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Rabies is a central nervous system (CNS) disease that is almost invariably fatal. Neurotropism, neuroinvasiveness, and transsynaptic spread are the main features that determine the pathogenesis of rabies. Recent advances in rabies...
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Rabies is a central nervous system (CNS) disease that is almost invariably fatal. Neurotropism, neuroinvasiveness, and transsynaptic spread are the main features that determine the pathogenesis of rabies. Recent advances in rabies virus (RV) research, which made direct genetic manipulations of the RV genome possible, greatly improved the understanding of the role of different viral and host cell factors in the pathogenesis of rabies. Here the authors discuss molecular mechanisms associated with rabies RV infection and its spread to the CNS.
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Rabies is an acute neurological infection of humans and animals, caused by rabies virus and usually transmitted by animal bites. After an incubation period usually lasting weeks or longer, a variety of prodromal symptoms may occur...
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Rabies is an acute neurological infection of humans and animals, caused by rabies virus and usually transmitted by animal bites. After an incubation period usually lasting weeks or longer, a variety of prodromal symptoms may occur. Encephalitic rabies (80% of cases) is associated with episodes of generalised arousal or hyperexcitability and hydrophobia, in which spasms involve the contraction of inspiratory muscles with swallowing. Paralytic rabies (in 20% of cases) is characterised by progressive lower motor neuron weakness. Laboratory investigations are important for confirming an ante mortem diagnosis of rabies. Cardiopulmonary and many other complications, including multiple organ failure, are common in aggressively managed rabies patients in critical care units. No effective therapy is available for rabies and survivors are uncommon. In contrast, preventative measures for rabies are highly effective after recognised exposures.
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The recognition that viruses related to rabies virus cause rabies in humans has stimulated research into the relationships, geographic distribution and natural histories of these viruses. This paper reviews what is known of these ...
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The recognition that viruses related to rabies virus cause rabies in humans has stimulated research into the relationships, geographic distribution and natural histories of these viruses. This paper reviews what is known of these fascinating viruses and the complexity of prevention and treatment of the disease they cause.
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The long-held concept that rabies infection is lethal in humans once the causative rabies virus has reached the CNS has been called into question by the recent survival of a number of patients with clinical rabies. Studies in anim...
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The long-held concept that rabies infection is lethal in humans once the causative rabies virus has reached the CNS has been called into question by the recent survival of a number of patients with clinical rabies. Studies in animal models provide insight into why survival from a rabies virus infection that has spread to the CNS is possible and the immune mechanisms involved. In the CNS, both innate mechanisms capable of inhibiting virus replication and the activity of infiltrating rabies virus-specific T and B cells with the capacity to clear the virus are required. Deficiencies in the induction of either aspect of rabies immunity can lead to lethal consequences but may be overcome by novel approaches to active and passive immunization.
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Introduction: Rabies is a viral disease that can be transmitted from animals to humans. All warm-blooded animals, including humans, can host rabies’s virus. Vaccination of dogs is an effective method of preventing rabies in human...
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Introduction: Rabies is a viral disease that can be transmitted from animals to humans. All warm-blooded animals, including humans, can host rabies’s virus. Vaccination of dogs is an effective method of preventing rabies in humans. Objectives: To evaluate knowledge, attitudes and practices towards rabies prevention and factors related to vaccines for both patients exposed with rabies and dogs. Methods: A cross-sectional descriptive study, using the questionnaire on rabies prevention by interviewing 1 484 households. Multivariable logistic regression analysis was used to identify factors related to vaccines for both patients exposed to rabies and dogs. Results: Of all 67.32 % of the people surveyed with high knowledge, only 43.8 % and 31.47 % were assessed as having a good attitude and practice. Interviewees with poor knowledge and practice are independently related to low-rate vaccines provision for pets. Factors associated with low vaccination rates after pet bites were poor attitudes and practices. Conclusion: People with a high level of education, knowledge and practice, the rabies vaccination rate on pets is high. People with good attitudes and practices had a high rate of rabies vaccination after being bitten by an animal.
