Your search keyword '"BATS as carriers of disease"' showing total 50 results

1. Survey of rabies among free-flying bats from the Big Bend Region of Texas /

Author

Yancey, Franklin D., Jones, Clyde, Neill, Susan U., Raj, Pushker, Texas Tech University. Museum, Museum of Texas Tech University, Yancey, Franklin D., Jones, Clyde, Neill, Susan U., Raj, Pushker, and Texas Tech University. Museum

Subjects

Bats, Bats as carriers of disease, Big Bend Region, Big Bend Region (Tex.), Rabies, Texas

Published

1997

2. Understanding Ebola virus and other zoonotic transmission risks through human–bat contacts: Exploratory study on knowledge, attitudes and practices in Southern Cameroon.

Author

Baudel, Helene, De Nys, Helene, Mpoudi Ngole, Eitel, Peeters, Martine, and Desclaux, Alice

Subjects

*EBOLA virus, *ZOONOSES, *BATS, *BATS as carriers of disease, *VIRAL ecology, *RURAL geography, *SEMI-structured interviews

Abstract

The ecology of Ebola virus (EBV) remains largely unknown, but the previous detection of viral RNA and anti‐EBV antibodies in African bats suggests that they might play a role in the EBV reservoir. Moreover, African bats also carry other potentially zoonotic agents such as Henipah‐like viruses, coronaviruses and lyssaviruses. Today only little information is available on interactions between humans and bats. The objective of our exploratory study was to describe the extent and modes of contacts between humans and bats in southern Cameroon, considered as an area at risk for future EBV outbreaks. The survey was conducted in 11 villages of four distinct rural areas in southern Cameroon. A total of 135 respondents were interviewed using semi‐structured questionnaires, between February and May 2017. The study showed that direct contacts between bats and humans are relatively common. Bat bushmeat appeared to be an occasional meat resource; 40% of respondents consume bats with a median annual consumption of three, and 28% of respondents hunt them. About 22% of the respondents reported children catching bats. Indirect contact also appeared to be common; 55% of hunters use caves as shelters and 67% of interviewees eat fruits previously chewed by bats. Bat consumption varied significantly between regions (from 0% to 87%) and between pygmies and bantus in the extreme south‐east of Cameroon. The study revealed considerable diversity in practices among interviewees, most of them being subsistence cultivators and relying on self‐hunted bushmeat. Geographical diversity of contacts and perceptions regarding bats in Cameroon emphasizes the need to adjust zoonotic pathogen surveillance and education campaigns to the specificities of the communities and their context of interaction with wildlife. [ABSTRACT FROM AUTHOR]

Published

2019

3. Molecular Detection of <italic>Bartonella</italic> Species in Blood-Feeding Bat Flies from Mexico.

Author

Moskaluk, Alexandra E., Stuckey, Matthew J., Jaffe, David A., Kasten, Rickie W., Aguilar-Setién, Alvaro, Olave-Leyva, José Ignacio, Galvez-Romero, Guillermo, Obregón-Morales, Cirani, Salas-Rojas, Mónica, García-Flores, María Martha, Aréchiga-Ceballos, Nidia, García-Baltazar, Anahí, and Chomel, Bruno B.

Subjects

*BARTONELLA, *ZOONOSES, *BATS as carriers of disease

Abstract

Bartonellae are emerging blood-borne bacteria that have been recovered from a wide range of mammalian species and arthropod vectors around the world. Bats are now recognized as a potential wildlife reservoir for a diverse number of Bartonella species, including the zoonotic Candidatus B. mayotimonensis. These bat-borne Bartonella species have also been detected in the obligate ectoparasites of bats, such as blood-feeding flies, which could transmit these bacteria within bat populations. To better understand this potential for transmission, we investigated the relatedness between Bartonella detected or isolated from bat hosts sampled in Mexico and their ectoparasites. Bartonella spp. were identified in bat flies collected on two bat species, with the highest prevalence in Trichobius parasiticus and Strebla wiedemanni collected from common vampire bats (Desmodus rotundus). When comparing Bartonella sequences from a fragment of the citrate synthase gene (gltA), vector-associated strains were diverse and generally close to, but distinct from, those recovered from their bacteremic bat hosts in Mexico. Complete Bartonella sequence concordance was observed in only one bat-vector pair. The diversity of Bartonella strains in bat flies reflects the frequent host switch by bat flies, as they usually do not live permanently on their bat host. It may also suggest a possible endosymbiotic relationship with these vectors for some of the Bartonella species carried by bat flies, whereas others could have a mammalian host. [ABSTRACT FROM AUTHOR]

Published

2018

4. Tools to study pathogen-host interactions in bats.

Author

Banerjee, Arinjay, Misra, Vikram, Schountz, Tony, and Baker, Michelle L.

Subjects

*HOST-parasite relationships, *BATS as carriers of disease, *BIOLOGICAL evolution, *CELL lines, *SARS disease

Abstract

Bats are natural reservoirs for a variety of emerging viruses that cause significant disease in humans and domestic animals yet rarely cause clinical disease in bats. The co-evolutionary history of bats with viruses has been hypothesized to have shaped the bat-virus relationship, allowing both to exist in equilibrium. Progress in understanding bat-virus interactions and the isolation of bat-borne viruses has been accelerated in recent years by the development of susceptible bat cell lines. Viral sequences similar to severe acute respiratory syndrome corona virus (SARS-CoV) have been detected in bats, and filoviruses such as Marburg virus have been isolated from bats, providing definitive evidence for the role of bats as the natural host reservoir. Although viruses can be readily detected in bats using molecular approaches, virus isolation is far more challenging. One of the limitations in using traditional culture systems from non-reservoir species is that cell types and culture conditions may not be compatible for isolation of bat-borne viruses. There is, therefore, a need to develop additional bat cell lines that correspond to different cell types, including less represented cell types such as immune cells, and culture them under more physiologically relevant conditions to study virus host interactions and for virus isolation. In this review, we highlight the current progress in understanding bat-virus interactions in bat cell line systems and some of the challenges and limitations associated with cell lines. Future directions to address some of these challenges to better understand host-pathogen interactions in these intriguing mammals are also discussed, not only in relation to viruses but also other pathogens carried by bats including bacteria and fungi. [ABSTRACT FROM AUTHOR]

Published

2018

5. Pathogenesis of bat rabies in a natural reservoir: Comparative susceptibility of the straw-colored fruit bat (Eidolon helvum) to three strains of Lagos bat virus.

Author

Suu-Ire, Richard, Begeman, Lineke, Banyard, Ashley C., Breed, Andrew C., Drosten, Christian, Eggerbauer, Elisa, Freuling, Conrad M., Gibson, Louise, Goharriz, Hooman, Horton, Daniel L., Jennings, Daisy, Kuzmin, Ivan V., Marston, Denise, Ntiamoa-Baidu, Yaa, Riesle Sbarbaro, Silke, Selden, David, Wise, Emma L., Kuiken, Thijs, Fooks, Anthony R., and Müller, Thomas

Subjects

*RABIES, *BATS as carriers of disease, *STRAW-colored fruit bat, *VETERINARY virology, *LYSSAVIRUS, *INFECTIOUS disease transmission

Abstract

Rabies is a fatal neurologic disease caused by lyssavirus infection. People are infected through contact with infected animals. The relative increase of human rabies acquired from bats calls for a better understanding of lyssavirus infections in their natural hosts. So far, there is no experimental model that mimics natural lyssavirus infection in the reservoir bat species. Lagos bat virus is a lyssavirus that is endemic in straw-colored fruit bats (Eidolon helvum) in Africa. Here we compared the susceptibility of these bats to three strains of Lagos bat virus (from Senegal, Nigeria, and Ghana) by intracranial inoculation. To allow comparison between strains, we ensured the same titer of virus was inoculated in the same location of the brain of each bat. All bats (n = 3 per strain) were infected, and developed neurological signs, and fatal meningoencephalitis with lyssavirus antigen expression in neurons. There were three main differences among the groups. First, time to death was substantially shorter in the Senegal and Ghana groups (4 to 6 days) than in the Nigeria group (8 days). Second, each virus strain produced a distinct clinical syndrome. Third, the spread of virus to peripheral tissues, tested by hemi-nested reverse transcriptase PCR, was frequent (3 of 3 bats) and widespread (8 to 10 tissues positive of 11 tissues examined) in the Ghana group, was frequent and less widespread in the Senegal group (3/3 bats, 3 to 6 tissues positive), and was rare and restricted in the Nigeria group (1/3 bats, 2 tissues positive). Centrifugal spread of virus from brain to tissue of excretion in the oral cavity is required to enable lyssavirus transmission. Therefore, the Senegal and Ghana strains seem most suitable for further pathogenesis, and for transmission, studies in the straw-colored fruit bat. [ABSTRACT FROM AUTHOR]

