The Addition of Nature Identical Flavorings Accelerated the Virucidal Effect of Pure Benzoic Acid against African Swine Fever Viral Contamination of Complete Feed
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M. Walsh | Sébastien Potot | Heng Wang | J. Bergstrom | H. Zhai | chihai ji
[1] Z. Bu,et al. Emergence and prevalence of naturally occurring lower virulent African swine fever viruses in domestic pigs in China in 2020 , 2021, Science China Life Sciences.
[2] C. Garbossa,et al. Benzoic Acid Combined with Essential Oils Can Be an Alternative to the Use of Antibiotic Growth Promoters for Piglets Challenged with E. coli F4 , 2020, Animals : an open access journal from MDPI.
[3] S. Dee,et al. An evaluation of additives for mitigating the risk of virus‐contaminated feed using an ice‐block challenge model , 2020, Transboundary and emerging diseases.
[4] L. Yao,et al. Antiviral Effects of Plant-Derived Essential Oils and Their Components: An Updated Review , 2020, Molecules.
[5] Y. Luo,et al. The effects of benzoic acid and essential oils on growth performance, nutrient digestibility, and colonic microbiota in nursery pigs , 2020 .
[6] S. Blome,et al. African swine fever virus survival in buried wild boar carcasses. , 2020, Transboundary and emerging diseases.
[7] S. Dritz,et al. Reviewing the risk of feed as a vehicle for swine pathogen transmission , 2019, Veterinary medicine and science.
[8] J. Zimmerman,et al. Half-Life of African Swine Fever Virus in Shipped Feed , 2019, Emerging infectious diseases.
[9] Z. Rao,et al. Architecture of African swine fever virus and implications for viral assembly , 2019, Science.
[10] G. Woźniakowski,et al. African Swine Fever Virus – Persistence in Different Environmental Conditions and the Possibility of its Indirect Transmission , 2019, Journal of veterinary research.
[11] I. Kotowski,et al. The Role of Non-animal Origin Feed Ingredients in Transmission of Viral Pathogens of Swine: A Review of Scientific Literature , 2019, Front. Vet. Sci..
[12] S. Dritz,et al. Infectious Dose of African Swine Fever Virus When Consumed Naturally in Liquid or Feed , 2019, Emerging infectious diseases.
[13] A. Chesson,et al. Safety and efficacy of benzoic acid as a technological feed additive for weaned piglets and pigs for fattening , 2019, EFSA journal. European Food Safety Authority.
[14] Liling Liu,et al. Genome sequences derived from pig and dried blood pig feed samples provide important insights into the transmission of African swine fever virus in China in 2018 , 2019, Emerging microbes & infections.
[15] J. Zimmerman,et al. Correction: Survival of viral pathogens in animal feed ingredients under transboundary shipping models , 2018, PloS one.
[16] R. Main,et al. Determining the impact of commercial feed additives as potential porcine epidemic diarrhea virus mitigation strategies as determined by polymerase chain reaction analysis and bioassay , 2018, Translational animal science.
[17] Ju Ji,et al. Survival of viral pathogens in animal feed ingredients under transboundary shipping models , 2018, PloS one.
[18] Jinlong Wu,et al. Potential of essential oils for poultry and pigs , 2018, Animal nutrition.
[19] Jinlong Wu,et al. Growth performance of nursery and grower-finisher pigs fed diets supplemented with benzoic acid , 2017, Animal nutrition.
[20] I. Galindo,et al. African Swine Fever Virus: A Review , 2017, Viruses.
[21] X. Mao,et al. Effects of benzoic acid (VevoVitall®) on the performance and jejunal digestive physiology in young pigs , 2016, Journal of Animal Science and Biotechnology.
[22] C. Guinat,et al. Attitudes and Beliefs of Pig Farmers and Wild Boar Hunters Towards Reporting of African Swine Fever in Bulgaria, Germany and the Western Part of the Russian Federation. , 2016, Transboundary and emerging diseases.
[23] C. Guinat,et al. Transmission routes of African swine fever virus to domestic pigs: current knowledge and future research directions , 2016, Veterinary Record.
[24] Daiwen Chen,et al. Effects of dietary supplementation with benzoic acid on intestinal morphological structure and microflora in weaned piglets , 2014 .
[25] S. Dee,et al. An evaluation of contaminated complete feed as a vehicle for porcine epidemic diarrhea virus infection of naïve pigs following consumption via natural feeding behavior: proof of concept , 2014, BMC Veterinary Research.
[26] M. Beer,et al. Pathogenesis of African swine fever in domestic pigs and European wild boar. , 2013, Virus research.
[27] M. J. Bustos,et al. Methods for Growing and Titrating African Swine Fever Virus: Field and Laboratory Samples , 2011, Current protocols in cell biology.
[28] T. J. Kim,et al. Dietary supplementation with benzoic acid improves apparent ileal digestibility of total nitrogen an , 2010 .
[29] I. Badiola,et al. Effects of benzoic acid on performance and ecology of gastrointestinal microbiota in weanling piglets , 2007 .
[30] P. Guggenbuhl,et al. Effects of dietary supplementation with benzoic acid (VevoVitall®) on the zootechnical performance, the gastrointestinal microflora and the ileal digestibility of the young pig , 2007 .
[31] B. Lubisi,et al. An investigation into natural resistance to African swine fever in domestic pigs from an endemic area in southern Africa. , 2004, Revue scientifique et technique.
[32] C. Cantoni,et al. Virucidal activity of organic acids , 1979 .
[33] A. Greig. Pathogenesis of African swine fever in pigs naturally exposed to the disease. , 1972, Journal of comparative pathology.