Session Details
[P2]C
Tue. Nov 11, 2025 4:40 PM - 5:10 PM JST
Tue. Nov 11, 2025 7:40 AM - 8:10 AM UTC
Tue. Nov 11, 2025 7:40 AM - 8:10 AM UTC
P2(4F)
[P2-003-C]Mycotoxin Analysis in Complete Feed at Japanese Swine Farms (2023-2024)
*Takanori Nebu1 (1. Elanco Japan K.K. (Japan))
[P2-006-C]A plant-based health premix exhibits antioxidant activity in a Caco-2 model and Drosophila melanogaster
Nina Neufeld2, *Jasna Bošnjak-Neumüller1, Gerald Klanert3, Nadiia Sadova3, Bettina Schwarzinger3, Marko Marko Vasiljević1 (1. PATENT CO. DOO (Serbia), 2. Agromed Austria GmbH (Austria), 3. University of Applied Sciences Upper Austria (Austria))
[P2-009-C]AN ATTEMPT TO REDUCE MORTALITY RATES IN SUCKLING PIG BY WHEY PROTEIN SUPPLEMENT
*MUNETAKA OI1, FUMIYASU NOUYAMA2 (1. OASIS (Japan), 2. MON-VERT NOUYAMA (Japan))
[P2-012-C]Fumonisin carboxylesterase FumD (FUMzyme®) counteracts the negative effects of fumonisin contaminated feed in weaning piglets
*Barbara Doupovec1, Doris Hartinger1, Veronika Nagl1, Dan Moore2, Jinquan Wang3, Dian Schatzmayr1 (1. dsm-firmenich, Animal Nutrition and Health (Austria), 2. Colorado Quality Research, Inc. (United States of America), 3. Institute of Feed Research, Chinese Academy of Agricultural Sciences (China))
[P2-015-C]Unlocking optimal growth and health in weaned piglets with an advanced formulation of benzoic acid: the power of synergistic acidification
*Wen Ren1 (1. dsm-firmenich, Animal Nutrition and Health, R&D Center (China))
[P2-018-C]Dietary supplementation of Bacillus subtilis on growth performance, health and Enterotoxigenic Escherichia coli in nursery pig
*JIRAMATE JITTIDECHA1, WIRIYA LOONGYAI1, CHAIYAPOOM BUNCHASAK1, WANPUECH PARNSEN2, ANANTAWAT KOONTANATECHANON2 (1. Department of Animal Science, Faculty of Agricultural, Kasetsart University (Thailand), 2. Feed technology office. Charoen pokphand group Co.,Ltd. (Thailand))
[P2-021-C]PROBIOTIC BACILLUS LICHENIFORMIS DSMZ 28710 SIGNIFICANTLY DECREASES EARLY DIARRHOEA IN PIGLETS VIA MATERNAL – INFANT TRANSMISSION
Wouter Van der Veken1, *Ulrich Klein1 (1. Huvepharma NV (Belgium))
[P2-024-C]Dietary supplementation of multi-strain probiotics promotes the growth performance and modulates intestinal morphology and microbiota in weaning piglets
*TING-YU LEE1, Chao-Wei Huang2, Shi-Yong Liu2, Bishnu Prasad Bhattarai2, Jai-Wei Lee2, Jin-Seng Lin1 (1. SYNBIO TECH INC. (Taiwan), 2. Department of Tropical Agriculture and International Cooperation, National Pingtung University of Science and Technology (Taiwan))
[P2-027-C]GAMMA AMINO BUTYRIC ACID SUPPLEMENT IN SOW FEED FOR IMPROVING BREEDER PERFORMANCE
*Metta Makhanon1, Phatchara Thawornchai2, Netchanok Malingam3 (1. Animal Health Consultant Freelance (Thailand), 2. Gavin Farm (Thailand), 3. Bestfarm Co., Ltd. (Thailand))
[P2-030-C]Microalgae beta-glucan Supplementation Improves Immune Health and Alleviates Stress Levels in Weaned Piglets
*Apichaya Taechavasonyoo1, Jun Young Mun2, Hans Lee1, Qian Wei Ong1, Gurugirijha Rathnasamy1, Dahye Kang1, Jin Soo Kim2 (1. Kemin Industries (Asia) Pte Limited (Singapore), 2. Kangwon National University (Korea))
[P2-033-C]INVESTIGATION OF THE BEHAVIOR OF FINISHER PIGS IN THE 24 HOURS BEFORE DEATH ON A COMMERCIAL FARM
*Masaaki Okayasu1, Yosuke Sasaki1 (1. Department of Agriculture, Graduate School of Agriculture, Meiji Univ., Japan (Japan))
[P2-036-C]BENEFITS OF MICROGRANULATED VETERINARY PREMIXES