Published

2018

6. Interplay between co-divergence and cross-species transmission in the evolutionary history of bat coronaviruses.

Author

Leopardi, Stefania, Holmes, Edward C., Gastaldelli, Michele, Tassoni, Luca, Priori, Pamela, Scaravelli, Dino, Zamperin, Gianpiero, and De Benedictis, Paola

Subjects

*CORONAVIRUSES, *BAT diseases, *RNA polymerases, *PHYLOGENY, *BATS as carriers of disease

Abstract

Coronaviruses (CoVs) have been documented in almost every species of bat sampled. Bat CoVs exhibit both extensive genetic diversity and a broad geographic range, indicative of a long-standing host association. Despite this, the respective roles of long-term virus-host co-divergence and cross-species transmission (host-jumping) in the evolution of bat coronaviruses are unclear. Using a phylogenetic approach we provide evidence that CoV diversity in bats is shaped by both species richness and their geographical distribution, and that CoVs exhibit clustering at the level of bat genera, with these genus-specific clusters largely associated with distinct CoV species. Co-phylogenetic analyses revealed that cross-species transmission has been more common than co-divergence across coronavirus evolution as a whole, and that cross-species transmission events were more likely between sympatric bat hosts. Notably, however, an analysis of the CoV RNA polymerase phylogeny suggested that many such host-jumps likely resulted in short-term spill-over infections, with little evidence for sustained onward transmission in new co-roosting host species. [ABSTRACT FROM AUTHOR]

Published

2018

7. Murdoch University Researchers Discuss Research in Zoonoses (How significant are bats as potential carriers of zoonotic Cryptosporidium and Giardia?).

Subjects

RESEARCH personnel, BATS as carriers of disease, ZOONOSES, CRYPTOSPORIDIUM, BATS

Abstract

A recent study conducted by researchers at Murdoch University in Australia explores the potential role of bats as carriers of zoonotic diseases, specifically Cryptosporidium and Giardia. The study found that while bats do harbor various pathogens, the risk of zoonotic transmission of Cryptosporidium from bats to humans appears to be low. However, the role of bats as reservoirs of zoonotic Giardia species remains unknown. The researchers recommend further comprehensive research on Cryptosporidium and Giardia in bats to mitigate potential risks of zoonotic transmission. The study suggests that future research should include a broader range of bat species and locations, with a focus on those adapted to urban environments. [Extracted from the article]

Published

2023

8. Novel coronaviruses, astroviruses, adenoviruses and circoviruses in insectivorous bats from northern China.

Author

Han, H.‐J., Wen, H.‐L., Zhao, L., Liu, J.‐W., Luo, L.‐M., Zhou, C.‐M., Qin, X.‐R., Zhu, Y.‐L., Liu, M.‐M., Qi, R., Li, W.‐Q., Yu, H., and Yu, X.‐J.

Subjects

*BATS as carriers of disease, *CORONAVIRUSES, *ASTROVIRUSES, *ADENOVIRUSES, *CIRCOVIRUSES, *ZOONOSES

Abstract

Bats are considered as the reservoirs of several emerging infectious disease, and novel viruses are continually found in bats all around the world. Studies conducted in southern China found that bats carried a variety of viruses. However, few studies have been conducted on bats in northern China, which harbours a diversity of endemic insectivorous bats. It is important to understand the prevalence and diversity of viruses circulating in bats in northern China. In this study, a total of 145 insectivorous bats representing six species were collected from northern China and screened with degenerate primers for viruses belonging to six families, including coronaviruses, astroviruses, hantaviruses, paramyxoviruses, adenoviruses and circoviruses. Our study found that four of the viruses screened for were positive and the overall detection rates for astroviruses, coronaviruses, adenoviruses and circoviruses in bats were 21.4%, 15.9%, 20% and 37.2%, respectively. In addition, we found that bats in northern China harboured a diversity of novel viruses. Common Serotine ( Eptesicus serotinu), Fringed long-footed Myotis ( Myotis fimriatus) and Peking Myotis ( Myotis pequinius) were investigated in China for the first time. Our study provided new information on the ecology and phylogeny of bat-borne viruses. [ABSTRACT FROM AUTHOR]

Published

2017

9. immunological Control of Viral infections in Bats and the emergence of Viruses Highly pathogenic to Humans.

Author

Schountz, Tony, Baker, Michelle L., Butler, John, and Munster, Vincent

Subjects

BATS as carriers of disease, VIRUS disease transmission, IMMUNOLOGY, PREVENTION

Abstract

Bats are reservoir hosts of many important viruses that cause substantial disease in humans, including coronaviruses, filoviruses, lyssaviruses, and henipaviruses. Other than the lyssaviruses, they do not appear to cause disease in the reservoir bats, thus an explanation for the dichotomous outcomes of infections of humans and bat reservoirs remains to be determined. Bats appear to have a few unusual features that may account for these differences, including evidence of constitutive interferon (IFN) activation and greater combinatorial diversity in immunoglobulin genes that do not undergo substantial affinity maturation. We propose these features may, in part, account for why bats can host these viruses without disease and how they may contribute to the highly pathogenic nature of bat-borne viruses after spillover into humans. Because of the constitutive IFN activity, bat-borne viruses may be shed at low levels from bat cells. With large naive antibody repertoires, bats may control the limited virus replication without the need for rapid affinity maturation, and this may explain why bats typically have low antibody titers to viruses. However, because bat viruses have evolved in high IFN environments, they have enhanced countermeasures against the IFN response. Thus, upon infection of human cells, where the IFN response is not constitutive, the viruses overwhelm the IFN response, leading to abundant virus replication and pathology. [ABSTRACT FROM AUTHOR]

Published

2017

10. Convergence of Humans, Bats, Trees, and Culture in Nipah Virus Transmission, Bangladesh.

Author

Gurley, Emily S., Hegde, Sonia T., Hossain, Kamal, Sazzad, Hossain M. S., Hossain, M. Jahangir, Rahman, Mahmudur, Sharker, M. A. Yushuf, Salje, Henrik, Islam, M. Saiful, Epstein, Jonathan H., Khan, Salah U., Kilpatrick, A. Marm, Daszak, Peter, and Luby, Stephen P.

Subjects

*ZOONOSES, *NIPAH virus, *ENCEPHALITIS, *SAP (Plant), *HEALTH risk assessment, *BATS as carriers of disease, *PUBLIC health, *INFECTIOUS disease transmission, *ANIMAL experimentation, *BATS, *COMPARATIVE studies, *EPIDEMICS, *FOOD habits, *RESEARCH methodology, *MEDICAL cooperation, *PARAMYXOVIRUSES, *PLANTS, *RESEARCH, *RESEARCH funding, *RURAL population, *EVALUATION research, *RELATIVE medical risk, *CASE-control method, *RNA virus infections, *PHYSIOLOGY

Abstract

Preventing emergence of new zoonotic viruses depends on understanding determinants for human risk. Nipah virus (NiV) is a lethal zoonotic pathogen that has spilled over from bats into human populations, with limited person-to-person transmission. We examined ecologic and human behavioral drivers of geographic variation for risk of NiV infection in Bangladesh. We visited 60 villages during 2011-2013 where cases of infection with NiV were identified and 147 control villages. We compared case villages with control villages for most likely drivers for risk of infection, including number of bats, persons, and date palm sap trees, and human date palm sap consumption behavior. Case villages were similar to control villages in many ways, including number of bats, persons, and date palm sap trees, but had a higher proportion of households in which someone drank sap. Reducing human consumption of sap could reduce virus transmission and risk for emergence of a more highly transmissible NiV strain. [ABSTRACT FROM AUTHOR]

Published

2017

11. Diversity and phylogenetic relationships among Bartonella strains from Thai bats.

Author

McKee, Clifton D., Kosoy, Michael Y., Bai, Ying, Osikowicz, Lynn M., Franka, Richard, Gilbert, Amy T., Boonmar, Sumalee, Rupprecht, Charles E., and Peruski, Leonard F.