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Oral immunization in free-roaming dogs is one of the most practical approaches to prevent rabies for developing countries. The safe, efficient and long-lasting protective oral rabies vaccine for dogs is highly sought. In this stud...
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Oral immunization in free-roaming dogs is one of the most practical approaches to prevent rabies for developing countries. The safe, efficient and long-lasting protective oral rabies vaccine for dogs is highly sought. In this study, rabies virus (RABV) Evelyn-Rokitnicki-Abelseth (ERA) strain wild-type (rERA) and a genetically modified type (rERAG(333E)) containing a mutation from arginine to glutamic acid at residue 333 of glycoprotein (G(333E)) were generated by reverse genetic. The recombinant virus rERAG(333E) retained growth properties of similar to the parent strain rERA in BHK-21 cell culture. The G333E mutation showed genetic stability during passage into neuroblastoma cells and in the brains of suckling mice and was significantly reduced the virulence of rERA in mice. rERAG(333E) was immunogenic in dogs by intramuscular inoculation. Mice orally vaccinated with rERAG(333E) induced strong and one year longer virus neutralizing antibodies (VNA) to RABV, and were completely protected from challenge with lethal street virus at 12 months after immunization. Dogs received oral vaccination with rERAG(333E) induced strong protective RABV VNA response, which lasted for over 3 years, and moderate saliva RABV-specific IgA. Moreover, sizeable booster responses to RABV VNA were induced by a second oral dose 1 year after the first dose. These results demonstrated that the genetically modified ERA vaccine strain has the potential to serve as a safe and efficient oral live vaccine against rabies in dogs. (C) 2015 Elsevier B.V. All rights reserved.
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Introduction Rabies is a fatal zoonotic infectious disease that poses a serious threat to public health in China. Since 2005, a National Animal Rabies Surveillance System has been operating to understand the rabies situation in an...
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Introduction Rabies is a fatal zoonotic infectious disease that poses a serious threat to public health in China. Since 2005, a National Animal Rabies Surveillance System has been operating to understand the rabies situation in animals in China with a view to control and eventually eliminate dog-mediated human rabies. Methods From 2010, the brain tissues of dogs, livestock, and wild animals showing rabies-like clinical signs were collected and tested by the National Reference Laboratory (NRL) for Animal Rabies to analyze the epidemiological characteristics of rabies, including animal species, geographic distribution, and transmission sources. Over the same period, clinically suspected animal rabies cases were collected by Animal Disease Control Centers through the National Animal Disease Monitoring Information Platform (NADMIP) and then reported in the Veterinary Bulletin . Results During 2010–2020, 170 of 212 suspected animal rabies cases were submitted to and confirmed by NRL as rabies virus-positive. Of these confirmed cases dogs, especially free-roaming and ownerless dogs in rural areas, were major transmission hosts (71/170). A total of 51 infected dogs attacked humans with 45 biting more than one person. The dog cases were reported all year round, but with significantly more in spring and summer. The majority of livestock rabies cases (70/80) being caused by rabid wild foxes in Xinjiang and Inner Mongolia revealed that foxes play a pivotal role in animal rabies epizootics in the north and northwest of the country. Conclusion Dogs were the main transmission sources of rabies in China, and along with the recent increase of rabies in foxes and other wildlife, presented an increasing threat to livestock and public health.
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Rabies virus (RV) is a prototype neurotropic virus that causes fatal disease in human and animals. RV infects hosts at the periphery, enters motoneurons or sensory nerves and moves to the central nervous system (CNS) via retrograd...
