Historical, current and expected future occurrence of rabies in enzootic regions.

Rabies is one of the oldest recorded pathogens, with the broadest distribution of any known viral zoonosis. Antarctica is believed to be free of all lyssaviruses, but no laboratory-based surveillance has taken place to support this supposition. Re-introduction of the disease is possible in Pacific Oceania, as evidenced by a historical outbreak in Guam and the translocation of rabid bats to Hawaii. Australia is the only inhabited continent with enzootic rabies, without the presence of rabies virus. Europe and North America have broken the cycle of dog-mediated rabies, with a few remaining focal points in Latin America and the Caribbean, but wildlife rabies predominates. The greatest burden resides in the 'Old World'. The elimination of human rabies mediated via dogs by 2030 in Africa, Asia and the Middle East will not be simple, rapid or inexpensive, but it may be achievable through the use of widely available tools and the application of lessons learned during the course of the 20th century.

La rage est l'une des plus anciennes maladies infectieuses enregistrées et la zoonose virale la plus largement représentée dans le monde. On présume que l'Antarctique est indemne de tout lyssavirus mais cette hypothèse n'est étayée par aucune surveillance basée sur des analyses de laboratoire. Il existe une menace de réintroduction de la maladie en Océanie, comme l'ont révélé le foyer historique survenu à Guam ainsi que l'arrivée de chauves-souris enragées à Hawaï. L'Australie est le seul continent habité où la rage ne sévit pas à l'état enzootique, le virus de la rage y étant absent. L'Europe et l'Amérique du Nord ont mis fin au cycle de la rage transmise par les chiens, dont il ne subsiste que quelques rares foyers de propagation en Amérique latine ; en revanche, la rage sylvatique reste prépondérante dans ces régions. Le fardeau le plus lourd est supporté par l'Ancien Monde. L'élimination de la rage humaine transmise par les chiens à l'horizon 2030 en Afrique, en Asie et au Moyen-Orient ne sera pas une tâche facile, rapide ni exempte de coûts mais elle peut réussir grâce aux outils disponibles partout dans le monde et aux enseignements tirés de l'expérience acquise tout au long du xxe siècle.

La rabia, causada por uno de los patógenos más antiguos de los que hay constancia, presenta la distribución más amplia de cuantas zoonosis víricas se conocen. Se piensa que la Antártida está libre de todo tipo de lisavirus, pero no ha habido labores de vigilancia en laboratorio que prueben tal suposición. Oceanía está bajo la amenaza de reintroducción de la enfermedad, como demuestran el histórico brote registrado en Guam o el desplazamiento de murciélagos rabiosos a Hawái. Australia es el único continente habitado en el que no hay rabia enzoótica, esto es, en que el virus rábico no está presente. Europa y América del Norte han interrumpido el ciclo de la rabia transmitida por perros, de la que aún quedan contados focos en América Latina y el Caribe, aunque sigue prevaleciendo la rabia de la fauna silvestre. La carga más importante recae en el «Viejo Mundo¼. La eliminación de la rabia humana transmitida por perros para 2030 en África, Asia y el Oriente Medio no será sencilla, rápida ni barata, pero es factible si se emplean herramientas que ya están extendidas y se aplican las lecciones que hemos aprendido a lo largo del siglo XX.

Global rabies management: perspectives on regional strategies for prevention and control.

Rabies is a major neglected zoonotic disease, despite the availability of highly sensitive diagnostic tests and efficacious human and animal vaccines. Perpetuation of rabies among multiple species of bats and wild carnivores, together with the presence of diverse lyssaviruses, remains a challenge for the prevention and control of this disease. However, most of the global burden may be reduced by mass vaccination of dogs, the major reservoir. Elimination of human rabies mediated by dogs may be feasible, based upon the elicitation of herd immunity, the application of sound health economic principles for appropriate disease management and technology transfer to those developing countries where rabies is hyper-endemic. Global canine rabies elimination has clear benefits for public health, veterinary medicine and conservation biology, so these sectors must collaborate using a transdisciplinary 'One Health' approach that allows the creation of long-term regional strategies for enhanced surveillance and practical intervention.