Subjects

*BARTONELLA, *BACTERIAL diversity, *BACTERIA phylogeny, *BATS as carriers of disease, *CITRATE synthase

Abstract

Bartonellae are phylogenetically diverse, intracellular bacteria commonly found in mammals. Previous studies have demonstrated that bats have a high prevalence and diversity of Bartonella infections globally. Isolates (n = 42) were obtained from five bat species in four provinces of Thailand and analyzed using sequences of the citrate synthase gene (gltA). Sequences clustered into seven distinct genogroups; four of these genogroups displayed similarity with Bartonella spp. sequences from other bats in Southeast Asia, Africa, and Eastern Europe. Thirty of the isolates representing these seven genogroups were further characterized by sequencing four additional loci (ftsZ, nuoG, rpoB, and ITS) to clarify their evolutionary relationships with other Bartonella species and to assess patterns of diversity among strains. Among the seven genogroups, there were differences in the number of sequence variants, ranging from 1–5, and the amount of nucleotide divergence, ranging from 0.035–3.9%. Overall, these seven genogroups meet the criteria for distinction as novel Bartonella species, with sequence divergence among genogroups ranging from 6.4–15.8%. Evidence of intra- and intercontinental phylogenetic relationships and instances of homologous recombination among Bartonella genogroups in related bat species were found in Thai bats. [ABSTRACT FROM AUTHOR]

Published

2017

12. Molecular Survey of Bacterial Zoonotic Agents in Bats from the Country of Georgia (Caucasus).

Author

Bai, Ying, Urushadze, Lela, Osikowicz, Lynn, McKee, Clifton, Kuzmin, Ivan, Kandaurov, Andrei, Babuadze, Giorgi, Natradze, Ioseb, Imnadze, Paata, and Kosoy, Michael

Subjects

*ZOONOSES, *MOLECULAR epidemiology, *BACTERIAL DNA, *BATS as carriers of disease

Abstract

Bats are important reservoirs for many zoonotic pathogens. However, no surveys of bacterial pathogens in bats have been performed in the Caucasus region. To understand the occurrence and distribution of bacterial infections in these mammals, 218 bats belonging to eight species collected from four regions of Georgia were examined for Bartonella, Brucella, Leptospira, and Yersinia using molecular approaches. Bartonella DNA was detected in 77 (35%) bats from all eight species and was distributed in all four regions. The prevalence ranged 6–50% per bat species. The Bartonella DNA represented 25 unique genetic variants that clustered into 21 lineages. Brucella DNA was detected in two Miniopterus schreibersii bats and in two Myotis blythii bats, all of which were from Imereti (west-central region). Leptospira DNA was detected in 25 (13%) bats that included four M. schreibersii bats and 21 M. blythii bats collected from two regions. The Leptospira sequences represented five genetic variants with one of them being closely related to the zoonotic pathogen L. interrogans (98.6% genetic identity). No Yersinia DNA was detected in the bats. Mixed infections were observed in several cases. One M. blythii bat and one M. schreibersii bat were co-infected with Bartonella, Brucella, and Leptospira; one M. blythii bat and one M. schreibersii bat were co-infected with Bartonella and Brucella; 15 M. blythii bats and three M. schreibersii bats were co-infected with Bartonella and Leptospira. Our results suggest that bats in Georgia are exposed to multiple bacterial infections. Further studies are needed to evaluate pathogenicity of these agents to bats and their zoonotic potential. [ABSTRACT FROM AUTHOR]

Published

2017

13. The Global Phylogeography of Lyssaviruses - Challenging the 'Out of Africa' Hypothesis.

Author

Hayman, David T. S., Fooks, Anthony R., Marston, Denise A., and Garcia-R, Juan C.

Subjects

*PHYLOGEOGRAPHY, *LYSSAVIRUS, *RABIES virus, *BATS as carriers of disease, *NUCLEOPROTEINS, *NUCLEOTIDE sequencing

Abstract

Rabies virus kills tens of thousands of people globally each year, especially in resource-limited countries. Yet, there are genetically- and antigenically-related lyssaviruses, all capable of causing the disease rabies, circulating globally among bats without causing conspicuous disease outbreaks. The species richness and greater genetic diversity of African lyssaviruses, along with the lack of antibody cross-reactivity among them, has led to the hypothesis that Africa is the origin of lyssaviruses. This hypothesis was tested using a probabilistic phylogeographical approach. The nucleoprotein gene sequences from 153 representatives of 16 lyssavirus species, collected between 1956 and 2015, were used to develop a phylogenetic tree which incorporated relevant geographic and temporal data relating to the viruses. In addition, complete genome sequences from all 16 (putative) species were analysed. The most probable ancestral distribution for the internal nodes was inferred using three different approaches and was confirmed by analysis of complete genomes. These results support a Palearctic origin for lyssaviruses (posterior probability = 0.85), challenging the ‘out of Africa’ hypothesis, and suggest three independent transmission events to the Afrotropical region, representing the three phylogroups that form the three major lyssavirus clades. [ABSTRACT FROM AUTHOR]

Published

2016

14. Potential Exposures to Australian Bat Lyssavirus Notified in Queensland, Australia, 2009−2014.

Author

Si, Damin, Marquess, John, Donnan, Ellen, Harrower, Bruce, McCall, Bradley, Bennett, Sonya, and Lambert, Stephen

Subjects

*LYSSAVIRUS, *RABIES in animals, *BATS as carriers of disease, *MUCOUS membrane diseases, *INFECTION prevention, *PREVENTIVE medicine, *INFECTIOUS disease transmission, *THERAPEUTICS

Abstract

Background: Australian bat lyssavirus (ABLV) belongs to the genus Lyssavirus which also includes classic rabies virus and the European lyssaviruses. To date, the only three known human ABLV cases, all fatal, have been reported from Queensland, Australia. ABLV is widely distributed in Australian bats, and any bite or scratch from an Australian bat is considered a potential exposure to ABLV. Methodology/Principal Findings: Potential exposure to ABLV has been a notifiable condition in Queensland since 2005. We analysed notification data for potential exposures occurring between 2009 and 2014. There were 1,515 potential exposures to ABLV notified in Queensland, with an average annual notification rate of 5.6 per 100,000 population per year. The majority of notified individuals (96%) were potentially exposed to ABLV via bats, with a small number of cases potentially exposed via two ABLV infected horses and an ABLV infected human. The most common routes of potential exposure were through bat scratches (47%) or bites (37%), with less common routes being mucous membrane/broken skin exposure to bat saliva/brain tissue (2.2%). Intentional handling of bats by the general public was the major cause of potential exposures (56% of notifications). Examples of these potential exposures included people attempting to rescue bats caught in barbed wire fences/fruit tree netting, or attempting to remove bats from a home. Following potential exposures, 1,399 cases (92%) were recorded as having appropriate post-exposure prophylaxis (PEP) as defined in national guidelines, with the remainder having documentation of refusal or incomplete PEP. Up to a quarter of notifications occurred after two days from the potential exposure, but with some delays being more than three weeks. Of 393 bats available for testing during the reporting period, 20 (5.1%) had ABLV detected, including four species of megabats (all flying foxes) and one species of microbats (yellow-bellied sheathtail bat). Conclusions/Significance: Public health strategies should address the strong motivation of some members of the public to help injured bats or bats in distress, by emphasising that their action may harm the bat and put themselves at risk of the fatal ABLV infection. Alternative messaging should include seeking advice from professional animal rescue groups, or in the event of human contact, public health units. Further efforts are required to ensure that when potential exposure occurs, timely reporting and appropriate post-exposure prophylaxis occur. [ABSTRACT FROM AUTHOR]

Published

2016

15. Identification of Novel Betaherpesviruses in Iberian Bats Reveals Parallel Evolution.

Author

Pozo, Francisco, Juste, Javier, Vázquez-Morón, Sonia, Aznar-López, Carolina, Ibáñez, Carlos, Garin, Inazio, Aihartza, Joxerra, Casas, Inmaculada, Tenorio, Antonio, and Echevarría, Juan Emilio

Subjects

*HERPESVIRUS diseases, *OROPHARYNX, *BATS as carriers of disease, *VESPERTILIONIDAE, *PTEROPODIDAE, *VIRUS phylogeny, *BIOLOGICAL evolution, *POLYMERASE chain reaction, *DIAGNOSIS, *DISEASES

Abstract

A thorough search for bat herpesviruses was carried out in oropharyngeal samples taken from most of the bat species present in the Iberian Peninsula from the Vespertilionidae, Miniopteridae, Molossidae and Rhinolophidae families, in addition to a colony of captive fruit bats from the Pteropodidae family. By using two degenerate consensus PCR methods targeting two conserved genes, distinct and previously unrecognized bat-hosted herpesviruses were identified for the most of the tested species. All together a total of 42 potentially novel bat herpesviruses were partially characterized. Thirty-two of them were tentatively assigned to the Betaherpesvirinae subfamily while the remaining 10 were allocated into the Gammaherpesvirinae subfamily. Significant diversity was observed among the novel sequences when compared with type herpesvirus species of the ICTV-approved genera. The inferred phylogenetic relationships showed that most of the betaherpesviruses sequences fell into a well-supported unique monophyletic clade and support the recognition of a new betaherpesvirus genus. This clade is subdivided into three major clades, corresponding to the families of bats studied. This supports the hypothesis of a species-specific parallel evolution process between the potentially new betaherpesviruses and their bat hosts. Interestingly, two of the betaherpesviruses’ sequences detected in rhinolophid bats clustered together apart from the rest, closely related to viruses that belong to the Roseolovirus genus. This suggests a putative third roseolo lineage. On the contrary, no phylogenetic structure was detected among several potentially novel bat-hosted gammaherpesviruses found in the study. Remarkably, all of the possible novel bat herpesviruses described in this study are linked to a unique bat species. [ABSTRACT FROM AUTHOR]

