks 3 --
Incidence, % 0.3250 0
Other
Infected flocks 6 --
Total
Birds 72,267,928 17,048,308
Flocks ([dagger]) 111,206 355,327
Infected flocks ([double dagger]) 161 45
Incidence, % 0.1448 0.0127
RR (95% CI) 1.3 (1.1-1.6) 0.1 (0.01-0.15)
Poultry population Northeast Total
Backyard chickens
Birds 25,551,093 63,091,574
Flocks 1,125,352 2,136,664
Infected flocks 94 1,019
Incidence, % 0.0084 0.0477
Layers
Birds 3,924,255 24,312,523
Flocks 14,264 36,476
Infected flocks 6 92
Incidence, % 0.0421 0.2522
Broilers
Birds 22,210,976 165,314,786
Flocks 22,274 45,777
Infected flocks 2 111
Incidence, % 0.0090 0.2425
Ducks
Birds 5,317,325 23,800,092
Flocks 478,483 683,829
Infected flocks 13 491
Incidence, % 0.0027 0.0718
Quails
Birds 81,597 3,692,803
Flocks 211 2,593
Infected flocks 1 40
Incidence, % 0.4739 1.5426
Geese
Birds 34,401 308,667
Flocks 7,646 14,685
Infected flocks 1 16
Incidence, % 0.0131 0.1090
Other
Infected flocks 10 40
Total
Birds 57,119,647 280,520,445
Flocks ([dagger]) 1,648,230 2,920,024
Infected flocks ([double dagger]) 117 1,769
Incidence, % 0.0071 0.0606
RR (95% CI) 0.05 (0.06-0.08)
Poultry population RR (95% CI) *
Backyard chickens
Birds
Flocks
Infected flocks
Incidence, % 1.0
Layers
Birds
Flocks
Infected flocks
Incidence, % 5.3 (4.4-6.4)
Broilers
Birds
Flocks
Infected flocks
Incidence, % 5.1 (4.3-6.1)
Ducks
Birds
Flocks
Infected flocks
Incidence, % 1.5 (1.3-1.7)
Quails
Birds
Flocks
Infected flocks
Incidence, % 32.4 (26.5-39.5)
Geese
Birds
Flocks
Infected flocks
Incidence, % 2.3 (1.4-3.7)
Other
Infected flocks
Total
Birds
Flocks ([dagger])
Infected flocks ([double dagger])
Incidence, %
RR (95% CI)
* Relationship between cumulative incidence and relative risk (RR)
of influenza H5N1 epidemic. Cumulative incidence of infected flocks of
backyard chickens and the Central Region were assigned an RR of 1.0.
([dagger]) Included only the number of flocks of backyard chickens,
layers, broilers, ducks, quails, and geese. Some flocks are mixed
types of poultry on site.
([double dagger]) Included only the number of infected flocks of
backyard chickens, layers, broilers, ducks, quails, and geese.
Table 2. Poultry production system in Thailand *
Poultry production Biosecurity Market orientation
Sector 1 High Commercial
Sector 2 Moderate to high Commercial
Sector 3 Low Commercial, local,
or live-bird market
Sector 4 None Local
Poultry production Example
Sector 1 Industrial integrated system: all components of
the production chain (e.g., hatchery, feedmill,
poultry farm, slaughterhouse, processing plant,
transportation) owned by company with strictly
implemented procedures for biosecurity
Sector 2 Semivertical integrated system (or contract
farming system): poultry houses owned by the
farmer but chicks, feed, and veterinary service
supplied by private company. Birds kept indoors
with basic physical barriers and hygiene to
prevent contact with other animals
Sector 3 Layer farm with caged birds in open sheds or free-
roaming birds that spend time outside the shed
Sector 4 Village or backyard poultry: birds freely roam the
village around people and other animals, including
cockfighting
Source: Food and Agriculture Organization (14).
Table 3. Number of detections of highly pathogenic avian influenza
H5N1 outbreaks in each administrative division during epidemic in
Thailand, 2004 (n = 1,685 flocks, record with missinq data excluded)
No. No.
detections detections Total
Administrative division (Jan-May) (Jul-Dec) (Jan-Dec) *
Province (N = 76) 42 51 60
District (N = 926) 89 264 305
Subdistrict (N = 7,409) 146 781 903
Village (N = 71,864) 188 1,243 1,417
* Some HPAI outbreaks during P2 (Jul-Dec) occurred repeatedly in the
same administrative division as during P1 (Jan-May).
|
|
||||||||||||||||||||
Printer friendly
Cite/link
Email
Feedback
Reader Opinion