1477 (p = 0473). Our results also BGB324 clinical trial reported that
seronegative mares (EI < 1.2) at the time of parturition had more foals with higher concentrations of IgG antibodies specific to Neospora spp., S. neurona and T. gondii. On the other hand, seropositive mares (EI > 1.2) gave birth to a reduced number of serum reactive foals to the different tested parasites ( Fig. 2). Neospora spp., S. neurona and T. gondii are phylogenetically closely related Apicomplexan parasites ( Dubey et al., 2003). In this work, we analyzed of the distribution antibody (IgG) levels of mares in parturition between Neospora spp., S. neurona and T. gondii, in order to understand the serological status of mares and foals in infected animals. From an epidemiological point of view, our results show that the positivity to
more than one of these parasites is common in the sampled locations, which may indicate that the animals are subjected to risk factors to the different infections. Because these parasites are agents of neurologic and reproductive diseases in horses, as well as a public health concern (Leon et al., 2012 and Wobeser et al., 2009), http://www.selleckchem.com/products/Everolimus(RAD001).html it is evident that farm managers should adopt preventive measures against the propagation these parasites. In a serological study in horses conducted in Costa Rica, Central America, which examined the presence of antibodies against S. neurona, Neospora spp. and T. gondii, found 42.2%
of the horses seropositive for S. neurona, 3.5% for Neospora spp. and 34% for T. gondii ( Dangoudoubiyam et al., 2011). Although this study found low levels of positivity Neospora spp., other studies show distinct pattern of positivity. Namely, 14.4% of the horses were found to be positive for N. caninum in Curitiba, Brazil ( Villalobos et al., 2012), 30–32% in Iran ( Moraveji et al., 2011), and 24% in the Czech Republic ( Bartova et al., 2010). Additionally, a serological study that investigated the seroprevalence of S. neurona and N. hughesi in horses from Brazil also suggested that there is a higher percentage of S. neurona (69.95%) the positive animals than positive to N. hughesi (2.5%) ( Hoane et al., 2006). Although we also found the same trend in our study, there was a noticeable difference in the serological status of the cohorts for Neospora spp. We believe that these differences may be explained by the epidemiological characteristics of each region. Additionally, the prevalence status of the populations may be affected by host factors, such as age. Kligler et al. (2007) reported that the prevalence of infected animals for Neospora spp. is directly associated with the age of the horses, where seropositivity was usually present in animals with more than 10 years of age.