Documentos de Peel A.J.

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Mostrando 9 resultados de: 9

Bat flight and zoonotic viruses

Article

Abstract: Bats are sources of high viral diversity and high-profile zoonotic viruses worldwide. Although appar

Palabras claves:

Autores:

Andrew Alexander Cunningham, Cryan P.M., Fooks A.R., Hayman D.T.S., Luis A.D., O'Shea T.J., Peel A.J., Plowright R.K., Wood J.L.N.

Fuentes:

scopus

Continent-wide panmixia of an African fruit bat facilitates transmission of potentially zoonotic viruses

Article

Abstract: The straw-coloured fruit bat, Eidolon helvum, is Africa's most widely distributed and commonly hunte

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Autores:

Andrew Alexander Cunningham, Barr J.A., Broder C.C., Crameri G., Feldman K.S., Fooks A.R., Hayman D.T.S., Lembo T., Peel A.J., Rossiter S.J., Sargan D.R., Suu-Ire R.D., Wang L.F., Wood J.L.N.

Fuentes:

scopus

Deciphering serology to understand the ecology of infectious diseases in wildlife

Review

Abstract: The ecology of infectious disease in wildlife has become a pivotal theme in animal and public health

Palabras claves:

Antibody prevalence, Epidemiological models, immunity, Surveillance, Wildlife disease

Autores:

Andrew Alexander Cunningham, Bowen R., Fooks A.R., Gilbert A.T., Hayman D.T.S., Horton D.L., Mills J.N., Müller T., Peel A.J., Plowright R.K., Rupprecht C.E., Wood J.L.N.

Fuentes:

scopus

Domesticated animals as hosts of henipaviruses and filoviruses: A systematic review

Article

Abstract: Bat-borne viruses carry undeniable risks to the health of human beings and animals, and there is gro

Palabras claves:

Bat-borne viruses, Domesticated animals, Emerging zoonotic viruses, Filoviruses, Henipaviruses

Autores:

Andrew Alexander Cunningham, Garnier R., Glennon E.E., Osei-Amponsah R., Peel A.J., Restif O., Sbarbaro S., Suu-Ire R.D., Wood J.L.N.

Fuentes:

scopus

Disentangling serology to elucidate henipa- and filovirus transmission in Madagascar fruit bats

Article

Abstract: Bats are reservoirs for emerging human pathogens, including Hendra and Nipah henipaviruses and Ebola

Palabras claves:

age–seroprevalence, filovirus, Flying fox, force of infection, Fruit bat, henipavirus, Madagascar, zoonosis

Autores:

Andrew Alexander Cunningham, Broder C.C., Brook C.E., Dobson A.P., Gibson L., Héraud J.M., Metcalf C.J., Peel A.J., Ranaivoson H.C., Wood J.L.N.

Fuentes:

scopus

Henipavirus neutralising antibodies in an isolated island population of African fruit bats

Article

Abstract: Isolated islands provide valuable opportunities to study the persistence of viruses in wildlife popu

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Autores:

Andrew Alexander Cunningham, Barr J.A., Broder C.C., Crameri G., Feldman K.S., Fooks A.R., Hayman D.T.S., Loras A.F., Peel A.J., Wang L.F., Wood J.L.N., Wright E.

Fuentes:

scopus

What is stirring in the reservoir? Modelling mechanisms of henipavirus circulation in fruit bat hosts

Article

Abstract: Pathogen circulation among reservoir hosts is a precondition for zoonotic spillover. Unlike the acut

Palabras claves:

disease dynamics, Eidolon helvum, Fruit bats, henipavirus, Reservoir hosts, zoonosis

Autores:

Andrew Alexander Cunningham, Becker D.J., Garnier R., Gibson L., Glennon E.E., Hayman D.T.S., Peel A.J., Plowright R.K., Restif O., Suu-Ire R.D., Wood J.L.N.

Fuentes:

scopus

The equine Hendra virus vaccine remains a highly effective preventative measure against infection in horses and humans: ‘The imperative to develop a human vaccine for the Hendra virus in Australia’

Andrew Alexander Cunningham, Baker M., Barr J.A., Breed A.C., Broder C.C., Bryden W.L., Crameri G., Dhand N.K., Field H.E., Fulton I., Hayman D.T.S., Marsh G.A., Martin G., Peel A.J., Plowright R.K., Reid P.A., Restif O., Secombe C., Skerratt L.F., Smith I.L., Taylor M., Toribio J.A., Wang L.F., Wood J.L.N.

Fuentes:

scopus

The expectations and challenges of wildlife disease research in the era of genomics: Forecasting with a horizon scan-like exercise

Article

Abstract: The outbreak and transmission of disease-causing pathogens are contributing to the unprecedented rat

Palabras claves:

Biodiversity, bioinformatics, Comparative genomics, Host, Next generation DNA sequencing, Pathogen

Autores:

Antonides J.D., Baitchman E.J., Braun J., Chiu E., Dusek R.J., Elisa Bonaccorso, Fagre A.C., Fitak R.R., Forgacs D., Fountain-Jones N.M., Funk W.C., Gagne R.B., Ghersi B.M., Gilbertson M.L.J., Grimaldi W., Heisel S.E., Jardine C.M., Kamath P.L., Karmacharya D., Kozakiewicz C.P., Kraberger S., Kubiski S., Lee J.S., Loisel D.A., Malmberg J.L., McDonald C.A., Miller S., Mónica I. Páez-Vacas, O'Rourke D., Ott-Conn C.N., Pecon-Slattery J., Peel A.J., Stenglein M.D., Trumbo D.R., Turner W.C., VanAcker M.C., VandeWoude S., Worsley-Tonks K.E.L.

Fuentes:

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scopus

Mostrando 9 resultados de: 9

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Palabras Claves

Bat flight and zoonotic viruses

Continent-wide panmixia of an African fruit bat facilitates transmission of potentially zoonotic viruses

Deciphering serology to understand the ecology of infectious diseases in wildlife

Domesticated animals as hosts of henipaviruses and filoviruses: A systematic review

Disentangling serology to elucidate henipa- and filovirus transmission in Madagascar fruit bats

Henipavirus neutralising antibodies in an isolated island population of African fruit bats

What is stirring in the reservoir? Modelling mechanisms of henipavirus circulation in fruit bat hosts

The equine Hendra virus vaccine remains a highly effective preventative measure against infection in horses and humans: ‘The imperative to develop a human vaccine for the Hendra virus in Australia’

The expectations and challenges of wildlife disease research in the era of genomics: Forecasting with a horizon scan-like exercise