Lieven Claerhout1, *Ulrich Klein1, Wouter Depondt1 (1. Huvepharma NV (Belgium))
[P2-039-C]Benefits of a portable handheld ultrasound in early pregnancy diagnosis in Sows
*Koichi Yabunaka1, Nobutoshi Kiyokawa2, Hajime Amasaki3, Mali Miyashita4 (1. Department of Ultrasound, Ono Memorial Hospital, Osaka (Japan), 2. Poroto farm, Hokkaido (Japan), 3. Department of veterinary anatomy, Nippon Veterinary and Life Science University, Tokyo (Japan), 4. Eckstein Swine Service, Tokyo (Japan))
[P2-042-C]The feed supplemental effect of Bacillus subtilis natto (Growgen-11) on IgG and IgA in sow colostrum, colostrum/milk microbiome and their piglet growth performance
Panida Chanapiwat1, *Kampon Kaeoket1 (1. Department of Clinical Sciences and Public Health, Faculty of Veterinary Science, Mahidol University, Thailand (Thailand))
[P2-045-C]SUITABILITY OF NANONISED FLORFENICOL FOR PROPORTIONERS
Lieven Claerhout1, *Ulrich Klein1, Ping-Yi Chen2, Wouter Depondt1 (1. Huvepharma NV (Belgium), 2. Huvepharma (Taiwan))
[P2-048-C]IMPLEMENTATION OF INDIVIDUAL PIG CARE (IPC) PROGRAM TARGETING PNEUMONIA AND STREPTOCOCCOSIS TO IMPROVE HEALTH AND REDUCE ANTIBIOTIC USE IN A JAPANESE NURSERY FARM
Ayaka Hasegawa1, Aki Mouri1, Misaki Igarashi1, *Josuke Mago2 (1. Kamifurano bokujo (Japan), 2. Zoetis Japan Inc. (Japan))
[P2-051-C]EFFECT OF GONADOTROPIN-RELEASING HORMONE AGONIST SUPPLEMENTATION IN BOAR SEMEN ON REPRODUCTIVE PERFORMANCE OF SOWS: A PRELIMINARY STUDY IN THE HOT SEASON
*Natchanon Dumniem1, Sh Boonnithi Chuaychu2, Piyawat Boonsaeng2, Padet Tummaruk1 (1. Department of Obstetrics, Gynaecology and Reproduction, Faculty of Veterinary Science, Chulalongkorn University (Thailand), 2. Vet Products Group Co., Ltd. (Thailand))
[P2-054-C]Investigation of Characteristics and Classification for Swine Vertebral Osteomyelitis in South Korea
*Seungjae Han1,2, Jeonghee Han2, Sungjae Kim3, Dongkyu Lee1, Changwon Im1 (1. Dodram Pig Farmers Cooperative Veterinary Clinic (Korea), 2. College of Veterinary Medicine and Institute of Veterinary Science, Kangwon National University (Korea), 3. Department of Companion Animal Health, Kyungbok University (Korea))
[P2-057-C]EXPLORATORY ANALYSIS OF PRODUCTIVITY FACTORS AFFECTING GREENHOUSE GAS EMISSIONS ON TEN JAPANESE SWINE FARMS
*Shota Yoshikawa1, Akifumi Ogino2, Yosuke Sasaki1 (1. Department of Agriculture, Meiji Univ., Japan (Japan), 2. National Agriculture and Food Research Organization (Japan))
[P2-060-C]Serum Neutralizing Antibody Responses and Growth Effects after Needle Intramuscular Versus Needle-Free Intradermal Vaccination Against Hog Cholera in 3 weeks old pigs
*Kochakorn - Direksin1, Hyunkyu - Jeong2 (1. Division of Livestock Medicine, Khon Kaen University, Thailand (Thailand), 2. Dodram Pig Research Center (Korea))
[P2-063-C]Antibacterial activity of the culture supernatant of Lactobacillus plantarum K9 against various pathogens isolated from swine in Korea
*JIN HUR3, Sam-Woong Kim1, Kyung-Jin Cho2 (1. Agri-Food Bio Convergence Institute, Gyeongsang National University, JinJu (Korea), 2. Eunjinbio co., ltd. Cheonan (Korea), 3. College of Veterinary Medicine, Jeonbuk National University. IkSan (Korea))
[P2-066-C]Early warning for African Swine Fever in Viet Nam using Internet-based data
*Dung Thi Le1, Pawin Padungtod1, Ngoc Thi Bich Pham1 (1. FAO ECTAD Viet Nam (Viet Nam))
