Wildlife as source of zoonotic infections.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. with a wildlife reservoir represent a major public health problem, affecting all continents. Hundreds of pathogens and many different transmission modes are involved, and many factors influence the epidemiology of the various zoonoses. The importance and recognition of wildlife as a reservoir of zoonoses are increasing. Cost-effective prevention and control of these zoonoses necessitate an interdisciplinary and holistic approach and international cooperation. Surveillance, laboratory capability, research, training and education, and communication are key elements. ********** Throughout history, wildlife has been an important source of infectious diseases transmissible transmissible /trans·mis·si·ble/ (trans-mis´i-b'l) capable of being transmitted. trans·mis·si·ble adj. Capable of being conveyed from one person to another. to humans. Today, zoonoses with a wildlife reservoir constitute a major public health problem, affecting all continents. The importance of such zoonoses is increasingly recognized, and the need for more attention in this area is being addressed. Wildlife is normally defined as free-roaming animals (mammals, birds, fish, reptiles, and amphibians amphibians members of the animal class Amphibia. Includes frogs, toads, newts, salamanders and cecilians all capable of living on land or in water. ), whereas a zoonosis Zoonosis Definition Zoonosis, also called zoonotic disease refers to diseases that can be passed from animals, whether wild or domesticated, to humans. is an infectious disease transmittable between animals and humans. The total number of zoonoses is unknown, but according to Taylor et al. (1), who in 2001 catalogued 1,415 known human pathogens, 62% were of zoonotic Zoonotic A disease which can be spread from animals to humans. Mentioned in: Zoonosis origin. With time, more and more human pathogens are found to be of animal origin. Moreover, most emerging infectious diseases in humans are zoonoses. Wild animals seem to be involved in the epidemiology of most zoonoses and serve as major reservoirs for transmission of zoonotic agents to domestic animals and humans. Zoonoses with a wildlife reservoir are typically caused by various bacteria, viruses, and parasites, whereas fungi are of negligible importance. Regarding prion diseases, chronic wasting disease Noun 1. chronic wasting disease - a wildlife disease (akin to bovine spongiform encephalitis) that affects deer and elk animal disease - a disease that typically does not affect human beings occurs among deer in North America. This prion disease is thus far not known to be zoonotic. However, hunters and consumers are advised to take precautions (2,3). Historical Aspects Zoonoses have affected human health throughout times, and wildlife has always played a role. For example, bubonic plague, a bacterial disease for which rats and fleas play a central role in transmission, has caused substantial illness and death around the world since ancient times (4). A possible epidemic of bubonic plague was described in the Old Testament, in the First Book of Samuel. The so-called Black Death emerged in the 14th century and caused vast losses throughout Asia, Africa, and Europe. The epidemic, which originated in the Far East, killed approximately one third of Europe's population. However, bubonic plague still occurs in Asia, Africa, and the Americas, and the World Health Organization annually reports 1,000-3,000 cases. In the western United States Noun 1. western United States - the region of the United States lying to the west of the Mississippi River West Santa Fe Trail - a trail that extends from Missouri to New Mexico; an important route for settlers moving west in the 19th century , acquisition of plague in humans is linked to companion animals infested in·fest tr.v. in·fest·ed, in·fest·ing, in·fests 1. To inhabit or overrun in numbers or quantities large enough to be harmful, threatening, or obnoxious: with Yersinia Yersinia A genus of bacteria in the Enterobacteriaceae family. The bacteria appear as gram-negative rods and share many physiological properties with related Escherichia coli. Of the 11 species of Yersinia, Y. pestis, Y. enterocolitica, and Y. pestis--carrying fleas in areas of endemic sylvatic sylvatic /syl·vat·ic/ (sil-vat´ik) sylvan; pertaining to, located in, or living in the woods. sylvatic found in the woods; occurring in animals of the forest. disease (5). Rabies was described in Mesopotamia, in hunting dogs, as early as 2,300 BC. Recognizable descriptions