La rage est une maladie zoonotique majeure, qui demeure négligée malgré l'existence de tests de diagnostic hautement sensibles et de vaccins efficaces chez l'homme comme chez l'animal. La persistance de la rage chez de nombreuses espèces de carnivores sauvages et de chauves-souris et la diversité des espèces de Lyssavirus continuent de poser des difficultés en termes de prévention et de lutte contre la maladie. Néanmoins, le fardeau mondial de la rage peut être considérablement réduit en pratiquant la vaccination massive des chiens, ces derniers constituant le principal réservoir. L'élimination de la rage transmise par les chiens est un objectif atteignable si l'on s'appuie sur des concepts solides en matière d'immunité à l'échelle des troupeaux, d'économie de la santé et de transfert technologique, tout en apportant des bénéfices mutuels accrus pour la santé publique, la médecine vétérinaire et la biologie de la conservation grâce à la mise en oeuvre d'une approche régionale pour la surveillance, les interventions, la certification et la collaboration pluridisciplinaire dans un contexte Une seule santé.

La rabia es una importante enfermedad zoonótica desatendida, y ello pese a que existen pruebas de diagnóstico de gran sensibilidad y vacunas de contrastada eficacia en personas y animales. La perpetuación de la rabia en múltiples especies de carnívoros silvestres y murciélagos y la presencia de diversos lisavirus siguen dificultando el trabajo de prevención y control de la enfermedad. Con todo, cabe reducir buena parte de la carga mundial que impone la rabia mediante la vacunación masiva de perros, que son su principal reservorio. Si se aplican conceptos sólidos en materia de inmunidad de rebaño, economía de la salud y transferencia de tecnología, abordando las labores de vigilancia, intervención, certificación y colaboración multidisciplinar desde una lógica regional y desde los postulados de «Una sola salud¼, la eliminación de la rabia humana transmitida por perros puede ser un objetivo factible y muy beneficioso para la salud pública, la medicina veterinaria y la biología de la conservación.

Can rabies be eradicated?

Rabies, an acute progressive encephalitis, is an ancient zoonosis. Its distribution encompasses all continents, except Antarctica. Agents consist of at least 11 species orgenotypes of rhabdoviruses, in the Genus Lyssavirus. Susceptible natural hosts include all mammals. Primary reservoirs reside in the Orders Carnivora and Chiroptera. A plethora of variants, maintained by a diversity of abundant hosts, presents a challenge to a strict concept of true eradication. Globally, the domestic dog remains the most significant species for viral transmission, responsible for millions of suspect human exposures and tens of thousands of fatalities. As such, this single major target provides an ideal opportunity for focused intervention programmes in humane disease prevention and control, driven by laboratory-based surveillance and guided via modern epidemiological insights. Historically, substantial technical progress throughout the 20th century led to the development of safe, affordable and efficacious animal and human vaccines, resulting in declining disease burdens in selected developed and developing countries. Regional and local disease resurgence occurs, due in part to a combination of political and economic instability, environmental perturbations, and shifting government priorities. Society must recall that despite the recent recognition of other important emerging infectious diseases, none exceed the case fatality rate of rabies. Given the clear relevance of rabies in public health, agriculture, and conservation biology, substantive international progress must continue towards enhanced public awareness, human rabies prevention, wildlife rabies control, and canine rabies elimination, with renewed collaborative vigour.

New steps in the control of canine rabies in India.

In India, about 20,000 people die of rabies every year. The dog is the main reservoir and transmitter of the disease. A pilot rabies control programme was launched in five Indian federal states in February, 2007. This initiative is led by the Animal Welfare Board of India (AWBI) federating many animal welfare organizations and the Ministry of Agriculture. It aims at creating a "Rabies Free India." The programme combines parenteral vaccination of accessible owned and stray dogs, spaying/neutering followed by parenteral vaccination and oral vaccination of inaccessible dogs. The freeze-dried vaccine SAG2, including the bait casing, was registered in India following successful evaluation of vaccine-bait safety and efficacy (by survival after virulent challenge) in captive Indian stray dogs in the Bhopal High Security Animal Disease Laboratory. Furthermore, bait acceptance was tested under both experimental and field conditions.

Assessing the burden of human rabies in India: results of a national multi-center epidemiological survey.

