Disease surveillance in horses involves the systematic collection, analysis, and interpretation of health data to monitor and manage equine diseases. This process aids in the early detection of outbreaks, tracking of disease trends, and evaluation of control measures. Surveillance systems may incorporate various data sources, including clinical reports, laboratory testing, and field observations. These systems can focus on infectious diseases, such as equine influenza and West Nile virus, or non-infectious conditions affecting horse populations. This page compiles peer-reviewed research studies and scholarly articles that explore methodologies, technologies, and outcomes associated with disease surveillance in equine populations.
The results of integrated human and veterinary surveillance for West Nile virus (WNV) infections in Austria during the transmission seasons 2015 and 2016 are shown. Altogether WNV nucleic acid was detected in 21 humans, horses, wild birds and mosquito pools. In detail: in four human clinical cases [two cases of West Nile fever (WNF) and two cases of West Nile neuroinvasive disease (WNND)]; eight blood donors [among 145,541 tested donations], of which three remained asymptomatic and five subsequently developed mild WNF; two horses with WNND, of which one recovered and one had to be euthanized; ...
Lyons ET, Tolliver SC, Collins SS, Drudge JH, Granstrom DE.Data are presented on the last 3 years of a 7-year study (1989-1995) on transmission of natural infections of internal parasites in horse foals (n = 27) born in 1993, 1994, and 1995 on the same pasture on a farm in central Kentucky. The foals were in a closed breeding herd of horses. Research on the first 4 years (1989-1992) of the study was published earlier (Lyons et al., 1991, 1994). Thirty-five species of endoparasites were identified, including 24 species of small strongyles. Monthly, seasonal, and host-age transmission patterns were elucidated for the parasites. Comparison of data betwee...
Sloet van Oldruitenborgh-Oosterbaan MM, van Doorn DC, Holland W, van Herten J, Ploeger HW, Fink-Gremmels J.In dit artikel wordt alle regelgeving betreffende de receptplicht op een rijtje gezet, een kort overzicht gegeven van endoparasieten en hun bestrijding, en een leidraad gegeven van wat er van een 'redelijk bekwaam en redelijk handelend dierenarts' mag worden verwacht. De ecto-parasieten zijn in dit artikel buiten beschouwing gelaten, omdat daar-voor eigenlijk geen receptplichtige middelen beschikbaar zijn en dit onderwerp al uitgebreid is besproken in de 'Leidraad Infectieuze Aan-doeningen – Huid' (Tijdschr. Dier-geneeskd. 2008; 113: 388-392).
Guo K, Guo W, Liu D, Zhang W, Yang Y, Zhang Z, Li S, Wang J, Chu X, Wang Y, Hu Z, Wang X.The high abortion rate associated with Abortusequi (. Abortusequi) infection in equids has re-emerged over the past 10 years and has caused serious economic losses to China. Our previous studies showed that the flagellin FljB gene could distinguish . Abortusequi from most serotypes. In this study, the flagellin antigen was used to develop a competitive enzyme-linked immunosorbent assay (cELISA) that could be used to detect both horse and donkey serum samples using a monoclonal antibody (MAb) that was found to bind to FljB. A cELISA was established using the purified MAb coating of the plate ...