of rabies can also be traced back to early Chinese, Egyptian, Greek, and Roman records (6). In Europe in the medieval age, rabies occurred in both domestic animals and wildlife. Rabid loxes, wolves, badgers, and bears have been described in the literature as well as in figurative art. Ancient accounts and modern hypotheses suggest that Alexander the Great, who died in Babylon in 323 BC, died of encephalitis caused by West Nile virus West Nile virus, microorganism and the infection resulting from it, which typically produces no symptoms or a flulike condition. The virus is a flavivirus and is related to a number of viruses that cause encephalitis. (7), a virus that has a wild bird reservoir. Marr and Calisher reported that as Alexander entered Babylon, a flock of ravens exhibiting unusual behavior died at his feet (7). In 1999, West Nile virus was introduced into the United States, where it caused the ongoing epizootic ep·i·zo·ot·ic adj. Affecting a large number of animals at the same time within a particular region or geographic area. Used of a disease. ep in birds with a spillover spill·o·ver n. 1. The act or an instance of spilling over. 2. An amount or quantity spilled over. 3. A side effect arising from or as if from an unpredicted source: of infections to humans and equines. Transmission Modes Zoonoses with a wildlife reservoir represent a large spectrum of transmission modes. Several zoonotic agents can be directly transmitted from wildlife to humans, e.g., Francisella tularensis, the causative agent of tularemia tularemia (t  lərē`mēə) or rabbit fever, acute, infectious disease caused by Francisella tularensis (Pasteurella tularensis). , can be transmitted by skin contact with an infested, diseased, or dead hare or rodent. By contrast, rabies virus is transmitted by bite (saliva) from a rabid animal. Hantaviruses are spread from rodents to humans by aerosols in dust from rodent excreta excreta /ex·cre·ta/ (eks-kret´ah) excretion (2). ex·cre·ta pl.n. Waste matter, such as sweat or feces, discharged from the body. . Zoonotic agents can also be spread from wildlife to humans indirectly by contaminated food and water, for example Salmonella spp. and Leptospira spp. Many zoonoses with a wildlife origin are spread through insect vectors. For example, mosquitoes are well-known vectors of several wildlife zoonoses, such as Rift Valley fever Rift Valley fever An arthropod-borne (primarily mosquito), acute, febrile, viral disease of humans and numerous species of animals. Rift Valley fever is caused by a ribonucleic acid (RNA) virus in the genus Phlebovirus of the family Bunyaviridae. , equine encephalitis, and Japanese encephalitis. Y pestis can be spread by fleas, Bacillus anthrasis spores by flies, and Leishmania Leishmania /Leish·ma·nia/ (lesh-ma´ne-ah) a genus of parasitic protozoa, including several species pathogenic for humans. In some classifications, organisms are placed in four complexes comprising species and subspecies: L. by sand-flies, whereas ticks are essential in the spread of Borrelia burgdorferi and Ehrlichia/Anaplasma. A good example of a zoonotic agent with many different transmission modes is F. tularensis. Rodents and hares constitute the main sources of infections, and hunters are at particular risk of acquiring the disease. The transmission mode also affects the clinical manifestation in humans. The agent can be transmitted by direct contact through the handling of an infected carcass and through tick or mosquito bites, which cause initial skin symptoms such as ulcers. Infection may also occur after eating insufficiently cooked meat from an infected animal or contaminated drinking water, causing symptoms from the digestive tract, and by inhalation of contaminated dust, causing a pneumonia-like illness. Salmonella spp. can also be spread from wildlife to humans in different ways. Reptile-associated salmonellosis salmonellosis (săl'mənĕlō`sĭs), any of a group of infectious diseases caused by intestinal bacteria of the genus Salmonella, is a well-described phenomenon, especially among children. The increasing popularity of keeping reptiles and other exotic animals as pets presents a public health problem, as such animals are commonly carriers of Salmonelh7 and thereby can infect humans directly or indirectly. In Norway, special types of Salmonella enterica subsp, enterica serovar Typhimurium (S. Typhimurium) occur endemically in hedgehogs and wild passerine passerine Any perching bird. All passerines belong to the largest order of birds, Passeriformes, and have feet specialized for holding onto a horizontal branch (perching). The passerine foot has three forward-directed toes and one backward-directed toe. birds, causing sporadic cases and small outbreaks in humans. In 1987, a nationwide outbreak of S. Typhimurium infections was traced to chocolate bars that had been contaminated by wild birds in the factory. In 1999, a waterborne outbreak of S. Typhimurium infections was linked to a dead seagull that had contaminated a reservoir water source from which the water was used untreated (8-10). B. anthracis, the etiologic agent of anthrax, primarily a disease of herbivores, can also be transmitted from wildlife to humans by various modes. The spores formed by the bacteria are very resistant and have been found to remain dormant and viable in nature for > 100 years (11). Anthrax is spread by food and water contamination or by the spread of spores by flies, vultures, and other scavengers. Humans can be infected by eating meat from infected carcasses or drinking contaminated water, through the skin by contact with infected material or by insect bites, and through the lungs by inhaling spores. Although livestock anthrax is declining in many parts of the world, the disease remains enzootic en·zo·ot·ic adj. Prevalent among or restricted to animals of a specific geographic area. Used of a disease. n. An enzootic disease. enzootic peculiar to or present constantly in a location. See also endemic. in many national parks, for example, in southern Africa and North America. Anthrax in wildlife represents a persistent risk for surrounding livestock and public health (12). Factors Influencing the Epidemiology of Zoonoses with a Wildlife Reservoir The ecologic changes influencing the epidemiology of zoonoses with a wildlife reservoir can be of natural or anthropogenic an·thro·po·gen·ic adj. 1. Of or relating to anthropogenesis. 2. Caused by humans: anthropogenic degradation of the environment. origin. These include, but are not limited to, human population expansion and encroachment, reforestation Reforestation The reestablishment of forest cover either naturally or artificially. Given enough time, natural regeneration will usually occur in areas where temperatures and rainfall are adequate and when grazing and wildfires are not too frequent. and other habitat changes, pollution, and climatic changes. The spirochete spirochete Any of an order (Spirochaetales) of spiral-shaped bacteria. Some are serious pathogens for humans, causing such diseases as syphilis, yaws, and relapsing fever. Spirochetes are gram-negative (see gram stain) and motile. Borvelia burgdorferi, which causes Lyme borreliosis, has its main reservoir among small rodents and deer and uses various Ixodes species as vectors (13). Lyme borreliosis was first recognized in Lyme, Connecticut, in 1975, and since then, an increasing number of cases have been reported in North America, Europe, and Asia. The increasing incidence of Lyme borreliosis in the northeastern United States in recent years can be explained by reforestation that has favored transmission of the disease through increased populations of white-tailed deer and deer mice and abundance of the tick vector, Ixodes scapularis. Wild rodents also constitute a reservoir of hantaviruses (14). The viruses are shed in urine, droppings, and saliva, and humans are mainly infected aerogenically by inhaling aerosols containing the virus. Precipitation, habitat structure, and food availability are critical environmental factors that affect rodent population dynamics as well as viral transmission between animals and subsequently the incidence of human infection. The deer mouse is a reservoir host for Sin Nombre hantavirus hantavirus, any of a genus (Hantavirus) of single-stranded RNA viruses that are carried by rodents and transmitted to humans when they inhale vapors from contaminated rodent urine, saliva, or feces. There are many strains of hantavirus. , which causes hantavirus pulmonary syndrome hantavirus pulmonary syndrome An often fatal RTI caused by a hantavirus; the first cluster occurred in the Four Corners region of Southwestern US Epidemiology Mean age 32, 61% ♀, 72% Native American Case definition Unexplained bilateral interstitial in the southwestern United States. Because of climatic changes with increased rainfall in recent years, host abundance, and thereby spread of the pathogen, has increased, with subsequent transmission to humans. The movement of pathogens, vectors, and animal hosts is another factor influencing the epidemiology of zoonoses with a wildlife reservoir. Such movement can, for example, occur through human travel and trade, by natural movement of wild animals including migratory birds, and by anthropogenic movement of animals Movement of Animals (or On the Motion of Animals or De Motu Animalium) is a text by Aristotle on the general principles of motion in animals. External links