Published

2016

16. Viral Diversity, Prey Preference, and Bartonella Prevalence in Desmodus rotundus in Guatemala.

Author

Wray, Amy, Olival, Kevin, Morán, David, Lopez, Maria, Alvarez, Danilo, Navarrete-Macias, Isamara, Liang, Eliza, Simmons, Nancy, Lipkin, W., Daszak, Peter, and Anthony, Simon

Subjects

BATS as carriers of disease, FILOVIRIDAE, DESMODUS rotundus, RABIES, INFECTIOUS disease transmission

Abstract

Certain bat species serve as natural reservoirs for pathogens in several key viral families including henipa-, lyssa-, corona-, and filoviruses, which may pose serious threats to human health. The Common Vampire Bat ( Desmodus rotundus), due to its abundance, sanguivorous feeding habit involving humans and domestic animals, and highly social behavioral ecology, may have an unusually high potential for interspecies disease transmission. Previous studies have investigated rabies dynamics in D. rotundus, yet the diversity of other viruses, bacteria, and other microbes that these bats may carry remains largely unknown. We screened 396 blood, urine, saliva, and fecal samples from D. rotundus captured in Guatemala for 13 viral families and genera. Positive results were found for rhabdovirus, adenovirus, and herpesvirus assays. We also screened these samples for Bartonella spp. and found that 38% of individuals tested positive. To characterize potential for interspecies transmission associated with feeding behavior, we also analyzed cytochrome B sequences from fecal samples to identify prey species and found that domestic cattle ( Bos taurus) made up the majority of blood meals. Our findings suggest that the risk of pathogen spillover from Desmodus rotundus, including between domestic animal species, is possible and warrants further investigation to characterize this microbial diversity and expand our understanding of foraging ecology in their populations. [ABSTRACT FROM AUTHOR]

Published

2016

17. A Generic Quantitative Risk Assessment Framework for the Entry of Bat-Borne Zoonotic Viruses into the European Union.

Author

Simons, Robin R. L., Horigan, Verity, Gale, Paul, Kosmider, Rowena D., Breed, Andrew C., and Snary, Emma L.

Subjects

*ZOONOSES, *EBOLA virus, *NIPAH virus, *BATS as carriers of disease, *HEALTH risk assessment

Abstract

Bat-borne viruses have been linked to a number of zoonotic diseases; in 2014 there have been human cases of Nipah virus (NiV) in Bangladesh and Ebola virus in West and Central Africa. Here we describe a model designed to provide initial quantitative predictions of the risk of entry of such viruses to European Union (EU) Member States (MSs) through four routes: human travel, legal trade (e.g. fruit and animal products), live animal movements and illegal importation of bushmeat. The model utilises available datasets to assess the movement via these routes between individual countries of the world and EU MSs. These data are combined with virus specific data to assess the relative risk of entry between EU MSs. As a case study, the model was parameterised for NiV. Scenario analyses showed that the selection of exporting countries with NiV and potentially contaminated trade products were essential to the accuracy of all model outputs. Uncertainty analyses of other model parameters identified that the model expected number of years to an introduction event within the EU was highly susceptible to the prevalence of NiV in bats. The relative rankings of the MSs and routes, however, were more robust. The UK, the Netherlands and Germany were consistently the most likely points of entry and the ranking of most MSs varied by no more than three places (maximum variation five places). Legal trade was consistently the most likely route of entry, only falling below human travel when the estimate of the prevalence of NiV in bats was particularly low. Any model-based calculation is dependent on the data available to feed into the model and there are distinct gaps in our knowledge, particularly in regard to various pathogen/virus as well as host/bat characteristics. However, the strengths of this model lie in the provision of relative comparisons of risk among routes and MSs. The potential for expansion of the model to include other routes and viruses and the possibility of rapid parameterisation demonstrates its potential for use in an outbreak situation. [ABSTRACT FROM AUTHOR]

Published

2016

18. Rabies in Costa Rica: Documentation of the Surveillance Program and the Endemic Situation from 1985 to 2014.

Author

Hutter, Sabine E., Brugger, Katharina, Sancho Vargas, Victor Hugo, González, Rocío, Aguilar, Olga, León, Bernal, Tichy, Alexander, Firth, Clair L., and Rubel, Franz

Subjects

*RABIES, *EPIDEMIOLOGY, *PUBLIC health surveillance, *BLOODSUCKING animals, *VAMPIRE bats, *BATS as carriers of disease

Abstract

This is the first comprehensive epidemiological analysis of rabies in Costa Rica. We characterized the occurrence of the disease and demonstrated its endemic nature in this country. In Costa Rica, as in other countries in Latin America, hematophagous vampire bats are the primary wildlife vectors transmitting the rabies virus to cattle herds. Between 1985 and 2014, a total of 78 outbreaks of bovine rabies was reported in Costa Rica, with documented cases of 723 dead cattle. Of cattle outbreaks, 82% occurred between 0 and 500 meters above sea level, and seasonality could be demonstrated on the Pacific side of the country, with significantly more outbreaks occurring during the wet season. A total of 1588 animal samples, or an average of 55 samples per year, was received by the veterinary authority (SENASA) for rabies diagnostic testing at this time. Of all samples tested, 9% (143/1588) were positive. Of these, 85.6% (125/1588) were from cattle; four dogs (0.3% [4/1588]) were diagnosed with rabies in this 30-year period. Simultaneously, an extremely low number ( n = 3) of autochthonous rabies cases were reported among human patients, all of which were fatal. However, given the virus' zoonotic characteristics and predominantly fatal outcome among both cattle and humans, it is extremely important for healthcare practitioners and veterinarians to be aware of the importance of adequate wound hygiene and postexpositional rabies prophylaxis when dealing with both wild and domestic animal bites. [ABSTRACT FROM AUTHOR]

Published

2016

19. Detection of Neospora caninum DNA by polymerase chain reaction in bats from Southern China.

Author

Wang, Xu, Li, Jianhua, Gong, Pengtao, Li, Xianhe, Zhang, Li, He, Biao, Xu, Lin, Yang, Zhengtao, Liu, Quan, and Zhang, Xichen

Subjects

*NEOSPORA caninum, *BATS as carriers of disease, *POLYMERASE chain reaction, *MYOTIS, *DNA analysis

Abstract

Neospora caninum is an intracellular protozoan that infects many domestic and wild animals. Domestic dogs and other canids function as definitive hosts, while other mammals serve as natural intermediate hosts. In the present study, the brain tissues of bats collected in Yunnan Province, Southern China were tested by N. caninum specific-nested PCR, targeting the Nc-5 gene and the internal transcribed spacer 1 (ITS1) region of the ribosomal DNA to determine whether bats could be infected with N. caninum . N. caninum DNA was detected in 1.8% (4/227) of bats, i.e., 1.7% (1/60) in Rousettus leschenaultia , 1.7% (1/58) in Hipposideros pomona , 2.9% (2/69) in Rhinolophus pusillus, and none (0/40) in Myotis daubentoniid. The findings of the present study are only the first indication that bats could serve as an intermediate host, and further studies are necessary to confirm whether bats are involved in the transmission of N. caninum infections. [ABSTRACT FROM AUTHOR]

Published

2018

20. Quantifying Global Drivers of Zoonotic Bat Viruses: A Process-Based Perspective.

Author

Brierley, Liam, Vonhof, Maarten J., Olival, Kevin J., Daszak, Peter, Jones, Kate E., Rohani, Pej, and Bronstein, Judith L.

