Extensive rearing hinders Maedi-Visna Virus (MVV) infection in sheep
Vet. Res., 37 6 (2006) 767-778
Published online: 2006-09-15
Articles citing this article
The Citing articles tool gives a list of articles citing the current article.
The citing articles come from EDP Sciences database, as well as other publishers participating in CrossRef Cited-by Linking Program. You can set up your personal account to receive an email alert each time this article is cited by a new article (see the menu on the right-hand side of the abstract page).
Cited article:
This article has been cited by the following article(s):
https://doi.org/10.1079/9781800629837.0002
Maternal transmission of Small Ruminant Lentivirus has no epidemiological importance
Andrew W. Illius and Nicholas J. SavillPreventive Veterinary Medicine 230 106297 (2024)
https://doi.org/10.1016/j.prevetmed.2024.106297
A Longitudinal Cohort Study of Risk Factors Associated with Small Ruminant Lentivirus Seropositivity in Intensively Reared Dairy Ewes in Greece
Aphrodite I. Kalogianni, Ilias Bouzalas, Ioannis Bossis and Athanasios I. GelasakisPathogens 12 (10) 1200 (2023)
https://doi.org/10.3390/pathogens12101200
Small Ruminant Lentivirus Infection in Sheep and Goats in North Portugal: Seroprevalence and Risk Factors
João Jacob-Ferreira, Ana Cláudia Coelho, Ana Grau Vila, Delia Lacasta and Hélder QuintasPathogens 12 (6) 829 (2023)
https://doi.org/10.3390/pathogens12060829
Seroepidemiology of Maedi-Visna in Intensively Reared Dairy Sheep: A Two-Year Prospective Study
Aphrodite I. Kalogianni, Ilias Bouzalas, Ioannis Bossis and Athanasios I. GelasakisAnimals 13 (14) 2273 (2023)
https://doi.org/10.3390/ani13142273
Viral diseases of sheep in Brazil: a review and current status
Bianca Santana de Cecco, Igor Ribeiro dos Santos, Franciéli Adriane Molossi, et al.Ciência Rural 53 (8) (2023)
https://doi.org/10.1590/0103-8478cr20220218
Factors associated with small ruminant lentivirus infection in goat herds from Pernambuco state, Northeast region of Brazil
José Andreey Almeida Teles, Sérgio Alves Nascimento, Elialdo Xavier Melo, Erivânia Camelo Almeida, Maria Fernanda Vianna Marvulo, Huber Rizzo, Denise Batista Nogueira, Sérgio Santos de Azevedo, Jean Carlos Ramos Silva and Roberto Soares CastroPreventive Veterinary Medicine 105814 (2022)
https://doi.org/10.1016/j.prevetmed.2022.105814
Accurate Diagnosis of Small Ruminant Lentivirus Infection Is Needed for Selection of Resistant Sheep through TMEM154 E35K Genotyping
Hugo Ramírez, Irache Echeverría, Alfredo A. Benito, Idoia Glaria, Julio Benavides, Valentín Pérez, Damián de Andrés and Ramsés ReinaPathogens 10 (1) 83 (2021)
https://doi.org/10.3390/pathogens10010083
Worldwide Prevalence of Small Ruminant Lentiviruses in Sheep: A Systematic Review and Meta-Analysis
Ricardo de Miguel, Marta Arrieta, Ana Rodríguez-Largo, Irache Echeverría, Raúl Resendiz, Estela Pérez, Héctor Ruiz, Marta Pérez, Damián de Andrés, Ramsés Reina, Ignacio de Blas and Lluís LujánAnimals 11 (3) 784 (2021)
https://doi.org/10.3390/ani11030784
Etiology, Epizootiology and Control of Maedi-Visna in Dairy Sheep: A Review
Aphrodite I. Kalogianni, Ioannis Bossis, Loukia V. Ekateriniadou and Athanasios I. GelasakisAnimals 10 (4) 616 (2020)
https://doi.org/10.3390/ani10040616
Epidemiology and control of maedi-visna virus: Curing the flock
Andrew W. Illius, Karianne Lievaart-Peterson, Tom N. McNeilly, Nicholas J. Savill and Stephen RavertyPLOS ONE 15 (9) e0238781 (2020)
https://doi.org/10.1371/journal.pone.0238781
Multi-Platform Detection of Small Ruminant Lentivirus Antibodies and Provirus as Biomarkers of Production Losses
Irache Echeverría, Ricardo De Miguel, Lorena De Pablo-Maiso, et al.Frontiers in Veterinary Science 7 (2020)
https://doi.org/10.3389/fvets.2020.00182
Dealing with maedi visna in UK sheep flocks
Nicky Ogden, Peers Davies and Fiona LovattIn Practice 41 (7) 321 (2019)
https://doi.org/10.1136/inp.l4838