OBJECTIVE: Human rabies has been endemic in India since time immemorial, and the true incidence of the disease and nationwide epidemiological factors have never been studied. The main objectives of the present study were to estimate the annual incidence of human rabies in India based on a community survey and to describe its salient epidemiological features. METHODS: The Association for Prevention and Control of Rabies in India (APCRI) conducted a national multi-center survey with the help of 21 medical schools during the period February-August 2003. This community-based survey covered a representative population of 10.8 million in mainland India. Hospital-based data were also obtained from the 22 infectious diseases hospitals. A separate survey of the islands of Andaman, Nicobar, and Lakshadweep, reported to be free from rabies, was also undertaken. RESULTS: The annual incidence of human rabies was estimated to be 17,137 (95% CI 14,109-20,165). Based on expert group advice, an additional 20% was added to this to include paralytic/atypical forms of rabies, providing an estimate of 20,565 or about 2 per 100000 population. The majority of the victims were male, adult, from rural areas, and unvaccinated. The main animals responsible for bites were dogs (96.2%), most of which were stray. The most common bite sites were the extremities. The disease incubation period ranged from two weeks to six months. Hydrophobia was the predominant clinical feature. Many of the victims had resorted to indigenous forms of treatment following animal bite, and only about half of them had sought hospital attention. Approximately 10% of these patients had taken a partial course of either Semple or a cell culture vaccine. The islands of Andaman, Nicobar, and Lakshadweep were found to be free of rabies. CONCLUSION: Human rabies continues to be endemic in India except for the islands of Andaman, Nicobar, and Lakshadweep. Dogs continue to be the principal reservoir. The disease is taking its toll on adult men and children, the majority from rural areas, due to lack of awareness about proper post-exposure immunization. The keys to success in the further reduction of rabies in India lies in improved coverage with modern rabies vaccines, canine rabies control, and intensifying public education about the disease.

The role of veterinary public health in the prevention of zoonoses.

Veterinary public health is a component of public health activities devoted to the application of professional veterinary skills, knowledge, and resources for the protection and improvement of public health. VPH activities involve a very diverse range of functions within public health which reflect the broad community of interests between veterinary and human medicine. Zoonoses continue to represent an important health hazard in most parts of the world, where they cause considerable expenditure and losses for the health and agricultural sectors. Although the situation is improving in the industrialized world, zoonoses prevention and control will remain an area of major concern in most developing countries. Recent observations in these countries show that expenses related to the prevention of zoonotic diseases in humans are likely to increase dramatically in the near future. Programmes for their control and eventual elimination in animal reservoirs are urgently needed. The technical knowledge exists to bring diseases such as brucellosis, rabies, and bovine tuberculosis under control during the first decade of the next century. To achieve this goal, constant efforts will be needed for the next 15 to 20 years. In addition, as trade in animal products and the movement of human populations continues to increase, the risk that zoonotic diseases will be introduced or reintroduced into certain areas is likewise increasing. Over the past five years, a number of zoonotic diseases have emerged as either new pathological entities or known agents appearing in new areas or as new strains. Through its coordinating and information gathering functions, the WHO Emerging Disease Surveillance and Control Division provides a source of both practical and technical guidance that can help solve these and other threats to human health posed by animals.

Test of three bait types for oral immunization of dogs against rabies in Tunisia.

Chicken heads and two types of artificial bait were tested in Tunisia during two field trials in a waste disposal site carried out in 1988 and 1989 to compare their effectiveness as vehicles for the oral administration of antirabies vaccine to free-roaming dogs. Baits were made available for 36 hr and those that disappeared or were consumed were replaced on several occasions. In 1988, an artificial bait composed of fat and fishmeal (artificial bait type I) was tested. In the second trial, chicken heads and an artificial bait composed of polymerized fishmeal and wax (artificial bait type II) were compared. The vaccine containers were loaded with a topical marker (rhodamine B or methylene blue) to identify animals that had consumed baits. The artificial type I bait tested in 1988 was poorly accepted, but in the second trial, the number of chicken-head baits probably taken by dogs was more than seven times greater than the number of artificial type II baits taken. Thirteen dogs observed during the day showed topical marker staining. In both trials, most baits were taken during the night when dog activity in the waste disposal site was at its maximum. Artificial baits were characterized either by their lack of thermostability (type I, melting) or a certain attractiveness for cats (type II, fish flavor). Chicken heads fulfill established requirements for baits for vaccine delivery. They are well-accepted by free-roaming dogs, inexpensive, usually easily available at local markets, unattractive to humans, relatively easy to store in large quantities, and easy to handle.

Field evaluation of a dog owner, participation-based, bait delivery system for the oral immunization of dogs against rabies in Tunisia.

