Influence of deoxynivalenol-contaminated feed on the immune response of pigs after PRRSV vaccination and infection

Pierron, Alix; Stadler, Maria; Mair, Kerstin H.; Schmidt, Selma; Stas, Melissa R.; Dürlinger, Sophie; Kreutzmann, Heinrich; Knecht, Christian; Balka, Gyula; Lagler, Julia; Zaruba, Marianne; Rümenapf, Till; Saalmüller, Armin; Mayer, Eric; Ladinig, Andrea; Gerner, Wilhelm

doi:10.1007/s00204-023-03449-9

Cited by 3 publications

(1 citation statement)

References 42 publications

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“…After infection, losses in foetuses and suckling piglets raised up to 90%, and the return to oestrus rate peaked at 60% [26]. The virulence of this strain was demonstrated experimentally, both in the respiratory and reproductive model [27][28][29][30]. In the reproductive model, a comparable experimental setup to the current study was used.…”

Section: Discussionmentioning

confidence: 79%

Detection of PRRSV-1 in tongue fluids under experimental and field conditions and comparison of different sampling material for PRRSV sow herd monitoring

Dürlinger,

Kreutzmann,

Unterweger

et al. 2024

Porc Health Manag

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Background Infection with porcine reproductive and respiratory syndrome virus (PRRSV) leads to significant economic losses worldwide. One of the initial measures following an outbreak is to stabilise the herd and to prevent vertical transmission of PRRSV. The objective of this study was to detect PRRSV in different sampling material, both in an experimental model and on a commercial piglet producing farm, with a focus on evaluating the suitability of tongue fluid samples. Results In the experimental model, PRRSV negative pregnant gilts were infected with PRRSV-1 AUT15-33 on gestation day 85 and necropsy of gilts and foetuses was performed three weeks later. 38.3% of individual foetal serum and 39.4% of individual foetal thymus samples were considered PRRSV RT-qPCR positive. Tongue fluids from individual foetuses showed a 33.0% positivity rate. PRRSV RNA was detected in all but one sample of litter-wise pooled processing fluids and tongue fluids. In the field study, the investigated farm remained PRRSV positive and unstable for five consecutive farrowing groups after the start of the sampling process. Tongue fluid samples pooled by litter in the first investigated farrowing group had a 54.5% positivity rate, with the overall highest viral load obtained in the field study. In this farrowing group, 33.3% of investigated litter-wise pooled processing fluid samples and all investigated serum samples (pools of 4–6 individuals, two piglets per litter) were considered positive. Across all investigated farrowing groups, tongue fluid samples consistently showed the highest viral load. Moreover, tongue fluid samples contained the virus in moderate amounts for the longest time compared to the other investigated sampling material. Conclusion It can be concluded that the viral load in individual foetuses is higher in serum or thymus compared to tongue fluid samples. However, litter-wise pooled tongue fluid samples are well-suited for detecting vertical transmission within the herd, even when the suspected prevalence of vertical transmission events is low.

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