Investigação sorológica das lentiviroses de pequenos ruminantes nas microrregiões homogêneas do Alto Médio Canindé, Picos e Floriano, Piauí, Brasil
Ricardo Abílio Bezerra e Silva, Maria do Carmo de Souza Batista, Raíssa Paula Araújo Alves, et al.Arquivos do Instituto Biológico 84 (2017)
https://doi.org/10.1590/1808-1657000302015
Serological survey of caprine arthritis-encephalitis virus infection in Japan
Misako KONISHI, Yoko HAYAMA, Hiroaki SHIRAFUJI, et al.Journal of Veterinary Medical Science 78 (3) 447 (2016)
https://doi.org/10.1292/jvms.15-0357
Small ruminant lentivirus infections and diseases
E. Minguijón, R. Reina, M. Pérez, et al.Veterinary Microbiology 181 (1-2) 75 (2015)
https://doi.org/10.1016/j.vetmic.2015.08.007
Incidence of infection in 39-month-old ewes with TMEM154 diplotypes “1 1,” “1 3,” and “3 3” after natural exposure to ovine progressive pneumonia virus1,2
K. A. Leymaster, C. G. Chitko-McKown and M. P. HeatonJournal of Animal Science 93 (1) 41 (2015)
https://doi.org/10.2527/jas.2014-8553
Scientific Opinion on the welfare risks related to the farming of sheep for wool, meat and milk production
EFSA Journal 12 (12) (2014)https://doi.org/10.2903/j.efsa.2014.3933
Ferramentas diagnósticas de Lentivirose de Pequenos Ruminantes: padronização da técnica de ELISA indireto
Caliandra Bona Nascimento, Raymundo Rizaldo Pinheiro, Francisco Selmo Fernandes Alves, et al.Arquivos do Instituto Biológico 81 (1) 9 (2014)
https://doi.org/10.1590/S1808-16572014000100003
Control of brucellosis and of respiratory Small Ruminant Lentivirus infection in small ruminants in the Basque country, Spain
R.A. Juste, I. Leginagoikoa, M. Villoria, et al.Small Ruminant Research 110 (2-3) 115 (2013)
https://doi.org/10.1016/j.smallrumres.2012.11.017
Expanding Possibilities for Intervention against Small Ruminant Lentiviruses through Genetic Marker-Assisted Selective Breeding
Stephen White and Donald KnowlesViruses 5 (6) 1466 (2013)
https://doi.org/10.3390/v5061466
Successful Visna/maedi control in a highly infected ovine dairy flock using serologic segregation and management strategies
M. Pérez, J.A. Muñoz, E. Biescas, et al.Preventive Veterinary Medicine 112 (3-4) 423 (2013)
https://doi.org/10.1016/j.prevetmed.2013.07.019
Detection of Small Ruminant Lentivirus in environmental samples of air and water
M. Villoria, I. Leginagoikoa, L. Luján, et al.Small Ruminant Research 110 (2-3) 155 (2013)
https://doi.org/10.1016/j.smallrumres.2012.11.025
Impact of maedi-visna in intensively managed dairy sheep
Julio Benavides, Miguel Fuertes, Carlos García-Pariente, et al.The Veterinary Journal 197 (3) 607 (2013)
https://doi.org/10.1016/j.tvjl.2013.03.031
Quantitative estimation of the impact of caprine arthritis encephalitis virus infection on milk production by dairy goats
Bernardo Martínez-Navalón, Cristòfol Peris, Ernesto A. Gómez, et al.The Veterinary Journal 197 (2) 311 (2013)
https://doi.org/10.1016/j.tvjl.2012.12.020
Ocorrência de anticorpos contra o vírus Maedi-Visna em ovinos Santa Inês, no Estado de Sergipe, Brasil
Carlos Eduardo D'Alencar Mendonça, Sílvia Letícia Bomfim Barros, Marcus Aurélio D'Alencar Mendonça, Vitor Andrade Accioly Guimarães and Raymundo Rizaldo PinheiroArquivos do Instituto Biológico 80 (3) 346 (2013)
https://doi.org/10.1590/S1808-16572013000300013
Simple control strategy to reduce the level of Maedi-Visna infection in sheep flocks with high prevalence values (>90%)
L. Polledo, J. González, C. Fernández, et al.Small Ruminant Research 112 (1-3) 224 (2013)
https://doi.org/10.1016/j.smallrumres.2012.12.010
Effects of TMEM154 haplotypes 1 and 3 on susceptibility to ovine progressive pneumonia virus following natural exposure in sheep1,2,3
K. A. Leymaster, C. G. Chitko-McKown, M. L. Clawson, G. P. Harhay and M. P. HeatonJournal of Animal Science 91 (11) 5114 (2013)
https://doi.org/10.2527/jas.2013-6663
Small Ruminant Lentiviruses: Genetic Variability, Tropism and Diagnosis
