Related references
Note: Only part of the references are listed.Recent Advances in the Diagnosis of Classical Swine Fever and Future Perspectives
Lihua Wang et al.
PATHOGENS (2020)
Classical swine fever vaccines-State-of-the-art
Sandra Blome et al.
VETERINARY MICROBIOLOGY (2017)
A decade of research into classical swine fever marker vaccine CP7_E2alf (Suvaxyn® CSF Marker): a review of vaccine properties
Sandra Blome et al.
VETERINARY RESEARCH (2017)
Evaluation of classical swine fever virus antibody detection assays with an emphasis on the differentiation of infected from vaccinated animals
S. SCHROEDER et al.
REVUE SCIENTIFIQUE ET TECHNIQUE-OFFICE INTERNATIONAL DES EPIZOOTIES (2016)
Discrimination within epitope specific antibody populations against Classical swine fever virus is a new means of differentiating infection from vaccination
Urs Bruderer et al.
JOURNAL OF IMMUNOLOGICAL METHODS (2015)
Evaluation of an Erns-based enzyme-linked immunosorbent assay to distinguish Classical swine fever virus-infected pigs from pigs vaccinated with CP7_E2alf
Katrin Pannhorst et al.
JOURNAL OF VETERINARY DIAGNOSTIC INVESTIGATION (2015)
Enhanced expression of the Erns protein of classical swine fever virus in yeast and its application in an indirect enzyme-linked immunosorbent assay for antibody differentiation of infected from vaccinated animals
Yuzi Luo et al.
JOURNAL OF VIROLOGICAL METHODS (2015)
Immune responses against classical swine fever virus: between ignorance and lunacy
Artur Summerfield et al.
FRONTIERS IN VETERINARY SCIENCE (2015)
Protective efficacy of a Classical swine fever virus C-strain deletion mutant and ability to differentiate infected from vaccinated animals
J. Kortekaas et al.
VETERINARY MICROBIOLOGY (2011)
Transmission of classical swine fever virus depends on the clinical course of infection which is associated with high and low levels of virus excretion
Eefke Weesendorp et al.
VETERINARY MICROBIOLOGY (2011)
Rational design of a classical swine fever C-strain vaccine virus that enables the differentiation between infected and vaccinated animals
J. Kortekaas et al.
JOURNAL OF VIROLOGICAL METHODS (2010)
Modified live marker vaccine candidate CP7_E2alf provides early onset of protection against lethal challenge infection with classical swine fever virus after both intramuscular and oral immunization
Immanuel Leifer et al.
VACCINE (2009)
An avirulent chimeric Pestivirus with altered cell tropism protects pigs against lethal infection with classical swine fever virus
I Reimann et al.
VIROLOGY (2004)
Detection of economically important viruses in boar semen by quantitative RealTime PCR™ technology
PA van Rijn et al.
JOURNAL OF VIROLOGICAL METHODS (2004)
Transmission of classical swine fever. A review
S Ribbens et al.
VETERINARY QUARTERLY (2004)
Vaccinology of classical swine fever: from lab to field
JT van Oirschot
VETERINARY MICROBIOLOGY (2003)
Chimeric classical swine fever viruses containing envelope protein ERNS or E2 of bovine viral diarrhoea virus protect pigs against challenge with CSFV and induce a distinguishable antibody response
HGP van Gennip et al.
VACCINE (2000)
Analysis of classical swine fever virus replication kinetics allows differentiation of highly virulent from avirulent strains
C Mittelholzer et al.
VETERINARY MICROBIOLOGY (2000)
Share Paper