We evaluated a dog owner, participation-based, bait delivery system for the oral immunization of dogs against rabies. In a field study in a semirural area of northern Tunisia, dog owners were asked to come to temporary bait delivery sites. A total of 314 baits were given to 178 dog owners in four sites. The experimental baits used consisted of a freeze-dried core unit containing sulfadimethoxine (SDM) as a biological marker and an aromatized paraffin envelope. No vaccine was used. Preliminary tests had shown that by using a rapid commercial card test, positive SDM serum levels were detected in more than 95% of dogs up to two days after bait ingestion. During the two days following bait delivery, we visited more than 95% of all households in the study area and took blood samples from as many owned dogs as possible. Unconsumed baits were recovered and human contacts with the bait matrix were recorded. The campaign required 7.6 person-min per bait and 13.5 person-min per dog owner for providing baits, gloves, and instructions. The estimated average cost effectiveness ratio per dog accepting a bait was 1.7 US dollars. From the indications given by the dog owners and the results of the SDM test, it was concluded that 85-90% of the owned dogs in the study area had consumed a bait at least partially. Of 314 baits delivered, 78.7% were fully consumed by dogs and 4.1% were recovered during the household survey. The remaining baits (17.2%) that were not recovered were either not consumed or only partially consumed by the target dogs (3.7 baits per 100 inhabitants). These baits probably remained within the highly populated areas and were potentially accessible to other domestic animals and other nontarget species, including humans. Twenty-five unprotected human contacts with baits were recorded (1.7% of all inhabitants). Our study has demonstrated the potential of dog owner based bait delivery. This technique is simple and efficient, particularly if the human population is accustomed to mass immunization in defined centers. Before applying this method on a large scale with live vaccine loaded baits, further studies should focus on minimizing the number of human contacts with the vaccine bait, systematizing contact identification and establishing structures in ensuring proper treatment if exposure to vaccine should occur.

Study of the dog population and the rabies control activities in the Mirigama area of Sri Lanka.

The national health authorities of Sri Lanka have adopted a combined strategy of rabies vaccination and stray dog removal to control endemic dog rabies. Despite the control efforts, an increase of animal and human rabies cases has occurred since 1994. As a consequence, a project to evaluate the national rabies control program has been started and a study focussing on the dog population and rabies control activities in a limited area of Mirigama was conducted. Information on canine abundance and the accessibility of dogs for rabies vaccination was obtained by a household survey, vaccination of dogs against rabies at several vaccination points, collar-marking, and transect line recapture. The number of unvaccinated dogs was estimated by using Bayesian methodology. The estimated number of dogs per square kilometre was 87 (95% credibility interval: 80, 93) for owned dogs and 108 (100, 116) for owned and ownerless dogs. Coverage after the immunisation campaign was 57.6% (53.3, 61.9%) if vaccination at the vaccination points was considered and 66% (60.4, 72.0%) if recently provided vaccination by private veterinarians was also taken into account. The proportion of households with at least one dog vaccinated varied between 59.1 and 94.2% within the catchment area of the different vaccination points. Unvaccinated dogs were puppies (12%), ownerless dogs (57%), and owned dogs, which were not presented for vaccination (31%). In order to improve the rabies immunisation coverage among dogs and to achieve complete elimination of rabies it was recommended that the 95% catchment area of each vaccination point be assessed, the distribution of vaccination points in the vaccination area be redefined if necessary, a system for the vaccination of dogs missing the vaccination campaign for dog owner-specific reasons be established, and an inexpensive marking system be used for vaccinated dogs.

Zoonoses and fertility control in wildlife--requirements for vaccines.

This paper reflects on public health considerations on the voluntary release of anti-fertility vaccines for wildlife in the environment. The World Health Organization (WHO) has established a variety of recommendations on safety and efficacy requirements for the voluntary release of rabies vaccines used for oral immunization of animals. These requirements cover aspects of control of rabies and possible biological consequences in the target population. They also deal with the protection of the health of humans and other non-target species that might come into contact with the different oral rabies vaccines used in various parts of the world. These recommendations are laid down in several WHO publications. They are specific to the disease concerned, the target animal reservoir, the relationship and types of contact between humans and target animals, the vaccines and baits used and the respective conditions of oral immunization of wildlife in densely-populated areas. Many of these recommendations also apply to the development and application of contraceptive vaccines for wildlife carnivores. Additional safety requirements concern the transmissibility of the antigen, the reversibility of the intervention within an individual animal and in animal populations, as well as the species specificity of the antigen used. The management of animal populations that are reservoirs for zoonotic diseases is a possible means by which diseases that are transmissible from animals to humans could be prevented. Oral contraception by means of vaccines is an appealing method, provided that requirements for protecting public and animal health, as well as ensuring environmental safety, are precisely defined and strictly adhered to.