Hugo Ramírez, Ramsés Reina, Beatriz Amorena, Damián Andrés and Humberto MartínezViruses 5 (4) 1175 (2013)
https://doi.org/10.3390/v5041175
Perivascular inflammatory cells in ovine Visna/maedi encephalitis and their possible role in virus infection and lesion progression
Laura Polledo, Jorge González, Julio Benavides, et al.Journal of NeuroVirology 18 (6) 532 (2012)
https://doi.org/10.1007/s13365-012-0131-0
Patterns of Lesion and Local Host Cellular Immune Response in Natural Cases of Ovine Maedi-Visna
L. Polledo, J. González, J. Benavides, et al.Journal of Comparative Pathology 147 (1) 1 (2012)
https://doi.org/10.1016/j.jcpa.2011.09.003
Seroprevalence and risk factors associated with Visna/Maedi virus in semi-intensive lamb-producing flocks in northwestern Spain
N. Lago, C. López, R. Panadero, et al.Preventive Veterinary Medicine 103 (2-3) 163 (2012)
https://doi.org/10.1016/j.prevetmed.2011.09.019
Ovine Progressive Pneumonia Virus Is Transmitted More Effectively via Aerosol Nebulization than Oral Administration
Lynn M. Herrmann-Hoesing, Stephen N. White, Liam E. Broughton-Neiswanger, et al.Open Journal of Veterinary Medicine 02 (03) 113 (2012)
https://doi.org/10.4236/ojvm.2012.23019
Visna/maedi virus serology in sheep: Survey, risk factors and implementation of a successful control programme in Aragón (Spain)
M. Pérez, E. Biescas, X. de Andrés, et al.The Veterinary Journal 186 (2) 221 (2010)
https://doi.org/10.1016/j.tvjl.2009.07.031
MHC class II DRB1 gene polymorphism in the pathogenesis of Maedi–Visna and pulmonary adenocarcinoma viral diseases in sheep
Amaia Larruskain, Esmeralda Minguijón, Koldo García-Etxebarria, et al.Immunogenetics 62 (2) 75 (2010)
https://doi.org/10.1007/s00251-009-0419-2
Non-maternal transmission is the major mode of ovine lentivirus transmission in a ewe flock: A molecular epidemiology study
Liam E. Broughton-Neiswanger, Stephen N. White, Donald P. Knowles, et al.Infection, Genetics and Evolution 10 (7) 998 (2010)
https://doi.org/10.1016/j.meegid.2010.06.007
Effects of housing on the incidence of visna/maedi virus infection in sheep flocks
I. Leginagoikoa, E. Minguijón, R.A. Juste, et al.Research in Veterinary Science 88 (3) 415 (2010)
https://doi.org/10.1016/j.rvsc.2009.11.006
Lamb mortality in an outbreak of Yersinia pseudotuberculosis mastitis, as a collateral effect of colostrum feeding for Lentivirus-control
R.A. Juste, E. Minguijón, J. Arranz, M. Fuertes and I. Beltrán de HerediaSmall Ruminant Research 86 (1-3) 46 (2009)
https://doi.org/10.1016/j.smallrumres.2009.09.016
Improvements in the detection of small ruminant lentivirus infection in the blood of sheep by PCR
I. Leginagoikoa, E. Minguijón, E. Berriatua and R.A. JusteJournal of Virological Methods 156 (1-2) 145 (2009)
https://doi.org/10.1016/j.jviromet.2008.11.012
Geographical Variation and Factors Associated to Seroprevalence of Canine Leishmaniosis in an Endemic Mediterranean Area
F. Alonso, P. Giménez Font, M. Manchón, et al.Zoonoses and Public Health (2009)
https://doi.org/10.1111/j.1863-2378.2008.01228.x
The effect of climate change on the occurrence and prevalence of livestock diseases in Great Britain: a review
P. Gale, T. Drew, L.P. Phipps, G. David and M. WooldridgeJournal of Applied Microbiology 106 (5) 1409 (2009)
https://doi.org/10.1111/j.1365-2672.2008.04036.x
Prevention strategies against small ruminant lentiviruses: An update
Ramsés Reina, Eduardo Berriatua, Lluís Luján, et al.The Veterinary Journal 182 (1) 31 (2009)
https://doi.org/10.1016/j.tvjl.2008.05.008
The Welfare of Sheep
R.J. Kilgour, T. Waterhouse, C.M. Dwyer and I.D. IvanovAnimal Welfare, The Welfare of Sheep 6 213 (2008)
https://doi.org/10.1007/978-1-4020-8553-6_6
Differential infection efficiencies of peripheral lung and tracheal tissues in sheep infected with Visna/maedi virus via the respiratory tract
Tom N. McNeilly, Peter Tennant, Lluís Luján, Marta Pérez and Gordon D. HarkissJournal of General Virology 88 (2) 670 (2007)
https://doi.org/10.1099/vir.0.82434-0