[P2-069-C]Comparison of Diagnosis Predictions Based on Clinical Symptoms and Ultrasonography
*Makoto Furukawa1 (1. Hainoki Livestock Clinic (Japan))
[P2-072-C]Effectiveness of the smart injection device in reducing pork neck lesions
*Naritsara Boonraungrod1, Thongchai Amonrattanaporn1, Sasithorn Numkanisorn1 (1. Ceva Animal Health (Thailand) Ltd. (Thailand))
[P2-075-C]MOBILE TECHNOLOGY-ENHANCED ANIMAL DISEASE SURVEILLANCE USING A ONE HEALTH APPROACH IN VIETNAM
*Doheon Kwon1, Luong Hung Nam2, Thi Thu Hien Nguyen2, Sinh Dang-Xuan2, Fred Unger2, Hung Nguyen-Viet3, Hu Suk Lee1 (1. College of Veterinary Medicine, Chungnam National University (Korea), 2. Viet Nam office, International Livestock Research Institute (ILRI) (Viet Nam), 3. Kenya office, International Livestock Research Institute (ILRI) (Kenya))
[P2-078-C]Identifying control strategies to eliminate African swine fever from the United States swine industry in under 12 months
Abagael L Sykes1, Jason A Galvis, Kathleen C. O’Hara2, Lindsey Holmstrom2, Cesar Cesar3, *Gustavo Machado1 (1. Department of Population Health and Pathobiology, North Carolina State University, Raleigh, North Carolina, USA. (United States of America), 2. U.S. Department of Agriculture, Animal, and Plant Health Inspection Service, Veterinary Services, Strategy and Policy, Center for Epidemiology and Animal Health, Fort Collins, CO, USA. (United States of America), 3. Veterinary Population Medicine Department, College of Veterinary Medicine, University of Minnesota, St. Paul, MN, USA. (United States of America))
[P2-081-C]Optimizing the personnel requirements for efficient sampling during simulated African swine fever outbreaks in the United States
Muhammed Y. Satici1, Chunlin Yi1, Jason A. Galvis1, David Roberts1, Kathleen C. O’Hara2, Lisa Rochette2, *Gustavo Machado1 (1. Department of Population Health and Pathobiology, Department and Organization, North Carolina State University, Raleigh, NC, USA (United States of America), 2. US Department of Agriculture Animal and Plant Health Inspection Service, Veterinary Services, Strategy and Policy, Center for Epidemiology and Animal Health (United States of America))
[P2-084-C]EVALUATION OF THE ATTENUATION AND SAFETY OF CELL-ADAPTED AFRICAN SWINE FEVER VIRUS (PAJU STRAIN) VACCINE CANDIDATES
*Hyunji Gu1, Eun-Gyeong Lee1, Dae-Min Kim1, Jun Yeong Choi 1, Young-Seong Ko2, Sung-Hyun Moon2, Ho-Seong Cho2, Dongseob Tark1 (1. Korea Zoonosis Research Institute, Jeonbuk National University (Korea), 2. College of Veterinary Medicine and Bio-Safety Research Institute, Jeonbuk National University (Korea))
[P2-087-C]Whole genome sequences of African swine fever virus from outbreaks in several farms in Luzon, Philippines in 2024
Angel Antonio Tomas Manabat1, Rommel Masilungan1, Joseph Emil Rubico1, Rowena Marquez1, Ramon Guevara1, Christina San Esteban1, Roselle Falconite-Cudal1, Cherry Fernandez-Colorado2, Andrew Montecillo3, *Jimwel Bryan Christopher Palma Ferrer4, Zyne Baybay4, Ruffa Maze Balmes4, Joren Villegas4, Wreahlen Cariaso4, Homer Pantua4 (1. Philippine College of Swine Practitioners (Philippines), 2. College of Veterinary Medicine, University of the Philippines Los Baños (Philippines), 3. College of Arts and Sciences, University of the Philippines Los Baños (Philippines), 4. BioAssets Corporation (Philippines))
