This study assesses the causes and prevention measures of rabies through epidemiological investigation and analysis. A field epidemiological survey was conducted to investigate a case of rabies by fox bite. The onset of symptoms began 50 days after the bite. The patient did not receive standard treatment, rabies vaccination, or rabies immunoglobulin injection. The fox was killed on the spot. Saliva and pre-death blood samples were collected at different periods, and only blood RT-PCR tests yielded positive results. Wild fox bite is a major risk factor of rabies infection in Xinjiang Province, China.
Adult ; Animals ; Brain ; virology ; China ; epidemiology ; Fatal Outcome ; Foxes ; virology ; Humans ; Male ; Rabies ; epidemiology ; transmission ; Zoonoses

OBJECTIVETo observe the existence and location of the recombinant rabies virus in the hippocampus of the sulking mice infected recombinant rabies virus.

METHODA group of one-day-old sulking mice and 4-week-old mice were challenged with the CTN-GFP strain by intracerebral inoculation, frozen longitudinal transect sections of hippocampus were prepared from the suckling mice in order to observe the expression of the GFP protein and the location of the recombinant rabies virus.

RESULTSDAPI was performed to stain the cell nuclei in blue while GFP expression from CTN-GFP infected brain cells was observed under a confocal microscope.

CONCLUSIONThe location of the rabies virus can be clearly observed by preparing frozen section of certain sites from the brain, and this method also provide a new tool to trace the route of spread of the rabies virus within the animal host.

Animals ; Animals, Newborn ; Brain ; virology ; Cryoultramicrotomy ; Female ; Mice ; Rabies ; pathology ; virology ; Rabies virus ; genetics ; metabolism

In order to investigate the human cytomegalovirus (HCMV) infection, the mouse cytomegalovirus (MCMV) infected mice were experimentally studied. 6 to 8 week old female BALB/C mice with immunosuppression were selected to undergo the MCMV inoculations: intracranial inoculation and peritoneal inoculation. MCMV of the infected mice in various organs and tissues were detected by using beta-gal staining and in situ nucleic acid hybridization assay. The pathological changes were observed in HE staining paraffin-embedded sections. It was found that all the MCMV infected mice showed the retardation of growth and development, and feather looseness. Both intracranial inoculation of 10(4) PFU viruses or peritoneal inoculation of 10(6) PFU viruses resulted in the pathological changes, to some extent, of various organs and tissues in the mice. The pathological changes in liver were consistent with the amount of beta-gal staining positive cells, indicating the liver lesions were mainly caused by viral proliferation. It was also found that the viruses in the immunosuppressed mice subjected to intracranial inoculation could spread to whole body organs, while the viruses in the immunosuppressed mice subjected to intrapeitoneal inoculation couldn't spread to the brain, suggesting blood-brain barrier could prevent the virus from spreading to the brain.
Blood-Brain Barrier ; Brain/pathology ; Brain/virology ; Disease Models, Animal ; *Herpesviridae Infections/pathology ; *Herpesviridae Infections/virology ; Immunocompromised Host ; Liver/pathology ; Liver/virology ; Lung/pathology ; Lung/virology ; Mice, Inbred BALB C ; *Muromegalovirus

OBJECTIVETo document ultrastructural changes of brain, spinal cord, skeletal muscle, jejunum and lung of EV71 infection mouse model, and to explore the myotropism and pathogenesis of EV71 in nervous system.

METHODSTen-day-old suckling mice were infected with EV71 strain via the intraperitoneal route. Mice with paralysis were scarified on day 4 post infection and the brain, spinal cord, skeletal muscle, jejunum and lung were sampled for transmission electron microscopy and light microscopy.

RESULTSLesions in brain were generally mild with inner chamber swelling in some of mitochondria. Myelin sheaths of medullated fibers were split with vacuolated changes. The Nissl bodies in anterior motor neurons disappeared along with mitochondria swelling, rough endoplasmic reticulum swelling and degranulation. Cytoplasm of anterior motor neurons showed cribriform appearance accompanied by neuronophagia. The bands of skeletal muscle in the infected group disappeared with degeneration and karyopyknosis in myocytes, in addition to mitochondrial swelling. Microvilli of epithelium in jejunum became loosely arranged along with formation of spiral medullary sheath structure and mitochondria swelling. Interstitial pneumonia was observed in lungs with type II pneumocyte proliferation and evacuation of the multilamellar bodies.

CONCLUSIONSEV71 infection causes severe myositis in the mouse model suggesting a strong myotropism of EV71 virus. The presence of lesions of various degrees in central nervous system and changes in anterior motor neurons may be associated with limb paralysis.