Subjects

*EMERGING infectious diseases, *WORLD health, *ZOONOSES, *DISEASE vectors, *BATS as carriers of disease

Abstract

Emerging infectious diseases (EIDs), particularly zoonoses, represent a significant threat to global health. Emergence is often driven by anthropogenic activity (e.g., travel, land use change). Although disease emergence frameworks suggest multiple steps from initial zoonotic transmission to human-to-human spread, there have been few attempts to empirically model specific steps. We create a process-based framework to separate out components of individual emergence steps. We focus on early emergence and expand the first step, zoonotic transmission, into processes of generation of pathogen richness, transmission opportunity, and establishment, each with its own hypothesized drivers. Using this structure, we build a spatial empirical model of these drivers, taking bat viruses shared with humans as a case study. We show that drivers of both viral richness (host diversity and climatic variability) and transmission opportunity (human population density, bushmeat hunting, and livestock production) are associated with virus sharing between humans and bats. We also show spatial heterogeneity between the global patterns of these two processes, suggesting that high-priority locations for pathogen discovery and surveillance in wildlife may not necessarily coincide with those for public health intervention. Finally, we offer direction for future studies of zoonotic EIDs by highlighting the importance of the processes underlying their emergence. [ABSTRACT FROM AUTHOR]

Published

2016

21. Education to Action: Improving Public Perception of Bats.

Author

Hoffmaster, Eric, Vonk, Jennifer, and Mies, Rob

Subjects

*BAT behavior, *BATS as carriers of disease, *DISEASE vectors, *WHITE-nose syndrome, *POLLINATION by insects

Abstract

Public perception of bats has historically been largely negative with bats often portrayed as carriers of disease. Bats are commonly associated with vampire lore and thus elicit largely fearful reactions despite the fact that they are a vital and valuable part of the ecosystem. Bats provide a variety of essential services from pest control to plant pollination. Despite the benefits of bats to the environment and the economy, bats are suffering at the hands of humans. They are victims of turbines, human encroachment, pesticides, and, most recently, white nose syndrome. Because of their critical importance to the environment, humans should do what they can to help protect bats. We propose that humans will be more likely to do so if their perceptions and attitudes toward bats can be significantly improved. In a preliminary study we found some support for the idea that people can be educated about bats through bat oriented events and exhibits, and that this greater knowledge can inspire humans to act to save bats. [ABSTRACT FROM AUTHOR]

Published

2016

22. Alphacoronaviruses Detected in French Bats Are Phylogeographically Linked to Coronaviruses of European Bats.

Author

Goffard, Anne, Demanche, Christine, Arthur, Laurent, Pinçon, Claire, Michaux, Johan, and Dubuisson, Jean

Subjects

*CORONAVIRUSES, *BATS as carriers of disease, *CORONAVIRUS diseases, *PHYLOGEOGRAPHY, *RNA replicase

Abstract

Bats are a reservoir for a diverse range of viruses, including coronaviruses (CoVs). To determine the presence of CoVs in French bats, fecal samples were collected between July and August of 2014 from four bat species in seven different locations around the city of Bourges in France. We present for the first time the presence of alpha-CoVs in French Pipistrellus pipistrellus bat species with an estimated prevalence of 4.2%. Based on the analysis of a fragment of the RNA-dependent RNA polymerase (RdRp) gene, phylogenetic analyses show that alpha-CoVs sequences detected in French bats are closely related to other European bat alpha-CoVs. Phylogeographic analyses of RdRp sequences show that several CoVs strains circulate in European bats: (i) old strains detected that have probably diverged a long time ago and are detected in different bat subspecies; (ii) strains detected in Myotis and Pipistrellus bat species that have more recently diverged. Our findings support previous observations describing the complexity of the detected CoVs in bats worldwide. [ABSTRACT FROM AUTHOR]

Published

2015

23. Development of multiplexed bead arrays for the simultaneous detection of nucleic acid from multiple viruses in bat samples.

Author

Boyd, Victoria, Smith, Ina, Crameri, Gary, Burroughs, Amy L., Durr, Peter A., White, John, Cowled, Christopher, Marsh, Glenn A., and Wang, Lin-Fa

Subjects

*DIAGNOSTIC microbiology, *PATHOGENIC microorganisms, *IDENTIFICATION of pathogenic microorganisms, *NUCLEIC acids, *VIRAL transmission, *ANIMAL populations, *BATS as carriers of disease, *ANIMAL health

Abstract

Virus surveillance of wildlife populations is important for identifying, monitoring, and predicting the emergence of pathogens that pose a potential threat to animal and human health. Bats are identified as important wildlife hosts of many viruses capable of causing fatal human disease, including members of the henipaviruses, coronaviruses, rhabdoviruses and filoviruses. As global warming and habitat change are thought to impact upon pathogen transmission dynamics and increase the risk of spillover, virus surveillance in bat populations remains a significant component of efforts to improve the prediction and control of potential future disease outbreaks caused by bat-borne viruses. In this study we have developed two fluid bead array assays containing customized panels that target multiple bat-borne viruses. These assays detect up to 11 viral RNA's simultaneously in urine samples collected from wild bat populations in Australia and Bangladesh. The assays developed show high specificity for the target viruses and the analytical sensitivity compares favorably to qRT-PCR. These assays enhance the ability to monitor multi-pathogen dynamics and identify patterns of virus shedding from bat populations, thus informing key approaches to outbreak response and control. [ABSTRACT FROM AUTHOR]

Published

2015

24. Diversity of coronavirus in bats from Eastern Thailand.

Author

Wacharapluesadee, Supaporn, Duengkae, Prateep, Rodpan, Apaporn, Thongchai Kaewpom, Maneeorn, Patarapol, Budsabong Kanchanasaka, Sangchai Yingsakmongkon, Sittidetboripat, Nuntaporn, Chareesaen, Chaiyaporn, Khlangsap, Nathawat, Pidthong, Apisit, Leadprathom, Kumron, Ghai, Siriporn, Epstein, Jonathan H., Daszak, Peter, Olival, Kevin J., Blair, Patrick J., Callahan, Michael V., and Hemachudha, Thiravat

Subjects

*CORONAVIRUS genetics, *BATS as carriers of disease, *SARS disease, *MERS coronavirus, *RNA polymerases, *BETACORONAVIRUS

Abstract

Background: Bats are reservoirs for a diverse range of coronaviruses (CoVs), including those closely related to human pathogens such as Severe Acute Respiratory Syndrome (SARS) CoV and Middle East Respiratory Syndrome CoV. There are approximately 139 bat species reported to date in Thailand, of which two are endemic species. Due to the zoonotic potential of CoVs, standardized surveillance efforts to characterize viral diversity in wildlife are imperative. Findings: A total of 626 bats from 19 different bat species were individually sampled from 5 provinces in Eastern Thailand between 2008 and 2013 (84 fecal and 542 rectal swabs). Samples collected (either fresh feces or rectal swabs) were placed directly into RNA stabilization reagent, transported on ice within 24 hours and preserved at -80°C until further analysis. CoV RNA was detected in 47 specimens (7.6%), from 13 different bat species, using broadly reactive consensus PCR primers targeting the RNA-Dependent RNA Polymerase gene designed to detect all CoVs. Thirty seven alphacoronaviruses, nine lineage D betacoronaviruses, and one lineage B betacoronavirus (SARS-CoV related) were identified. Six new bat CoV reservoirs were identified in our study, namely Cynopterus sphinx, Taphozous melanopogon, Hipposideros lekaguli, Rhinolophus shameli, Scotophilus heathii and Megaderma lyra. Conclusions: CoVs from the same genetic lineage were found in different bat species roosting in similar or different locations. These data suggest that bat CoV lineages are not strictly concordant with their hosts. Our phylogenetic data indicates high diversity and a complex ecology of CoVs in bats sampled from specific areas in eastern regions of Thailand. Further characterization of additional CoV genes may be useful to better describe the CoV divergence. [ABSTRACT FROM AUTHOR]

Published

2015

25. DISTRIBUIÇÃO ESPAÇO-TEMPORAL DOS DIAGNÓSTICOS LABORATORIAIS DA RAIVA ANIMAL.

Author

Marcon Teixeira, Laura Helena, Guimarães Tomaz, Leonardo Aparecido, Coelho Linhares, Guido Fontgallad, de Sá Jayme, Valéria, and Cândida Santos, Marli Francisca

Subjects

RABIES in animals, CLINICAL pathology, BATS as carriers of disease, DESMODUS rotundus, EPIDEMIOLOGY, DIAGNOSIS, INFECTIOUS disease transmission

Abstract

Copyright of Ciência Animal Brasileira is the property of Universidade Federal de Goias, Escola de Veterinaria and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2015

26. MURCIÉLAGOS HEMATÓFAGOS COMO RESERVORIOS DE LA RABIA.

Author

Scheffer, Karin Corrêa, Iamamoto, Keila, Asano, Karen Miyuki, Mori, Enio, Estevez Garcia, Andrea Isabel, Achkar, Samira M., and Fahl, Willian de Oliveira

Subjects

*RABIES diagnosis, *RABIES prevention, *RABIES in dogs, *DESMODUS rotundus, *BATS as carriers of disease, *BLOODSUCKING animals, *PUBLIC health

Abstract

Rabies continues to be a challenge for public health authorities and a constraint to the livestock industry in Latin America. Wild and domestic canines and vampire bats are the main transmitter species and reservoirs of the disease. Currently, variations observed in the epidemiological profile of rabies, where the species of hematophagous bat Desmodus rotundus constitutes the main transmitting species. Over the years, knowledge has accumulated about the ecology, biology and behavior of this species and the natural history of rabies, which should lead to continuous development of methods of population control of d. Rotundus as well as prevention and diagnostic tools for rabies. Ecological relationships of this species with other hematophagous and non-hematophagous bats is unknown, and there is much room for improvement in reporting systems and surveillance, as well as creating greater awareness among the farming community. Understanding the impact of human-induced environmental changes on the rabies virus in bats should be cause for further investigation. This will require a combination of field studies with mathematical models and new diagnostic tools. This review aims to present the most relevant issues on the role of hematophagous bats as reservoirs and transmitters of the rabies virus. [ABSTRACT FROM AUTHOR]