1. to subject to or to undergo incubation. 2. material that has undergone incubation. in·cu·bate v. 1. . The appearance of West Nile virus infection in New York in 1999, and the subsequent spread within the United States, is an example of introduction and establishment of a pathogen that apparently originated in the Middle East (15). Movement of infected wild and domestic animals is an important factor in the appearance of rabies in new locations. Rabies virus, which is widely distributed and affects various animals, especially canids, was introduced into North America by infected dogs in the early 18th century, with subsequent spillover to a variety of wild terrestrial mammals. Rabies became established in raccoons in the mid-Atlantic states in the late 1970s when raccoons were translocated from the southeastern United States, where rabies was endemic in this species (16). Finland experienced an outbreak of rabies linked to raccoon dogs in 1988. The raccoon dog had spread to Finland after this species was released in western Russia for fur trade. Rabies most probably arrived in Finland by wolves migrating from Russia during wintertime along the ice-packed coast (17). In the Arctic, the ice links the continents together. The movement of the arctic fox from the archipelago of Spitzbergen to Novaja Zemlja in Siberia and from Canada to Greenland has been described, indicating another way that rabies can be spread to new areas (18,19). Bovine tuberculosis caused by Mycobacterium bovis is another zoonosis in which both natural and anthropogenic movement of animals has influenced the epidemiology. This zoonosis is emerging in wildlife in many parts of the world, and wildlife can represent a source of infection for domestic animals and humans. Bovine tuberculosis was probably introduced into Africa with imported cattle during the colonial era and thereafter spread to and became endemic in wildlife (20). In Ireland and Great Britain, badgers maintain the infection, whereas the brushtail possum possum or phalanger Any of several species (family Phalangeridae) of nocturnal, arboreal marsupials of Australia and New Guinea. They are 22–50 in. (55–125 cm) long, including the long prehensile tail, and have woolly fur. constitutes a main wildlife reservoir in New Zealand. In parts of Michigan, bovine tuberculosis is endemic among white-tailed deer, whereas in Europe, both wild boars and various deer species can be a reservoir of the pathogen. The natural movement of these reservoir animals increases the spread of the disease to domestic animals and thereby its public health impact (21). The epidemiology of multilocular multilocular /mul·ti·loc·u·lar/ (-lok´u-ler) having many cells or compartments. mul·ti·loc·u·lar adj. Having or consisting of many small compartments or cavities. echinococcosis Echinococcosis Definition Echinococcosis (Hydatid disease) refers to human infection by the immature (larval) form of tapeworm, Echinococcus. One of three forms of the Echinococcus spp., E. , caused by the small tapeworm tapeworm, name for the parasitic flatworms forming the class Cestoda. All tapeworms spend the adult phase of their lives as parasites in the gut of a vertebrate animal (called the primary host). Echinococcus multilocularis, has also been influenced by the translocation translocation /trans·lo·ca·tion/ (trans?lo-ka´shun) the attachment of a fragment of one chromosome to a nonhomologous chromosome. Abbreviated t. of animals. The main hosts are canids, especially foxes; the intermediate hosts are small rodents. Humans can become accidental intermediate hosts, by ingesting eggs. Multilocular echinococcosis occurs in large parts of the Northern Hemisphere. In 1999, E. multilocularis was detected for the first time in Norway In Norway the standard time is the Central European Time (UTC+1). Norway observes summertime (sommertid). The tz zone is "Europe/Oslo". External links