[P2-090-C]GENETIC AND PATHOGENIC CHARACTERISTICS OF AN EMERGING HIGHLY VIRULENT RECOMBINANT LINEAGE KOREAN CLADE C PRRSV STRAIN (Lineage 1J)
*Hyejin Na1, Jeongmin Suh1, Chanhee Chae1 (1. Seoul national university (Korea))
[P2-093-C]Detection of Porcine Circovirus Type 3 in Serum, Semen, Oral
Fluid, and Preputial Fluid Samples of Boars
*Song Qi1, Qi yun He1, Wei cheng Bei1 (1. National Key Laboratory of Agricultural Microbiology, College of Veterinary Medicine, Huazhong Agricultural University (China))
[P2-096-C]EVALUATION OF AN E2-CD83 SUBUNIT VACCINE FOR INDUCING IMMUNITY AGAINST CLASSICAL SWINE FEVER VIRUS
*ChienChun Kuo1, ChiChih Chen1, YuChieh Chen1,3, WenBin Chung1,2, HsoChi Chaung1,2, YaMei Chen1,2 (1. Research Center for Animal Biologics, National Pingtung University of Science and Technology (Taiwan), 2. Department of Veterinary Medicine, National Pingtung University of Science and Technology (Taiwan), 3. International Degree Program in Animal Vaccine Technology, National Pingtung University of Science and Technology (Taiwan))
[P2-099-C]CORRELATION ANALYSIS OF CLASSICAL SWINE FEVER ANTIBODY LEVELS DETECTED BY SERUM NEUTRALIZATION AND ENZYME-LINKED IMMUNOSORBENT ASSAY BEFORE AND AFTER VACCINATION
*Kewen Wang1, Qunshan Hu1, Haibing Guo1, Jing Wu1, Xiaofei Chen1, Laizhu Shang1, Limei Yang1, Yue Lu1, Ping Chen1, Yue Zhao1, ChoewKong Mah2 (1. Swine Business Unit, Zoetis China , Shanghai (China), 2. Global Commercial Development Livestock, Zoetis Inc (Thailand))
[P2-102-C]Application of an enzymatic assay for rapid detection of African swine fever virus (antigen) using pig products samples in Thailand retail market.
*Siriporn Tantawet1,3, Panida Chanapiwat1,3, Dusit Laohasinnarong1,3, Kampon Kaeoket1,3, Siriporn Tangsudjai2,3 (1. Department of Clinical Sciences and Public Health (Thailand), 2. The Monitoring and Surveillance Center for Zoonotic Diseases in Wildlife and Exotic Animals (Thailand), 3. Faculty of Veterinary Science, Mahidol University (Thailand))
[P2-105-C]First Report of Swine Orthopneumovirus From Domestic Pig Farms in the Republic of Korea
*Jonghyun Park1, Hye-Ryung Kim1, Dong-Kyu Lee1, Seung-Chun Park1, Choi-Kyu Park1 (1. Institute for Veterinary Biomedical Science, College of Veterinary Medicine, Kyungpook National Univ. (Korea))
[P2-108-C]Engineering a mouse-adapted SADS-CoV and establishing a neonatal mouse model to study its infection
mengjia zhang1, hanyu zhang1, qigai he1, *wentao li1 (1. National Key Laboratory of Agricultural Microbiology, College of Veterinary Medicine, Huazhong Agricultural University (China))
[P2-111-C]Isolation, Characterization and Whole Genome Analysis of G9 Group A Rotaviruses in China: Evidence for Possible Porcine–Human Interspecies Transmission and Public Health Implications
*Ahmed Hamdy Ghonaim1,2,3, Yi GuangYuan1,2, Lei Mingkai1,2, Li Wentao 1,2,4,5, He Qigai 1,2,4,5 (1. College of Veterinary Medicine, Huazhong Agricultural University (China), 2. Key Laboratory of Preventive Veterinary Medicine in Hubei Province, The Cooperative Innovation Centre for Sustainable Pig Production (China), 3. Desert Research Centre (Egypt), 4. Hubei Hongshan Laboratory (China), 5. The Animal Disease Diagnostic Centre of Huazhong Agricultural University (China))
[P2-114-C]Identification of SLC31A1 as a Host Factor for PDCoV Infection
*Jiaru Zhou1, Mengjia Zhang1, Qigai He1, Wentao Li1 (1. Huazhong Agricultural University (China))