Animals ; Brain ; ultrastructure ; virology ; Disease Models, Animal ; Enterovirus A, Human ; Enterovirus Infections ; pathology ; virology ; Jejunum ; ultrastructure ; virology ; Lung ; ultrastructure ; virology ; Mice ; Mice, Inbred BALB C ; Microscopy, Electron, Transmission ; Muscle, Skeletal ; ultrastructure ; virology ; Spinal Cord ; ultrastructure ; virology

In order to investigate the human cytomegalovirus (HCMV) infection, the mouse cytomegalovirus (MCMV) infected mice were experimentally studied. 6 to 8 week old female BALB/C mice with immunosuppression were selected to undergo the MCMV inoculations: intracranial inoculation and peritoneal inoculation. MCMV of the infected mice in various organs and tissues were detected by using beta-gal staining and in situ nucleic acid hybridization assay. The pathological changes were observed in HE staining paraffin-embedded sections. It was found that all the MCMV infected mice showed the retardation of growth and development, and feather looseness. Both intracranial inoculation of 10(4) PFU viruses or peritoneal inoculation of 10(6) PFU viruses resulted in the pathological changes, to some extent, of various organs and tissues in the mice. The pathological changes in liver were consistent with the amount of beta-gal staining positive cells, indicating the liver lesions were mainly caused by viral proliferation. It was also found that the viruses in the immunosuppressed mice subjected to intracranial inoculation could spread to whole body organs, while the viruses in the immunosuppressed mice subjected to intrapeitoneal inoculation couldn't spread to the brain, suggesting blood-brain barrier could prevent the virus from spreading to the brain.
Animals ; Blood-Brain Barrier ; Brain ; pathology ; virology ; Disease Models, Animal ; Female ; Herpesviridae Infections ; pathology ; virology ; Immunocompromised Host ; Liver ; pathology ; virology ; Lung ; pathology ; virology ; Mice ; Mice, Inbred BALB C ; Muromegalovirus

Highly pathogenic avian influenza viruses (HPAIV) of the H5N1 subtype have spread since 2003 in poultry and wild birds in Asia, Europe and Africa. In Korea, the highly pathogenic H5N1 avian influenza outbreaks took place in 2003/2004, 2006/2007 and 2008. As the 2006/2007 isolates differ phylogenetically from the 2003/2004 isolates, we assessed the clinical responses of chickens, ducks and quails to intranasal inoculation of the 2006/2007 index case virus, A/chicken/Korea/IS/06. All the chickens and quails died on 3 days and 3-6 days post-inoculation (DPI), respectively, whilst the ducks only showed signs of mild depression. The uninoculated chickens and quails placed soon after with the inoculated flock died on 5.3 and 7.5 DPI, respectively. Both oropharyngeal and cloacal swabs were taken for all three species during various time intervals after inoculation. It was found that oropharyngeal swabs showed higher viral titers than in cloacal swabs applicable to all three avian species. The chickens and quails shed the virus until they died (up to 3 to 6 days after inoculation, respectively) whilst the ducks shed the virus on 2-4 DPI. The postmortem tissues collected from the chickens and quails on day 3 and days 4-5 and from clinically normal ducks that were euthanized on day 4 contained the virus. However, the ducks had significantly lower viral titers than the chickens or quails. Thus, the three avian species varied significantly in their clinical signs, mortality, tissue virus titers, and duration of virus shedding. Our observations suggest that duck and quail farms should be monitored particularly closely for the presence of HPAIV so that further virus transmission to other avian or mammalian hosts can be prevented.
Animals ; Antibodies, Viral/blood ; Brain/virology ; *Chickens ; *Coturnix ; *Ducks ; Heart/virology ; Influenza A Virus, H5N1 Subtype/*pathogenicity ; Influenza in Birds/epidemiology/transmission/*virology ; Kidney/virology ; Korea/epidemiology ; Lung/virology ; Virus Shedding

C57BL/6 mice were inoculated intranasally (50 microl) with serial 10-fold dilution of HAB/01 H5N1 virus. Three and five days later, three mice of each group were euthanized. Lung injury was assessed by observation of lung histopathology, virus titers and MCD50 were also measured. Our data showed that H5N1 viral infection in mice resulted in mainly epithelial injury and interstitial pneumonia, featuring significant weight loss, dramatically increased lung wet weight:body weight ratio, inflammatory cellular infiltration, alveolar and interstitial edema, hemorrhage in lungs with high virus titers, and MCD50 was 10(-6.5)/ 0.05 mL. These results suggested that a mouse model of H5N1 viral infection was successfully established which may benefit study of H5N1 avian influenza virus and pathogenic mechanism of host.
Animals ; Brain ; pathology ; virology ; Disease Models, Animal ; Female ; Humans ; Influenza A Virus, H5N1 Subtype ; pathogenicity ; Influenza, Human ; pathology ; virology ; Liver ; pathology ; virology ; Lung ; pathology ; virology ; Mice ; Mice, Inbred C57BL ; Random Allocation ; Spleen ; pathology ; virology