During the summer of 2003, an outbreak of monkeypox occurred in the United States with 37 confirmed human cases (24). Monkeypox is a rare zoonosis caused by a poxvirus poxvirus Any of a group of viruses responsible for a wide range of pox diseases in humans and other animals. Poxvirus was the cause of smallpox. (Human chickenpox is caused by varicella-zoster virus. that typically occurs in Africa. It was first found in monkeys in 1958 and later on in other animals, especially rodents. The African squirrel is probably the natural host. Transmission to humans occurs by contact with infected animals or body fluids. The cases in the United States, the first outside Africa, were associated with contact with infected prairie dogs. The outbreak was epidemiologically linked to imported African rodents from Ghana. Most likely, infected imported rodents have transmitted the virus to prairie dogs in United States. This transmission illustrates how non-native animal species can create serious public health problems when they introduce a disease to native animal and human populations. Thus, the transportation, sale, or distribution of animals, or the release of animals into the environment, can represent a risk for spread of zoonoses. Microbial microbial pertaining to or emanating from a microbe. microbial digestion the breakdown of organic material, especially feedstuffs, by microbial organisms. changes or adaptation also influence the epidemiology of zoonoses with a wildlife reservoir. These changes include mutations, such as genetic drift in viruses; activation and silencing of genes; genetic recombinations, such as genetic shift in viruses; and conjugation conjugation, in genetics conjugation, in genetics: see recombination. conjugation, in grammar conjugation: see inflection. , transformation, and transduction in bacteria. Natural selection and evolution also play a role. Transmission of adaptive or genetically changed microorganisms from wildlife to humans, either directly or indirectly through domestic animals, may occur in many ways. In this respect an international wildlife trade, often illegal, in which wild animals end up in live-animal markets, restaurants, and farms, is important because such practices increase the proximity between wildlife, domestic animals, and humans (25). Severe acute respiratory syndrome Severe Acute Respiratory Syndrome (SARS) Definition Severe acute respiratory syndrome (SARS) is the first emergent and highly transmissible viral disease to appear during the twenty-first century. (SARS) is a current example of likely microbial adaptation. This viral respiratory illness, caused by SARS-associated coronavirus coronavirus /co·ro·na·vi·rus/ (ko-ro´nah-vi?rus) any virus belonging to the family Coronaviridae. Coronavirus /Co·ro·na·vi·rus/ (ko-ro´nah-vi?rus , is believed to have emerged in Guangdong, China, in November 2002. SARS was first reported in Asia in February 2003, and over the next few months, the illness spread to a global epidemic before it was contained. According to the World Health Organization, 8,098 cases, including 774 fatalities, have occurred. The virus has an unknown reservoir, but wildlife is a likely source of infection. Natural infection has been demonstrated in palm civet civet (sĭv`ət) or civet cat, any of a large group of mostly nocturnal mammals of the Old World family Viverridae (civet family), which also includes the mongoose. cats in markets and also in raccoon dogs, rats, and other animals indigenous to the area where SARS likely originated (26). Genetic changes typically influence the epidemiology of influenza A. Natural infections with influenza A viruses have been reported in a variety of animal species, including birds, humans, pigs, horses, and sea mammals, and its main reservoir seems to be wild waterfowl, especially ducks. Influenza A virus has two main surface antigens: 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. with 15 subtypes 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. with 9 subtypes. All these subtypes, in most combinations, have been isolated from birds, whereas few combinations have been found in mammals. In the 20th century, the sudden emergence of autigenically different strains transmissible in humans, termed antigenic shift, has occurred on four occasions, each time resulting in a pandemic. "New" pandemic strains most certainly emerged alter reassortment of genes of viruses of avian and human origin in a permissive host (27). The HSN HSN Home Shopping Network HSN High Speed Network HSN Hereditary Sensory Neuropathy HSN Highly Saturated Nitrile HSN Healthy Schools Network, Inc. HSN Hopping Sequence Number HSN Historical Sample of the Netherlands HSN Haiti Support Network 1 strain of a highly pathogenic avian influenza that caused a severe outbreak in poultry in Southeast Asia in 2004 (28) demonstrated its capacity to infect humans; 39 cases, 28 of them fatal, were officially reported (29). For the human population as a whole, the main danger appears to be simultaneous