Published

2014

27. A review of the bats of Trinidad and Tobago : descriptions, rabies infection, and ecology. Bulletin of the AMNH ; v. 122, article 3

Author

Goodwin, George Gilbert, Greenhall, Arthur Merwin, 1911, American Museum of Natural History Library, Goodwin, George Gilbert, and Greenhall, Arthur Merwin, 1911

Subjects

Bats, Bats as carriers of disease, Mammals, Rabies in animals, Trinidad and Tobago, Trinidad and Tobago

28. Cedar Virus: A Novel Henipavirus Isolated from Australian Bats.

Author

Marsh, Glenn A., De Jong, Carol, Barr, Jennifer A., Tachedjian, Mary, Smith, Craig, Middleton, Deborah, Meng Yu, Todd, Shawn, Foord, Adam J., Haring, Volker, Payne, Jean, Robinson, Rachel, Broz, Ivano, Crameri, Gary, Field, Hume E., and Lin-Fa Wang

Subjects

*HENIPAVIRUSES, *PTEROPODIDAE, *BATS, *BATS as carriers of disease, *NUCLEOCAPSIDS

Abstract

The genus Henipavirus in the family Paramyxoviridae contains two viruses, Hendra virus (HeV) and Nipah virus (NiV) for which pteropid bats act as the main natural reservoir. Each virus also causes serious and commonly lethal infection of people as well as various species of domestic animals, however little is known about the associated mechanisms of pathogenesis. Here, we report the isolation and characterization of a new paramyxovirus from pteropid bats, Cedar virus (CedPV), which shares significant features with the known henipaviruses. The genome size (18,162 nt) and organization of CedPV is very similar to that of HeV and NiV; its nucleocapsid protein displays antigenic cross-reactivity with henipaviruses; and it uses the same receptor molecule (ephrin- B2) for entry during infection. Preliminary challenge studies with CedPV in ferrets and guinea pigs, both susceptible to infection and disease with known henipaviruses, confirmed virus replication and production of neutralizing antibodies although clinical disease was not observed. In this context, it is interesting to note that the major genetic difference between CedPV and HeV or NiV lies within the coding strategy of the P gene, which is known to play an important role in evading the host innate immune system. Unlike HeV, NiV, and almost all known paramyxoviruses, the CedPV P gene lacks both RNA editing and also the coding capacity for the highly conserved V protein. Preliminary study indicated that CedPV infection of human cells induces a more robust IFN-β response than HeV. [ABSTRACT FROM AUTHOR]

Published

2012

29. Bats, emerging infectious diseases, and the rabies paradigm revisited.

Author

Kuzmin, Ivan V., Bozick, Brooke, Guagliardo, Sarah A., Kunkel, Rebekah, Shak, Joshua R., Tong, Suxiang, and Rupprecht, Charles E.

Subjects

*BATS as carriers of disease, *COMMUNICABLE diseases, *RABIES, *CORONAVIRUS diseases, *LYSSAVIRUS, *PATHOGENIC microorganisms, *PREVENTIVE medicine, *DATA analysis

Abstract

The significance of bats as sources of emerging infectious diseases has been increasingly appreciated, and new data have been accumulated rapidly during recent years. For some emerging pathogens the bat origin has been confirmed (such as lyssaviruses, henipaviruses, coronaviruses), for other it has been suggested (filoviruses). Several recently identified viruses remain to be 'orphan' but have a potential for further emergence (such as Tioman, Menangle, and Pulau viruses). In the present review we summarize information on major batassociated emerging infections and discuss specific characteristics of bats as carriers of pathogens (from evolutionary, ecological, and immunological positions). We also discuss drivers and forces of an infectious disease emergence and describe various existing and potential approaches for control and prevention of such infections at individual, populational, and societal levels. [ABSTRACT FROM AUTHOR]

Published

2011

30. Rabies virus in insectivorous bats: Implications of the diversity of the nucleoprotein and glycoprotein genes for molecular epidemiology

Author

Oliveira, Rafael de Novaes, de Souza, Sibele Pinheiro, Lobo, Renata Spinelli Vaz, Castilho, Juliana Galera, Macedo, Carla Isabel, Carnieli, Pedro, Fahl, Willian Oliveira, Achkar, Samira Maria, Scheffer, Karin Corrêa, Kotait, Ivanete, Carrieri, Maria Luiza, and Brandão, Paulo Eduardo

Subjects

*RABIES virus, *NUCLEOPROTEINS, *GLYCOPROTEINS, *BATS as carriers of disease, *MOLECULAR epidemiology, *BIOMARKERS, *VIROLOGY

Abstract

Abstract: Insectivorous bats are the main reservoirs of rabies virus (RABV) in various regions of the world. The aims of this study were to (a) establish genealogies for RABV strains from different species of Brazilian insectivorous bats based on the nucleoprotein (N) and glycoprotein (G) genes, (b) investigate specific RABV lineages associated with certain genera of bats and (c) identify molecular markers that can distinguish between these lineages. The genealogic analysis of N and G from 57 RABV strains revealed seven genus-specific clusters related to the insectivorous bats Myotis, Eptesicus, Nyctinomops, Molossus, Tadarida, Histiotus and Lasiurus. Molecular markers in the amino acid sequences were identified which were specific to the seven clusters. These results, which constitute a novel finding for this pathogen, show that there are at least seven independent epidemiological rabies cycles maintained by seven genera of insectivorous bats in Brazil. [ABSTRACT FROM AUTHOR]

Published

2010

31. Human rabies due to lyssavirus infection of bat origin

Author

Johnson, N., Vos, A., Freuling, C., Tordo, N., Fooks, A.R., and Müller, T.

Subjects

*RABIES, *LYSSAVIRUS, *ENCEPHALITIS viruses, *ANIMAL species, *DOMESTIC animals, *ZOONOSES, *ENCEPHALITIS, *BATS as carriers of disease

Abstract

Abstract: Rabies is a fatal viral encephalitis and results from infection with viruses belonging to the genus Lyssavirus. Infection usually results from a bite from a dog infected with classical rabies virus. However, a small number of cases result from contact with bats. It is within bats that most lyssavirus variants, referred to as genotypes, are found. The lyssaviruses found in bats have a distinct geographical distribution and are often restricted to specific bat species. Most have been associated with rabies in humans and in some cases spill-over to domestic animals. Many diagnostic techniques are unable to differentiate rabies virus from other genotypes so it is possible that some human and animal cases go unreported. Furthermore, current vaccines have limited efficacy against some genotypes. [Copyright &y& Elsevier]

Published

2010

32. Detection of Leishmania (Leishmania) amazonensis and Leishmania (Leishmania) infantum chagasi in Brazilian bats

Author

Savani, Elisa San Martin Mouriz, de Almeida, Marilene Fernandes, de Oliveira Camargo, Maria Cecília Gibrail, D’Auria, Sandra Regina Nicoletti, Silva, Miriam Martos Sodré, de Oliveira, Maria Lúcia, and Sacramento, Débora

Subjects

*LEISHMANIA, *DIAGNOSTIC microbiology, *PATHOGENIC microorganisms, *BATS as carriers of disease, *LEISHMANIASIS, *TRYPANOSOMA, *POLYMERASE chain reaction

Abstract

Abstract: Although bats are one of the most abundant mammals in the new world and are present in virtually all ecosystems, including urban and peri-urban environments, few studies have investigated the role of these animals in the epidemiological chain of leishmaniosis. Here, we report a study of 683 bats captured in São Paulo county (southeastern from Brazil), which were screened by serology, parasitologic methods and polymerase chain reaction (PCR) for trypanosomatids. The indirect immunofluorescent antibody test demonstrated that 0.9% of bats react positively for leishmaniosis and PCR detected the presence of DNA of Leishmania (Leishmania) amazonensis in 18 bats and Leishmania (Leishmania) infantum chagasi in 3 specimens. These results indicate that further studies are necessary to evaluate the role of bats in maintenance of the Leishmania life cycle, especially in areas where these diseases are endemic. [Copyright &y& Elsevier]

Published

2010

33. Endemic Circulation of European Bat Lyssavirus Type 1 in Serotine Bats, Spain.

Author

Vázquez-Morón, Sonia, Juste, Javier, Ibáñez, Carlos, Ruiz-Villamor, Eduardo, Avellón, Ana, Vera, Manuel, and Echevarría, Juan E.

Subjects

*BATS as carriers of disease, *BATS, *VIRUSES, *IMMUNOGLOBULINS, *GENOMES

Abstract

To determine the presence of European bat lyssavirus type 1 in southern Spain, we studied 19 colonies of serotine bats (Eptesicus isabellinus), its main reservoir, during 1998-2003. Viral genome and antibodies were detected in healthy bats, which suggests subclinical infection. The different temporal patterns of circulation found in each colony indicate independent endemic circulation. [ABSTRACT FROM AUTHOR]

Published

2008

34. Molecular Detection of Candidatus Bartonella hemsundetiensis in Bats.

Author

Lilley, Thomas M., Veikkolainen, Ville, and Pulliainen, Arto T.