Chinese ferret badger (FB)-transmitted rabies is a serious threat to public health in southeast China. Although mostly associated with dogs, the rabies virus (RABV) presents genetic diversity and has a significantly wide host range in China. Instead of the dog- and wildlife-associated China II lineage in the past decades, the China I lineage has become the main epidemic group hosted and transmitted by dogs. In this study, four new lineages, including 43 RABVs from FBs, have been classified within the dog-dominated China I lineage since 2014. FB RABVs have been previously categorized in the China II lineage. Moreover, FB-hosted viruses seem to have become the main independent FB-associated clade in the phylogenetic tree. This claim suggests that the increasing genetic diversity of RABVs in FBs is a result of the selective pressure from coexisting dog rabies. FB transmission has become complicated and serious with the coexistence of dog rabies. Therefore, apart from targeting FB rabies, priority should be provided by the appropriate state agencies to perform mass immunization of dog against rabies.
Animals ; Brain ; virology ; China ; epidemiology ; Disease Reservoirs ; veterinary ; virology ; Dog Diseases ; epidemiology ; transmission ; virology ; Dogs ; Ferrets ; virology ; Genetic Linkage ; Genetic Variation ; Phylogeny ; Phylogeography ; Rabies ; epidemiology ; transmission ; veterinary ; virology ; Rabies virus ; genetics

Rabies is an acute, progressive encephalitis caused by infection with rabies virus (RABV). It is one of the most important zoonotic infections and causes more than 70,000 human deaths annually ( http://www.rabiescontrol.net ). It has long been held that a rabies infection is lethal in humans once the causative RABV reaches the central nervous system (CNS); however, this concept was challenged by the recent recovery of a small number of rabies patients. An analysis of these patients revealed that the bloodbrain barrier (BBB) played a major role in protection against the virus. The main reason for the survival of these patients was enhanced BBB permeability after infection with the causative agent (usually bat-originated RABV showing reduced pathogenicity), which allowed immune cells to enter the tissues of the CNS and clear the infection (Willoughby et al., 2005). These findings have been confirmed in animal infection experiments (Wang et al., 2005; Roy and Hooper, 2007, 2008; Faber et al., 2009). Thus, the BBB has attracted the attention of scientists interested in the pathogenesis of, and therapeutic approaches, for rabies. This paper introduces the role of the BBB in rabies infections and protection of the CNS and provides insight into future treatments for patients with clinical rabies.
Animals ; Blood-Brain Barrier ; immunology ; physiology ; virology ; Disease Reservoirs ; Humans ; Rabies ; metabolism ; prevention & control ; virology ; Rabies virus ; pathogenicity ; physiology

OBJECTIVETo characterize two strains of street rabies virus (RABV) isolated from the brain tissue of cattle from Inner Mongolia. Differences in the histopathological and ultrastructural changes in the brain tissue of infected mice were determined to reveal variation in the pathogenesis of infection between street rabies virus strains.

METHODSTen-day-old mice were intracranially inoculated with one of three virus strains and brain tissue harvested when the mice were moribund. Various histopathological and ultrastructural markers of disease were then compared between the groups.

RESULTSInfection with the street virus strain CNM1101C resulted in severe neuronal dendrites damage, but only mild cell apoptosis, T lymphocyte infiltration and microglial activation. Infection with the other street virus strain, CNM1103C, was characterized by cell apoptosis, T lymphocyte infiltration and microglial activation as well as dendrites damage. However, in comparison, infection with the attenuated virus strain CTN caused severe T lymphocyte infiltration, microglial activation and cell apoptosis, but left the neuronal dendrites intact.

CONCLUSIONThe two street rabies virus strains isolated from cattle from Inner Mongolia had different levels of virulence and caused distinct pathological changes in infected mice. Therefore, we concluded that different pathogenic mechanisms exist between different RABV strains.

Animals ; Brain ; pathology ; virology ; Cattle ; Cattle Diseases ; pathology ; virology ; China ; Fluorescent Antibody Technique, Direct ; Mice ; Mice, Inbred ICR ; Rabies ; pathology ; virology ; Rabies virus ; genetics ; pathogenicity ; physiology ; ultrastructure ; Virulence