infection with an avian and a human influenza virus. Reassortment could then occur either in humans or in pigs with the potential emergence of a virus fully capable of spread among humans but with antigenic characteristics for which the human population was immunologically naive. Enhanced recognition can also result in an apparent change in the epidemiology of a zoonosis, for example, the recognition of an agent that has been present for a long time but was previously undetected because of lack of diagnostic tools, hnproved methods for molecular characterization have helped describe a larger repertoire of zoonotic agents. Recognition and emergence of human tickborne ehrlichiosis are recent and continuing events, beginning with human monocytic ehrlichiosis human monocytic ehrlichiosis Infectious disease An infection by Ehrlichia chaffeensis Vector Lone Star tick–Amblyomma americanum, possibly also Dermacentor variabilis and human granulocytic ehrlichiosis human granulocytic ehrlichiosis: see ehrlichiosis. , reported first in the United States in 1987 and 1994, respectively. The causative agents, Ehrlichia chafensis and Anaplasma phagocytophilum, are intracellular bacteria that are maintained in zoonotic cycles involving persistently infected deer and rodents (30). From 1994 to 2004, three zoonotic parainyxoviruses with a wildlife reservoir have emerged. The Hendra, Menangle, and Nipah viruses all have a fruit bat reservoir (31). Humans are infected by close contact with infected pigs or horses. Hendra virus infection was described in Australia in 1994, where it caused acute, fatal respiratory disease in horses and humans. Menangle virus was also described in Australia, in 1996, where it caused reproductive disorders in pigs and an influenzalike disease in humans. Nipah virus was detected in 1998, in Malaysia, when it caused severe disease with respiratory and neurologic symptoms among pigs and encephalitis with a 40% death rate in humans in close contact with pigs. Since 1994, when the isolation of Brucella Brucella /Bru·cel·la/ (broo-sel´ah) a genus of schizomycetes (family Brucellaceae). B. abor´tus causes infectious abortion in cattle and is the most common cause of brucellosis in humans. B. spp. from marine mammals was reported for the first time, such infections have been detected in a wide range of marine mammal species and populations. The pathologic role of marine Brucella spp. in animals remains unclear, as does their zoonotic potential. In 2003, two human cases of community-acquired granulomatous granulomatous /gran·u·lom·a·tous/ (-lom´ah-tus) containing granulomas. Granulomatous Resembling a tumor made of granular material. central nervous system infections caused by marine Brucella spp. were reported (32). Human behavior and demographic factors can also influence the epidemiology of zoonoses with a wildlife reservoir. Hiking, camping, and hunting are activities that may represent risk factors for acquiring certain zoonoses with a wildlife reservoir, e.g., tickborne zoonoses and tularemia. Eating habits can also play a role. For example, eating meat from exotic animals such as bear increases the risk of acquiring trichinellosis (33). AIDS represents a disease in which demographic factors and human behavior have contributed to its development into a global public health problem. The origin of HIV HIV (Human Immunodeficiency Virus), either of two closely related retroviruses that invade T-helper lymphocytes and are responsible for AIDS. There are two types of HIV: HIV-1 and HIV-2. HIV-1 is responsible for the vast majority of AIDS in the United States. , the virus causing AIDS, is still a matter of controversy, but HIV likely spread to humans from nonhuman primates in West Africa (34). Prevention and Control Although prevention and control strategies for the various zoonoses associated with wildlife share many common aspects, specific strategies are also needed to address the etiology and epidemiology of the disease, characteristics of the pathogen involved, ecologic factors, and the population at risk. As wildlife is an essential component in the epidemiology of many, if not most, zoonoses, wildlife should be taken into account in the risk analysis framework. Consequently, cost-effective prevention and control of zoonoses in humans, including risk communication, necessitate an interdisciplinary and holistic approach that acknowledges the importance of wildlife as a reservoir. To increase the capability of recognizing zoonoses with a wildlife reservoir, better national surveillance systems for humans and animals are