Subjects

*CANDIDATUS diseases, *BARTONELLA infections, *BATS as carriers of disease, *POLYMERASE chain reaction, *NUCLEOTIDE sequence

Abstract

Although bats have been implicated as reservoir hosts for a number of zoonotic and life-threatening viruses, the bat bacterial flora and its zoonotic threat remain elusive. However, members of the vector-borne bacterial genera Bartonella causing various human as well as animal diseases have recently been isolated or detected from bats and their ectoparasites. In this study, we sampled 124 insectivorous microbats (Daubenton's bat, Myotis daubentonii) for peripheral blood in southwestern Finland in 2010. A Bartonella-specific PCR targeting rpoB (RNA polymerase β-subunit) was positive with blood samples from 46 bats (prevalence 37%). Scaled mass indexes of the infected and noninfected bats did not differ ( p = 0.057). One rpoB sequence was identical with the rpoB sequence of B. naantaliensis strain 2574/1, previously isolated from bats in Finland. The rest of the sequences were highly similar to each other with nucleotide identity scores of 96% or higher. Nucleotide identity scores to the previously described type strain sequences of Bartonella or other database entries were no higher than 87%. Sequence analyses of another gene, gltA (citrate synthase), gave no higher than 90% nucleotide identity scores. On the basis of the conventional 95% sequence similarity cutoff in bacterial species delineation, a novel species of Bartonella was detected. We propose a species name Candidatus B. hemsundetiensis. Phylogenetic analyses based on rpoB and gltA sequences indicate that Candidatus B. hemsundetiensis clusters in a deep-branching position close to the ancestral species B. tamiae and B. bacilliformis. Our study reinforces the importance of bats as reservoirs of Bartonella. [ABSTRACT FROM AUTHOR]

Published

2015

35. Correction: Leishmania (L.) mexicana Infected Bats in Mexico: Novel Potential Reservoirs.

Author

null, null

Subjects

*LEISHMANIA mexicana, *BATS as carriers of disease, *BATS

Abstract

A correction to the article "Leishmania (L.) mexicana Infected Bats in Mexico: Novel Potential Reservoirs" that was published in the 2015 issue is presented.

Published

2015

36. Going to bat.

Author

Choi, Charles Q.

Subjects

*BATS as carriers of disease, *BATS, *NIPAH virus, *EBOLA virus disease, *SARS disease, *EBOLA viral disease transmission, *VIRUS disease transmission, *VIRAL disease prevention, *ANIMALS, *PARAMYXOVIRUSES, *PUBLIC health, *RNA virus infections, *INFECTIOUS disease transmission

Abstract

This article reports that bats may be the origin of some of the most deadly emerging viruses, including SARS, Ebola, Nipah, Hendra, and Marburg. The Nipah and Hendra viruses were the first emerging diseases linked to bats. Blood tests of wildlife have suggested that the Nipah viruses came from the largest bats, flying foxes. In December of 2002, researchers connected fruit bats to Ebola. Many bats studied had antibodies against Ebola, suggesting it may have existed in bats for a long time, making them a suspected source of the disease. INSET: FEAR OF THE NEW.

Published

2006

37. SEROTYPING AND ANTIBIOGRAM OF E.COLI ISOLATES RECOVERED FROM BATS.

Author

Ingle, V. C., Tembhurne, P. A., Kamble, S., Undirwade, S., Ingle, R., Bhaisare, D., Wankhade, G., Meshram, Y., Lahade, V. C., Pawade, M., and Kalorey, D. R.

Subjects

*SEROTYPING, *BATS as laboratory animals, *BATS as carriers of disease, *ENTEROBACTERIACEAE, *MICROBIAL sensitivity tests, *CEPHALOSPORINS, *CIPROFLOXACIN, *OXYTETRACYCLINE

Abstract

Thirty five fecal samples from bats irrespective of breed, age and sex were processed for isolation of enteric bacteria. Out of these, 7 were found positive for E.coIi. All the isolates were subjected to hemolysin production, congo red dye binding ability, antibiotic sensitivity pattern and serotyping. One E.coli isolate was found positive for hemolysin production and one could bind congo red dye. The E.coli isolates were found highly sensitive towards ceftriaxone and ciprofloxacin followed by norfloxacin, cephalexin, amoxicillin, gentamycin and chioramphenicol. The isolates were found to be resistant towards oxytetracycline. Out of the 7 E.coli isolates, 2 were untypable and 5 were serotyped as O116 (3.) and O13 (2). [ABSTRACT FROM AUTHOR]

Published

2012

38. Marburg Virus in Fruit Bat, Kenya.

Author

Kuzmin, Ivan V., Niezgoda, Michael, Franka, Richard, Agwanda, Bernard, Markotter, Wanda, Breiman, Robert F., Wun-Ju Shieh, Zaki, Sherif R., and Rupprecht, Charles E.

Subjects

*MARBURG virus, *MARBURG virus disease, *BATS as carriers of disease, *BATS, *CAVES

Abstract

The article describes human cases of Lake Victoria Marburgvirus (MARV) infection in Kenya in 1980 and 1987, which occurred after visits to the Kitum Cave at Mount Elgon. Blood, fecal and oral swab specimens as well as tissue samples were collected from bats from across the country during the period of June to July 2007 within the framework of the Global Disease Detection Program. Researchers extracted total RNA from pooled or individual liver, spleen and lung samples from the bats in order to determine the presence of the virus.

Published

2010

39. Bat-associated leptospirosis.

Author

Vashi, Neelam A., Reddy, Pavani, Wayne, Diane B., and Sabin, Bradley

Subjects

*LEPTOSPIROSIS diagnosis, *BATS as carriers of disease, *PATHOGENIC bacteria, *MULTIPLE organ failure, *SERODIAGNOSIS, *LEPTOSPIROSIS, *ANIMALS, *BATS, *GRAM-negative bacteria, *RESEARCH funding, *INFECTIOUS disease transmission, *THERAPEUTICS

Abstract

Leptospirosis is a globally prevalent disease that affects humans, causing systemic illness that may lead to multi-organ involvement. Clinical signs include sudden fever, general malaise, muscular pain, conjunctival suffusion, and jaundice. Disease is caused by pathogenic bacteria including over 200 serologic variants. Most serologic variants have primary reservoirs in wild mammals, which continually infect and colonize domesticated animals. The organism has been recovered from rats, swine, dogs, cattle, and other animals, notably bats. Most studies have focused on domestic animals as reservoir hosts; however, because of their abundance, spatial distribution, and interrelationship with domestic animals, bats are becoming an epidemiologically significant source of leptospires. We present a case of serologically confirmed leptospirosis after bat exposure to add to the growing literature of bats as a possible source of transmission. Recognition of the common presentation of leptospirosis and Weil's disease, and identification of animal vectors, including bats, allows for the selection of appropriate antibiotic management to aid in resolution of symptomotology. [ABSTRACT FROM AUTHOR]

Published

2010

40. Bat rabies: a lurking danger.

Author

Singhal, Natasha, Cannon, Anna, and Paul, Siba Prosad

Subjects

*RABIES, *BATS as carriers of disease, *NURSE-patient relationships, *DEATH rate, *RABIES vaccines, *SYMPTOMS, *RABIES diagnosis, *MAMMALS, *BATS, *DISEASE vectors, *NURSES, *PUBLIC health, *VACCINES, *OCCUPATIONAL roles

Abstract

The article discusses the health-related danger that is associated with bat rabies, and it mentions how close to 59,000 people around the world die each year from rabies. Symptoms of rabies such as fever, headache, and difficulty swallowing are examined, along with the roles that nurses play in diagnosing bat rabies in patients. It states that two types of bat rabies vaccines are available in Great Britain. The fatal nature of bat rabies is assessed.

Published

2019

41. Novel Bat Alphacoronaviruses in Southern China Support Chinese Horseshoe Bats as an Important Reservoir for Potential Novel Coronaviruses.

Author

Lau, Susanna K.P., Wong, Antonio C.P., Zhang, Libao, Luk, Hayes K.H., Kwok, Jamie S. L., Ahmed, Syed S., Cai, Jian-Piao, Zhao, Pyrear S.H., Teng, Jade L.L., Tsui, Stephen K.W., Yuen, Kwok-Yung, and Woo, Patrick C. Y.

