Notes
Laia Aguirre et al. IPVS 2024
The present study aimed to assess the capability of neutralizing diverse PRRSV-1 contemporary strains in sows vaccinated with a PRRSV-1 MLV.
Notes
T Shimada et al. IPVS 2024
The aim of this study was to compare the efficacy of a PRRSV1 vaccine and a PRRSV2 vaccine on a PRRSV2-infected farm in Japan.
Notes
Yiu Y. et al. APVS 2023
This study aimed to evaluate the efficacy of using PRRSV1 MLV to improve the stability of a sow herd in a Taiwanese pig farm endemically infected with PRRSV2.
Notes
Salva Romero et al. ESPHM 2023
The objectives of this trial were to evaluate the efficacy of sow’s revaccination with SUIPRAVAC® PRRS (VP-046 KV, HIPRA) in reducing PRRS viraemia and its effect on reproductive parameters in a PRRS Rosalia positive farm in Spain.
Notes
Salvador Romero et al. IPVS 2022
The objective of this study was to analyze the combination of an MLV and a KV (SUIPRAVAC® PRRS, HIPRA) to maintain a high level of immunity against PRRSV in sows and to keep producing quality piglets.
Notes
Salvador Romero et al. IPVS 2022
The objective of this study was to assess the use of a KV in a combined protocol together with a MLV, evaluating the concentration of neutralizing antibodies in colostrum from sows and the stabilization of the piglets’ PRRSv status on PRRS endemic farms.
Notes
Arnaud Lebret et al. ESPHM 2022
The aim of the study was to evaluate performances and economic improvements after implementation of such protocol in a farrow-to-finish farm using UNISTRAIN® PRRS.
Notes
Joel Miranda et al. ESPHM 2021
The aim of this study was to establish a systematic monitoring programme for PRRSV in order to classify farms and evaluate the productive and economic impact of PRRSV infection under Dutch field conditions.
Notes
Cheong Yeotaek et al. IPVS 2020
Vaccination with MLV vaccines has been reported to achieve farm stabilisation more quickly than other methods. This is a case report of a clinical outbreak on a negative farm in Korea.
Notes
Torrents, D., Miranda, J., Pedrazuela, R. et al. Porcine Health Management 5, 26, 2019.
Implementation of PRRSV status classification system in swine breeding herds from a large integrated group in Spain.
Notes
Torrents, D et al.; AASV (American Association of Swine Veterinarians) Annual Meeting, 2019
These results provide better understanding of the productive impact of European PRRSV circulation in breeding farms, reinforcing the efforts to stabilize and maintain stable the PRRS-positive farms, especially in high-density swine production areas where elimination of PRRS virus is costly and of low risk of long-term success.
Notes
Sánchez-Matamoros, A. et al.; Porcine Health Management (2019) 5:11
https://doi.org/10.1186/s40813-019-0118-9
The aim of this study was to evaluate the safety and long-term immunity of the authorized combined administration of a PRRSV MLV vaccine and an inactivated vaccine against porcine parvovirus and Erysipelothrix rhusiopathiae simultaneously used.
Notes
Miranda, J. et al.; ESPHM Congress 2019.
The aim of this study was to assess the dynamics of homologous neutralizing antibodies (NA) against the PRRSV MLV vaccine strain during this immunization schedule are presented.
Notes
Torrents, D et al.; ESPHM Congress 2019.
The aim of this study was to evaluate the economic benefits of achieving PRRS stability in PRRS positive unstable breeding herds due to the improvement of the number of weaned piglets.
Notes
Torrents, D. et al.; ESPHM Congress 2019.
The aim of this study was to assess the effect of SMV with UNISTRAIN® PRRS on the likelihood of changing a PRRS stable status classification of breeding herds.
Notes
Torrents, D. et al.; ESPHM Congress 2019.
The aim of this study was to assess the impact of SMV with UNISTRAIN® PRRS on the productive performance of PRRS stable breeding herds.
Notes
Fenech, M et al.; ESPHM 2018.
The results obtained allow us to conclude that vaccination of gilts with UNISTRAIN® PRRS ID using a Hipradermic® device enabled the gilts to clear the virus and reduced its vertical and horizontal transmission to piglets.
Notes
Fenech, M et al.; ESPHM 2018.
The results obtained allow us to conclude that a single vaccination of gilts with UNISTRAIN® PRRS ID using a Hipradermic® device is safe and significantly reduced reproductive failure caused by heterologous wild-type PRRS infection during gestation.
Notes
Fenech, M et al.; ESPHM 2018.
Vaccination of gilts with UNISTRAIN® PRRS ID by Hipradermic® improves piglet performance. Moreover, piglets were healthiest during the lactation period and the number of weaned piglets also increased when females were vaccinated with UNISTRAIN® PRRS.
Notes
Fenech, M. et al.; ESPHM 2013.
Vaccination of gilts with UNISTRAIN® PRRS allowed piglets born from PRRSV infected gilts to survive and clearly perform better during lactation period.
Notes
Fenech, M., et al.; ESPHM 2013.
Vaccination of sows with UNISTRAIN® PRRS allowed piglets born from PRRSV infected sows to survive and clearly perform better during lactation period.
Notes
Fenech, M. et al.; ESPHM 2013.
Vaccination with UNISTRAIN® PRRS enabled gestating sows to clear the virus and reduced its vertical and horizontal transmission to foetuses. There was a reduction of shedding and infection pressure.
Notes
Fenech, M. et al.; ESPHM 2013.
Vaccination with UNISTRAIN® PRRS significantly reduced reproductive failure caused by wild-type infection during gestation. After vaccine administration there was not any adverse effect derived from vaccination. No abortion occurred in any vaccinated sow (100% farrowing rate).
Notes
Fenech, M. et al.; ESPHM 2013.
Vaccination with UNISTRAIN® PRRS significantly reduced reproductive failure caused by wild-type infection during gestation. After vaccine administration there was not any adverse effect derived from vaccination. No abortion occurred in any vaccinated sow (100% farrowing rate).