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Rabies virus (RV) is a prototype neurotropic virus that causes fatal disease in human and animals. RV infects hosts at the periphery, enters motoneurons or sensory nerves and moves to the central nervous system (CNS) via retrograde axonal transport. At later stages, there is also centrifugal spread to major exit portals, such as the salivary glands. Transmission to other hosts is facilitated by behavioral changes related to the CNS infection. Successful accomplishment of the RV infectious cycle depends on multiple functions of the virus, and of individual virus proteins, all together defining the typical pathogenicity and virulence, i.e. the biological fitness of this virus. In particular, it appears important for RV to sneak into the host without causing pronounced host responses and to preserve, at least for some time, the integrity of infected cells and of the neuronal network. The availability of reverse genetics systems that allow generation of engineered recombinant RV has provided tools for a more detailed analysis of viral functions relevant to the typical RV pathogenesis. Novel developments such as tracking of live fluorescent RV are further increasing the opportunities to decipher RV pathogenicity factors. In this review, we describe different aspects of the molecular biology of RV that are relevant to pathogenesis, with a particular emphasis on the accurate control of RV transcription, gene expression, and replication. In addition, the role of individual virus proteins in maintaining host cell integrity and supporting retrograde transport is discussed. The potential of recombinant RVs with single or multiple pathogenicity factors eliminated is being discussed in terms of vaccine and virus vector development.
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The entire coding region of the nucleoprotein (N) gene of Takamen and Komatsugawa strains of rabies virus isolated in Japan in 1940's were determined. Phylogenetic analysis was performed on 140 lyssaviruses (128 viruses of genotyp...
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The entire coding region of the nucleoprotein (N) gene of Takamen and Komatsugawa strains of rabies virus isolated in Japan in 1940's were determined. Phylogenetic analysis was performed on 140 lyssaviruses (128 viruses of genotype 1 and 12 lyssaviruses of other genotypes) isolated in various parts of the world, including the two Japanese rabies strains, based on the sequences of 1,350 nucleotides of the N gene. The rabies viruses were divided into 12 distinct clusters at least, reflecting geographical areas and hosts as reservoirs. The Takamen, Nishigahara, and RC-HL strains derived from the Nishigahara strain were grouped into the same cluster as the Chinese strain (3aG) in the worldwide distribution group. The Komatsugawa strain was grouped into the same cluster as the viruses from a raccoon dog from Khabarovsk, and from a steppe fox in area of Lake Baikal in Russia in a group consisting of Canada, Greenland, and the Arctic. These data along with the historical evidence suggest that Japanese rabies viruses, the Takamen and Komatsugawa strains, belong to two different clusters and moved into Japan from China and Russia, respectively.
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Rabies is an acute, progressive, incurable viral encephalitis. The causative agents are neurotropic RNA viruses in the family Rhabdoviridae, genus Lyssavirus. Mammalian reservoirs include the Carnivora and Chiroptera, but rabid do...
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Rabies is an acute, progressive, incurable viral encephalitis. The causative agents are neurotropic RNA viruses in the family Rhabdoviridae, genus Lyssavirus. Mammalian reservoirs include the Carnivora and Chiroptera, but rabid dogs still pose the greatest hazard worldwide. Viral transmission occurs mainly via animal bite, and once the virus is deposited in peripheral wounds, centripetal passage occurs towards the central nervous system. After viral replication, there is centrifugal spread to major exit portals, the salivary glands. The epidemiological significance of any host "carrier" state remains highly speculative. Although incubation periods average 1-3 months, disease occurrence days or years after exposure has been documented. Rabies should be suspected in patients with a concomitant history of animal bite and traditional clinical presentation, but a lack of such clues makes antemortem diagnosis a challenge. Pathogenetic mechanisms remain poorly understood, and current care entails palliative measures only. Current medical emphasis relies heavily on prevention of exposure and intervention before clinical onset. Prophylaxis encompasses thorough wound treatment, vaccine administration, and inoculation of rabies immunoglobulin. Although it is a major zoonosis, canine rabies can be eliminated, and application of new vaccine technologies permits significant disease control among wildlife species. Nevertheless, despite much technical progress in the past century, rabies is a disease of neglect and presents a modern public-health conundrum.
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