Subjects

*BATS as carriers of disease, *CORONAVIRUS diseases, *EPIDEMICS, *BATS, *PUBLIC health

Abstract

While bats are increasingly recognized as a source of coronavirus epidemics, the diversity and emergence potential of bat coronaviruses remains to be fully understood. Among 1779 bat samples collected in China, diverse coronaviruses were detected in 32 samples from five different bat species by RT-PCR. Two novel alphacoronaviruses, Rhinolophus sinicus bat coronavirus HKU32 (Rs-BatCoV HKU32) and Tylonycteris robustula bat coronavirus HKU33 (Tr-BatCoV HKU33), were discovered from Chinese horseshoe bats in Hong Kong and greater bamboo bats in Guizhou Province, respectively. Genome analyses showed that Rs-BatCoV HKU32 is closely related to BatCoV HKU10 and related viruses from diverse bat families, whereas Tr-BatCoV HKU33 is closely related to BtNv-AlphaCoV and similar viruses exclusively from bats of Vespertilionidae family. The close relatedness of Rs-BatCoV HKU32 to BatCoV HKU10 which was also detected in Pomona roundleaf bats from the same country park suggests that these viruses may have the tendency of infecting genetically distant bat populations of close geographical proximity with subsequent genetic divergence. Moreover, the presence of SARSr-CoV ORF7a-like protein in Rs-BatCoV HKU32 suggests a common evolutionary origin of this accessory protein with SARS-CoV, also from Chinese horseshoe bats, an apparent reservoir for coronavirus epidemics. The emergence potential of Rs-BatCoV HKU32 should be explored. [ABSTRACT FROM AUTHOR]

Published

2019

42. Please Don't Eat the Flying Foxes.

Author

Selim, Jocelyn

Subjects

*NEUROLOGISTS, *BATS as carriers of disease, *DISEASE vectors, *DISEASE outbreaks, *FLYING foxes, *BATS

Abstract

Discusses a study by neurologist Oliver Sacks and ethnobotanist Paul Alan Cox on the link between flying foxes and the outbreak of an Alzheimer's-type diseases in Guam just after World War II. Source of toxins found in the bodies of flying foxes in the 1940s; Result of analysis of museum specimens of bats from the World War II era.

Published

2003

43. On Behalf of Bats.

Author

Williams, Ted

Subjects

*BATS, *BATS as carriers of disease

Abstract

Focuses on bats. Reasons behind's people's interest in bats; Effect of bats in humans; Human fear of rabies brought by bats; Misconception over bat-transmitted rabies; Factors that influence some people to evict bats from their households; Issue concerning the poisoning of house bats; Chemical-bat busting in Wisconsin; Danger of extinction of bats in the United States.

Published

1984

44. Bats and Coronaviruses.

Author

Banerjee, Arinjay, Kulcsar, Kirsten, Misra, Vikram, Frieman, Matthew, and Mossman, Karen

Subjects

*BATS as carriers of disease, *CORONAVIRUSES, *IMMUNE response, *IN vitro studies, *IN vivo studies, *MIDDLE East respiratory syndrome in animals

Abstract

Bats are speculated to be reservoirs of several emerging viruses including coronaviruses (CoVs) that cause serious disease in humans and agricultural animals. These include CoVs that cause severe acute respiratory syndrome (SARS), Middle East respiratory syndrome (MERS), porcine epidemic diarrhea (PED) and severe acute diarrhea syndrome (SADS). Bats that are naturally infected or experimentally infected do not demonstrate clinical signs of disease. These observations have allowed researchers to speculate that bats are the likely reservoirs or ancestral hosts for several CoVs. In this review, we follow the CoV outbreaks that are speculated to have originated in bats. We review studies that have allowed researchers to identify unique adaptation in bats that may allow them to harbor CoVs without severe disease. We speculate about future studies that are critical to identify how bats can harbor multiple strains of CoVs and factors that enable these viruses to "jump" from bats to other mammals. We hope that this review will enable readers to identify gaps in knowledge that currently exist and initiate a dialogue amongst bat researchers to share resources to overcome present limitations. [ABSTRACT FROM AUTHOR]

Published

2019

45. Comparative pathogenesis of rabies in bats and carnivores, and implications for spillover to humans.

Author

Begeman, Lineke, GeurtsvanKessel, Corine, Finke, Stefan, Freuling, Conrad M, Koopmans, Marion, Müller, Thomas, Ruigrok, Tom J H, and Kuiken, Thijs

Subjects

*RABIES diagnosis, *CARNIVOROUS animals, *BATS as carriers of disease, *DOGS as carriers of disease, *SKIN diseases, *DISEASES, *RABIES transmission, *ANIMALS, *BATS, *INFECTIOUS disease transmission, *FACE, *MAMMALS, *RABIES, *SKIN, *ZOONOSES

Abstract

Bat-acquired rabies is becoming increasingly common, and its diagnosis could be missed partly because its clinical presentation differs from that of dog-acquired rabies. We reviewed the scientific literature to compare the pathogenesis of rabies in bats and carnivores-including dogs-and related this pathogenesis to differences in the clinical presentation of bat-acquired and dog-acquired rabies in human beings. For bat-acquired rabies, we found that the histological site of exposure is usually limited to the skin, the anatomical site of exposure is more commonly the face, and the virus might be more adapted for entry via the skin than for dog-acquired rabies. These factors could help to explain several differences in clinical presentation between individuals with bat-acquired and those with dog-acquired rabies. A better understanding of these differences should improve the recording of a patient's history, enable drawing up of a more sophisticated list of clinical characteristics, and therefore obtain an earlier diagnosis of rabies after contact with a bat or carnivore that has rabies. [ABSTRACT FROM AUTHOR]

Published

2018

46. They Came in the Night.

Author

Guterman, Lila

Subjects

*BATS as carriers of disease, *BATS, *VIRAL transmission, *INFECTIOUS disease transmission, *ANTHROPOGENIC effects on nature, *HUMAN-animal relationships, *RESEARCH

Abstract

The article discusses how researchers are discovering that bats are the source of many strains of highly dangerous diseases. According to the researchers the viruses are not new, and that bats have carried the diseases without getting sick for hundreds of thousands of years, which indicates that something has changed that allowed the viruses to spill over into the human population. The researchers believe that the viruses may now be entering the human population because of the destruction of the bats' habitats. An overview is presented of the research being conducted on the issue.

Published

2007

47. Biannual birth pulses allow filoviruses to persist in bat populations.

Author

Hayman, David T. S.

Subjects

*BATS as carriers of disease, *EBOLA viral disease transmission, *FILOVIRIDAE, *VIRAL ecology, *BAT reproduction, *ROUSETTUS aegyptiacus, *HOST-parasite relationships

Abstract

Filoviruses Ebolavirus (EBOV) and Marburgvirus (MARV) cause haemorrhagic fevers with high mortality rates, posing significant threats to public health. To understand transmission into human populations, filovirus dynamics within reservoir host populations must be understood. Studies have directly linked filoviruses to bats, but the mechanisms allowing viral persistence within bat populations are poorly understood. Theory suggests seasonal birthing may decrease the probability of pathogen persistence within populations, but data suggest MARV may persist within colonies of seasonally breeding Egyptian fruit bats, Rousettus aegyptiacus. I synthesize available filovirus and bat data in a stochastic compartmental model to explore fundamental questions relating to filovirus ecology: can filoviruses persist within isolated bat colonies; do critical community sizes exist; and how do host–pathogen relationships affect spillover transmission potential? Synchronous annual breeding and shorter incubation periods did not allow filovirus persistence, whereas bi-annual breeding and longer incubation periods, such as reported for Egyptian fruit bats and EBOV in experimental studies, allowed persistence in colony sizes often found in nature. Serological data support the findings, with bats from species with two annual birth pulses more likely to be seropositive (odds ratio (OR) 4.4, 95% confidence interval (CI) 2.5–8.7) than those with one, suggesting that biannual birthing is necessary for filovirus persistence. [ABSTRACT FROM AUTHOR]

Published

2015

48. Science corner

Subjects

Bats, Bats as carriers of disease, Children's questions and answers

Abstract

Boy: Why do people think you are bad? Bat: They may have heard scary stories about me that are not true. But people who know about bats like to have […]

Published

2002

49. In Suburbs, the Batman Meets His Villain.

Author

Gross, Jane

Subjects

*BATS, *WILDLIFE control, *BATS as carriers of disease

Abstract

Focuses on the efforts of Jim Dreisacker, who runs Westchester Wildlife Control, to remove bats from dwellings in Westchester County, New York. Prices charged by Dreisacker for bat removal and proofing; State guidelines which require that all bats trapped inside a house are checked for rabies; Bat's value in controlling night-flying insects; Loyalty of bats to their roosting sites.

Published

2000

50. Virus Infections in Bats

Author

S. E. Sulkin, R. Allen, S. E. Sulkin, and R. Allen

Subjects

Virus diseases, Bats, Bats--Diseases, Bats as carriers of disease, Bats as laboratory animals, Communicable diseases, Animals as carriers of disease

Published

1974