needed, as well as better international integration and sharing of information from such systems. Which diseases should be reportable also needs to be evaluated on a continuous basis. Improved reporting systems and screening programs for human infections, including the application of syndromic surveillance, are warranted to detect new and emerging zoonoses. Efficient surveillance is dependent upon a laboratory system that is capable of identifying and characterizing the pathogens in question. More research is needed to better understand the epidemiology and pathogenesis of various zoonoses, to improve diagnostic methods, and to develop cost-effective vaccines and drugs. Training and education are prerequisites to enable the personnel involved at the various stages, from field to laboratory personnel, to detect zoonoses, both new and old. Information and communication are key components in any prevention and control strategy. Public education and behavioral change are also important factors for successful intervention. Implementing restrictions on anthropogenic animal movement is another important preventive measure. For vector-borne zoonoses, vector control should be an integral part of any intervention strategy. Interdisciplinary and international collaboration is necessary tbr the rapid identification and effective management of outbreaks of zoonoses. The pivotal role of international organizations such as World Health Organization and Office International des Epizooties is becoming clearer, exemplified by the 2004 avian influenza outbreak in Southeast Asia. Containing zoonoses with a wildlife reservoir relies on efficient national, regional, and international cross-sectional networks that can improve data sharing and thereby alertness and the timely and effective response to disease outbreaks. Dr. Kruse is the head of the Norwegian Zoonoses Centre and a deputy director at the National Veterinary Institute, Norway. Her research interests include the epidemiology of zoonotic diseases and antimicrobial resistance. References (1.) Taylor LH, Latham SM, Woolhouse ME. Risk factors for human disease emergence. Philos Trans R Soc Land B Biol Sci. 2001:356:983-9. (2.) Belay ED, Maddox RA, Williams ES, Miller MW, Gambetti P, Schonberger LB. Chronic wasting disease and potential transmission to humans. Emerg Infect Dis. 2004;10:977-84. (3.) World Health Organization Consultation on Public Health and Animal Transmissable Spongiform Encephalopathies: epidemiology, risk and research requirements. WHO/CDS/CSR/APH/2000.2. Geneva Geneva, canton and city, Switzerland Geneva (jənē`və), Fr. Genève, canton (1990 pop. 373,019), 109 sq mi (282 sq km), SW Switzerland, surrounding the southwest tip of the Lake of Geneva. : The Organization; 1999. (4.) Wheelis M. Biological warfare at the 1346 Siege of Caffa. Emerg Infect Dis. 2002;8:971-5. (5.) Perry RD, Fetherston JD. Yersinia pestis-etiologic agent of plague. Clin Microbiol Rev. 1997;10:35-66. (6.) Blancou J. History of the surveillance and control of transmissible animal diseases. Paris: Office International des Epizootics; 2003. (7.) Mart JS, Calisher CH. Alexander the Great and West Nile virus encephalitis. Emerg Infect Dis. 2003;9:1599-603. (8.) Refsum T, Handeland K, Baggesen DL, Holstad G, Kapperud G. Salmonellae in avian wildlife in Norway from 1969 to 2000. Appl Environ Microbiol. 2002;68:5595-9. (9.) Handeland K, Refsum T, Johansen BS, Holstad G, Knutsen G, Solberg I, et al. Prevalence of Salmonella Typhimurium infection in Norwegian hedgehog populations associated with two human disease outbreaks. Epidemiol Infect. 2002;128:523-7. (10.) Hosfshagen M, Aavitsland P, Kruse H. Trends and sources of zoonotic agents in animals, feedingstuffs, food, and man in Norway, 2003. Report to the EU. Oslo: Norwegian Department of Agriculture; 2004. (11.) Redmond C, Pearce MJ, Manchee RJ, Berdal BR. Deadly relic of the Great War. Nature. 1998;393:747-8. (12.) Hugh-Jones ME, de Vos V. Anthrax and wildlife. Rev Sci Tech. 2002;21:359-83. (13.) Barbour AG, Fish D. The biological and social phenomenon of Lyme disease. Science. 1993;260:1610-6. (14.) Schmaljohn C, Hjelle B. Hantaviruses: a global disease problem. Emerg Infect Dis. 1997;3:95-104. (15.) Rappole JH, Derrickson SR, Hubalek Z. Migratory birds and spread of West Nile virus in the Western Hemisphere. Emerg Infect Dis. 2000;6:319-28. (16.) Smith JS, Sumner JW, Roumillat LF, Baer GM, Winkler Winkler may refer to:
(17.) Sihvonen L. Documenting freedom from rabies and minimismg the risk of rabies being re-introduced to Finland. Rabies Bulletin Europe. 2003;27(2):5-6. (18.) Prestrud P, Krogsrud J, Gjertz I. The occurrence of rabies in the Svalbard islands of Norway This is a list of islands of Norway sorted by name. For a list sorted by area, see List of islands of Norway by area. Directory: A B C D E F G H I J K L M N O P Q R S T U V W X Y Z A
(19.) Ballard WB, Follmann EH, Ritter DG, Robards MD, Cronin MA. Rabics and canine distemper in an arctic fox population in Alaska. J Wildl Dis. 2001;37:133-7. (20.) Cosivi O, Meslin FX, Daborn CJ, Grange JM. Epidemiology of Mvcobacterium bovis infection in animals and humans, with particular reference to Africa. Rcv Sci Tech. 1995; 14:733-46. (21.) de Lisle GW, Bengis RG, Schmitt SM, O'Brian DJ. Tuberculosis in free-ranging wildlife: detection, diagnosis and management. Rev Sci Tech. 2002;21:317-34. (22.) Henttonen H, Fuglei E, Gower CN, Haukisalmi V, Ims RA, Niemimaa J, et al. Echinococcus multilocularis on Svalbard: introduction of an intermediate host has enabled the local life-cycle. Parasitology Parasitology The scientific study of parasites and of parasitism. Parasitism is a subdivision of symbiosis and is defined as an intimate association between an organism (parasite) and another, larger species of organism (host) upon which the parasite is . 2001:123:547-52. (23.) Fredga K, Jaarola M, Ims RA, Steen H, Yoccoz N. The "common vole" in Svalbard identified as Microtus epiroticus by chromosome analysis. Polar Research. 1990;8:283-90. (24.) Reed KD, Melski JW, Graham MB, Regnery RL, Sotir MJ, Wegner MV, et al. The detection of monkeypox in humans in the western hemisphere. N Engl J Med. 2004:350:342-50. (25.) Bell D, Roberton S, Hunter PR. Animal origins of the SARS coronavirus: possible links with the international trade in small carnivores. Philos Trans R Soc Lond B Biol Sci. 2004:359:1107-14. (26.) Guan guan: see curassow. Y, Zheng BJ, He YQ, Liu XL, Zhuang ZX, Cheung CL, et al. Isolation and characterization of viruses related to the SARS coronavirus from animals in southern China. Science. 2003;302:276-8. (27.) Webster RG, Bean WJ, Gorman OT, Chambers TM, Kawaoka Y. Evolution and ecology of influenza A viruses. Microbiol Rev. 1992;56:152-79. (28.) Li KS, Guan Y, Wang J, Smith GJD GJD Great Japanese Dog , Xu KM, Duan L, et al. Genesis of a highly pathogenic and potentially pandemic H5N1 influenza virus in eastern Asia. Nature. 2004;430:209-13. (29.) World Health Organization [homepage on the lnternet]. Communicable disease surveillance & response. Confirmed human cases of axian influenza A(H5N1). 7 Sept [cited 13 Sept 2004]. Available from http://www.who.int/csr/disease/avian_influenza/ country/cases_table_2004_09_07/en/ (30.) Dumler JS, Walker DH. Tick-borne ehrlichioses. Lancet Infect Dis. 2001;0(1):21-8 Available from http://infectionpdf.thelancet.com/ pdfdownload?uid=laid.0.1.review_and_opinion.17182.1&x=x.pdf (31.) Brown C. Virchow revisited: emerging zoonoses. ASM (1) (Association for Systems Management) An international membership organization based in Cleveland, Ohio. Founded in 1947 and disbanded in 1996, it sponsored conferences in all phases of administrative systems and management. News. 2003;69:493-7. (32.) Sohn AH, Probert WS, Glaser CA, Gupta N, Bollen AW, Wong JD, et al. Human neurobrucellosis with intracerebral in·tra·cer·e·bral adj. Existing within the cerebrum. granuloma granuloma /gran·u·lo·ma/ (gran?u-lo´mah) pl. granulomas, granulo´mata an imprecise term for (1) any small nodular delimited aggregation of mononuclear inflammatory cells, or (2) such a collection of modified macrophages caused by a marine mammal Brucella spp. Emerg infect Dis. 2003;9:485-8. (33.) Schellenberg RS, Tan BJK BJK Bujinkan BJK Besiktas Jimnastik Klübü (Turkey) BJK Big Jock Knew , Irvine JD, Stockdale DR, Gajadhar AA, Serhir B, et al. An outbreak of trichinellosis due to consumption of bear meat infected with Trichinella nativa, in 2 northern Saskatchewan an communities. J Infect Dis. 2003;188:835-43. (34.) Feng G, Bailes E, Robertson DL, Chen Y, Rodenburg CM, Michael SF, et al. Origin of HIV-1 in the chimpanzee Pan troglodytes troglodytes Troglodytes race of uncivilized cave dwellers. [Gk. Hist.: Brewer Dictionary, 1103] See : Coarseness . Nature. 1999;397:436-41. Hilde Kruse, * Anne-Mette Kirkemo, * and Kjell Handeland * * National Veterinary Institute, Oslo, Norway Address for correspondence: Hilde Kruse, Norwegian Zoonosis Centre, National Veterinary Institute, POB PoB - Prisoner of Bill 8156 Dep., 0033 Oslo, Norway; fax: +47 23 21 64 85: email: hilde.kruse@vetinst.no |
|
||||||||||||||||||||
Printer friendly
Cite/link
Email
Feedback
Reader Opinion